Sort:
Version 1
4. December 2020.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments

Water Safety Planning (WSP), an approach which aims at ensuring safe drinking-water thorough a comprehensive risk system assessment and management process since its adoption by the International Water Association (IWA) and World Health Organization (WHO) seeks to support achieving the Sustainable Development Goal (SDG) target 6.1 to provide safe drinking-water for all.
Since  its adoption,  national governments have included them in national legislation to promote their implementation because of its immense benefits.

In scaling up effective up of WSP implementation across these different countries, this worldwide accepted approach needs to be supported by tools, resources, regulations and policies, guidelines to create the enabling environment and support stakeholder participation at the national level.

IWA with support from OPEC Fund for International Development (OFID), under the Climate Resilient Water Safety Planning Project has produced this document with a summary of existing national policy and guidelines to support WSP implementation.

Version 1
1. February 2011.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by CDC, 01. February, 2011

A Conceptual Framework to Evaluate the Impacts of Water Safety Plans

by CDC, 01. February, 2011

This paper outlines a conceptual framework for conducting this type of overall evaluation of the impacts of a WSP. Drawing examples from existing WSPs in various regions, the framework also illustrates the types of intermediate outcomes that can be expected during WSP implementation. This conceptual framework, which requires some familiarity with WSPs, is designed to be one of a set of tools to guide the implementation and evaluation of Water Safety Plans, along with the WHO guidelines (WHO, 2006), the Water Safety Plan Manual (Bartram et al, 2009) and other tools and resources developed for national or regional use1

Version 1
13. December 2022.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by WHO Regional Office for Europe, 14. October, 2022

A field guide to improving small drinking-water supplies: water safety planning for rural communities

by WHO Regional Office for Europe, 14. October, 2022

The WHO Guidelines for drinking-water quality recommend the water safety plan (‎WSP)‎ approach as the most effective way of ensuring continuous provision of safe drinking-water.

The challenges related to drinking-water supply in rural areas and small towns are of notable concern globally, but the WSP approach has been proven to work effectively in small-scale water supplies. It clearly emphasizes the importance of preventing waterborne disease, and supports communities in dealing with the everyday challenges of maintaining a reliable and safe water supply.

This second, updated edition of WHO’s Water safety plan: a field guide to improving drinking-water safety in small communities provides a step-by-step introduction to the WSP approach and includes a range of ready-to-use templates to assist those involved in rural water supply with developing and implementing their own WSPs.

Version 1
2. March 2008.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by US Department of Health and Human Services et al., 02. March, 2008

A guide to conducting household surveys for Water Safety Plans

by US Department of Health and Human Services et al., 02. March, 2008

The aim of this manual is to provide guidance on conducting a household survey as part of a Water Safety Plan for organized piped water supply systems in resource-limited settings. A household survey can help researchers to understand the fate of water from the time it reaches the home to the point of consumption. This survey contributes to Module 2 (System Assessment) of the Water Safety Plan, upon which the subsequent steps of hazard identification, consideration of control measures, and development of corrective actions, monitoring, and verification plans are based. Thus, the survey provides valuable information for the WSP team as the team goes through the process of system evaluation and implementation of changes resulting from the Water Safety Plan. Specific examples intended to guide the planner in designing the survey are provided in the appendices. A summary checklist for survey planning and completion is provided as Appendix A.

Version 1
22. March 2019.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by WHO, 22. March, 2019

A guide to equitable water safety planning: Ensuring no one is left behind

by WHO, 22. March, 2019

The lack of access to safe drinking-water is felt disproportionately by those who are disadvantaged socially, economically, demographically or geographically, and explicit consideration of these groups is required to understand and address disparities.

This document describes how, with relatively modest efforts, the water safety plan (WSP) approach can bring tangible improvements in water quality and availability for all users. By providing step-by-step guidance for all WSP stakeholders, as well as good practice examples from a broad range of countries and contexts, this document serves as a practical tool to help achieve safe water for all.

The electronic version of the PowerPoint slides presented in Tool F of the document, available under “Downloads” above, is intended to facilitate the integration of equity considerations into standard WSP training events.

Version 1
27. May 2020.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Asoka Jayaratne,, 27. May, 2020

A Journey Towards Safe Drinking Water for All

by Asoka Jayaratne,, 27. May, 2020

This water safety plan country report for Sri Lanka shares the key learnings from the country's WSP journey and achievements. The lessons learned can support the broader WSP global community for successful and practical WSP implementation.

Version 2
10. November 2015.
1 vote, average: 5.00 out of 51 vote, average: 5.00 out of 51 vote, average: 5.00 out of 51 vote, average: 5.00 out of 51 vote, average: 5.00 out of 5
0 comments
by WHO et al., 10. November, 2015

A practical guide to auditing Water Safety Plans

by WHO et al., 10. November, 2015

This document provides guidance on developing and implementing a WSP auditing scheme, covering such topics as the aim and role of auditing, auditor training and certification, audit criteria, audit timing and frequency and audit reporting. The guidance document includes examples, tips, tools and case studies, and it serves as a practical resource for policy makers, government bodies responsible for drinking-water regulation or surveillance and water suppliers implementing WSPs.

Version 1
11. August 2017.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Giuliana Ferrero et al., 17. July, 2017

A role-playing game for practising stakeholder collaboration in Water Safety Plans

by Giuliana Ferrero et al., 17. July, 2017

One of the challenges in the implementation of Water Safety Plans (WSPs) is stakeholder engagement. For this reason, IHE Delft Institute for Water Education has developed a role-playing game for practising stakeholder collaboration in WSP. The game can be used in WSP training or during educational activities for water safety and WSP at graduate and post-graduate level. Its goal is for participants to experience the importance of stakeholder engagement in WSPs, and particularly in the decision-making process when investing in the rehabilitation and maintenance of a drinking water supply system from catchment to consumers. Participants will experience how this process can be influenced by information exchange between stakeholders and how this will eventually lead to greater awareness when assembling the WSP team.

Version 2
1. November 2010.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Federica Gerber et al., 01. November, 2010

An Economic Assessment of Drinking Water Safety PlanningKoror-Airai, Palau

by Federica Gerber et al., 01. November, 2010

This document describes a preliminary economic assessment of the Koror-Airai, Palau drinking water safety plan. The information generated is to be used to inform stakeholders in Palau of the rewards from supporting the DWSP approach, demonstrating the potential benefits of investing in the Plan.

Version 0
17. October 2018.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Karen Setty et al., 01. September, 2018

Assessing operational performance benefits of a Water Safety Plan implemented in Southwestern France

by Karen Setty et al., 01. September, 2018

Aims: The World Health Organization (WHO) has recommended Water Safety Plans (WSPs)
since 2004 as a means to reduce drinking water contamination and risks to human health.
These risk management programs have shown promise across several potential areas of
evaluation, such as economic benefits and regulatory compliance. Since WSPs are largely
carried out by people who interact with water treatment equipment and processes, operational
performance indicators may be key to understanding the mechanisms behind desirable WSP
impacts such as water quality and public health improvement.
Method: This study reports performance measures collected at a WSP implementation
location in southwestern France over several years.
Results: Quantitative assessment of performance measures supported qualitative reports from
utility managers. Results indicate significantly reduced duration of low-chlorine events at one
production facility and a significant decrease in customer complaints related to water quality,
manifesting reported improvements in operational performance and the customer service
culture.
Conclusion: The findings demonstrate some success stories and potential areas of future
performance tracking. Cyclical iteration of the WSP can help to achieve continuous quality
improvement. Successfully applied evaluation criteria such as the number of water quality
complaints or alarm resolution time might be useful across other locations.

Version 1
2. November 2016.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by J.F. Loret et al., 01. October, 2016

Assessing the costs and benefits of Water Safety Plans

by J.F. Loret et al., 01. October, 2016

A survey was conducted to assess the costs and benefits of the WSPs developed at 197 production units operated by the SUEZ Company and serving a total of 10.6 million consumers in France, Spain, Cuba, Morocco and Macao. The results demonstrate benefits in terms of confidence of clients and health agencies. The main benefits however consist of a better control of hazards, especially new hazards that were previously overlooked, and of the treatments steps which are deemed as the most important for water safety. As the progress achieved is essentially linked with unregulated contaminants, improvements in compliance rate were rarely observed after implementation of WSPs. It is supposed that better control of these hazards, together with improved process control, result in improved safety for the consumers.

Version 2
1. August 2009.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Bob Breach , 01. August, 2009

Backsiphonage into the distribution network

by Bob Breach , 01. August, 2009

This document sets out information which allows water suppliers and others to work together to minimise the risk of backsiophange (that is, the reverse flow condition created by a difference in water pressures that causes water and associated contaminants to flow back into drinking-water distribution pipes).

Version 1
4. July 2011.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by WHO , 04. July, 2011

Bangladesh: Water safety plan

by WHO , 04. July, 2011

Under AusAid funding, WHO supported WSP implementation in 10 urban systems in Bangladesh. This case study reports on WSP facts, and provides a description of the status of urban and rural water supply in Bangladesh.

Version 1
17. May 2016.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Maria J. Gunnarsdottir et al., 07. June, 2012

Benefits of Water Safety Plans: Microbiology, Compliance, and Public Health

by Maria J. Gunnarsdottir et al., 07. June, 2012

The article describes an Icelandic study to determine the impact of WSP implementation on regulatory compliance, microbiological water quality, and incidence of clinical cases of diarrhea.

Version 1
1. November 2011.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by World Health Organization et al., 01. November, 2011

Bhutan: Water safety plan

by World Health Organization et al., 01. November, 2011

Under AusAid funding, WHO supported WSP implementation in Bhutan. This case study reports on key facts of the WSPs, and describes the status of water supply in Bhutan.

Version 1
4. May 2021.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by IWA,

Briefing Note-Water Safety Planning to improve public health, water security and climate resilience

by IWA,

The successful development and implementation of WSPs have many benefits common to all drinking water systems, with some that are unique to each system. The major benefit of implementation contributes to improving drinking water safety and quality. To achieve this WSPs provide a framework for risk reduction prevention of hazards and a better response to emergencies, which not only improves public health but can ensure better watershed management and resilience to climate impacts.

 

Version 1
19. February 2019.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Giuliana Ferrero et al., 31. January, 2019

Capacity building and training approaches for water safety plans: A comprehensive literature review.

by Giuliana Ferrero et al., 31. January, 2019

The World Health Organization has recommended Water Safety Plans (WSPs), a holistic risk assessment and risk management approach, for drinking-water suppliers across low-, middle- and high-income countries, since publishing its 2004 Guidelines for Drinking-Water Quality. While rapid WSP adoption has occurred, capacity is still catching up to implementation needs. Many countries and regions lack case examples, legal requirements, and training resources for WSPs, corresponding to widespread capacity shortfall in the water supply sector. We undertook a comprehensive review of the literature on capacity building and training for WSPs, with the goal of providing recommendations for multiple stakeholder groups at the scales of individual utilities, national governments, and intermediate units of governance. We propose a WSP training taxonomy and discuss it in relation to the stages of learning (introduction, practice, and reinforcement); describe the importance of customizing training to the target group, local language and circumstances; highlight the relevance of auditing for evaluating change over time; and call for robust methods to monitor WSP capacity development.

Version 1
4. November 2016.
1 vote, average: 5.00 out of 51 vote, average: 5.00 out of 51 vote, average: 5.00 out of 51 vote, average: 5.00 out of 51 vote, average: 5.00 out of 5
0 comments
by South-East Asia Regional Office of WHO , 27. April, 2016

Capacity Training on Urban Water Safety Planning – Training Modules

by South-East Asia Regional Office of WHO , 27. April, 2016

These training materials have been developed by the South-East Asia Regional Office of WHO to be used either to train trainers or to train operators of water supply utilities or sector stakeholders. They are intended for use by governments, NGOs, private sector, academic institutions and individuals. They may be used intensively over three or five days or included in longer educational programs either as part of academic courses or as part of continuing professional development training. They comprise:
- Presenters Guide,
- Participant’s Handbook,
- PowerPoint slides notes for presenter and PowerPoint Handouts for participants,
- Worksheets and other resources for participants
- Table group worksheets for use during the training programme.

 

Version 1
1. September 2009.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Department of health Victoria et al., 2011

Case Study on Water Safety Plan Implementation and Lessons Learned: WSP auditing Victoria Australia

by Department of health Victoria et al., 2011

This case study describes the implementation of WSP and lessons learned in Victoria Australia. This case study has a specific focus on auditing WSPS.

Version 0
16. November 2016.
1 vote, average: 1.00 out of 51 vote, average: 1.00 out of 51 vote, average: 1.00 out of 51 vote, average: 1.00 out of 51 vote, average: 1.00 out of 5
0 comments
by Luca Lucentini et al., 15. November, 2016

Checklist for auditing a drinking water treatment plant

by Luca Lucentini et al., 15. November, 2016

This checklist is conceived as an on-site, concise tool to support the Egyptian Water Regulatory Agency (EWRA) inspectors in performing a comprehensive audit of drinking water treatment plants. It covers both management and technical aspects of service provision in assuring adequate level of performance for health and environmental protection. The list is composed of 8 sections, encompassing:
- identification and service data
- local (outside) circumstances and security issues
- organization, human resources, procedures and training
- workplace safety, environmental and equipment conditions
- operations and maintenance
- power supply and ancillary services
- drinking water network
- laboratory, reporting and monitoring data

Version 1
1. September 2007.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Therrence Thompson et al., 01. September, 2007

Chemical safety of drinking-water: Assessing priorities for risk management

by Therrence Thompson et al., 01. September, 2007

This text provides guidance on the chemical safety of drinking-water. Chemical contaminants of drinking-water are often considered a lower priority than microbial contaminants, because adverse health effects from chemical contaminants are generally associated with long-term exposures, whereas the effects from microbial contaminants are usually immediate. Nonetheless, chemicals in water supplies can cause very serious problems. The objective of this text is to help users at national or local level to establish which chemicals in a particular setting should be given priority in developing strategies for risk management and monitoring of chemicals in drinking-water. The document will be useful to public health authorities, those responsible for setting standards and for surveillance of drinking-water quality, and to water supply agencies responsible for water quality management. In particular, this publication will be applicable in settings where information on actual drinking-water quality is limited, which is the case in many developing countries and in rural areas of some developed countries.

Version 1
10. February 2017.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by MOWIE Ethiopia, 18. October, 2016

Climate Change and Health – Ethiopia – Lesson learned documentation WASH sector

by MOWIE Ethiopia, 18. October, 2016

The purpose of this document is to share Ethiopia’s experience in the implementation of the "Building adaptation to climate change in health in least developed countries through WASH project" especially the WASH sector with development partners, government bodies and project implementing member countries. It includes valuable lessons learned from development and implementation of climate-resilient water safety plans and associated policy.

 

 

Version 1
5. March 2014.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by EPA , 05. March, 2014

Climate Ready Water Utilities

by EPA , 05. March, 2014

Climate change is important to consider in all aspects of utility operations and planning because it can impact both the water resources as well as the infrastructure necessary to provide clean and safe water. The Climate Ready Water Utilities initiative is a practical and easy to use tool developed by EPA to assists the drinking water, waste water and stormwater utilities in understanding and addressing climate change risks and impacts as well as preparing operators systems’ for the impacts of climate change.

Version 1
28. February 2017.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Ministry of Water Irrigation and Energy Federal Democratic Republic of Ethiopia, 01. July, 2015

CLIMATE RESILIENT WATER SAFETY PLAN IMPLEMENTATION – Guidelines for Community Managed Rural Drinking Water Supplies

by Ministry of Water Irrigation and Energy Federal Democratic Republic of Ethiopia, 01. July, 2015

The purpose of these Ethiopian guidelines is to provide step-by-step guidance to the rural community/board managed water supplies on how to develop, implement, monitor, and review the rural community managed water safety plans aimed at protecting human health. Furthermore, it serves as a practical tool in identifying and addressing priority risks to the water quality and quantity, reliability and sustainability of the rural water supply system including risks related to current and future impacts of climate changes by taking into consideration available resources and capacities of the water supply system.

Version 1
28. February 2017.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Ministry of Water Irrigation and Energy Federal Democratic Republic of Ethiopia, 01. July, 2015

CLIMATE RESILIENT WATER SAFETY PLAN IMPLEMENTATION – Guidelines for Urban Utility Managed Drinking Water Supplies

by Ministry of Water Irrigation and Energy Federal Democratic Republic of Ethiopia, 01. July, 2015

The purpose of these Ethiopian guidelines is to provide step-by-step guidance to the operators and managers of the large, medium and small urban water supplies with conventional water treatment systems on how to develop, implement, monitor, and review the water safety plans aimed at protecting human health. Furthermore, it serves as practical tool in identifying and addressing priority risks to the water quality and quantity, reliability and sustainability of the water supply system  including risks related to current and future impacts of climate changes by taking into consideration available resources and capacities of the water supply system.

Version 1
6. December 2018.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Rickert B et al., 30. November, 2018

Climate Resilient Water Safety Plans (CR-WSP). Compilation of potential hazardous events and their causes

by Rickert B et al., 30. November, 2018

Climate-resilient water safety plans (CR-WSPs) extend the traditional WSP framework by also identifying and managing climate-related impacts on water supply systems to strengthen resilience. This compilation of information on hazardous events and their causes, including those related to climate impacts, aims to support practitioners, particularly water suppliers, health agencies and consultants, in implementing CR-WSPs. It is not intended to be an exhaustive list, and may need to be adapted for application in the local context.

Version 1
26. July 2018.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Government of Nepal et al., 02. October, 2017

Climate Resilient Water Safety Plans Guideline: Rural Water Supply System

by Government of Nepal et al., 02. October, 2017

Based on international best practice and Nepal's Department of Water Supply & Sanitation experiences, these guidelines have been developed to support rural water supply schemes to development and implement an effective climate resilient WSP in rural settings.

 

Version 1
26. July 2018.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Government of Nepal et al., 02. October, 2017

Climate Resilient Water Safety Plans Guideline: Urban Water Supply System

by Government of Nepal et al., 02. October, 2017

These guidelines have been developed to support urban water supply schemes in Nepal to development and implement climate resilient WSPs.

Version 1
26. July 2018.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Federal Ministry of Water et al., 01. July, 2015

Climate Resilient Water Safety Strategic Framework Ethiopia

by Federal Ministry of Water et al., 01. July, 2015

This framework provides the strategic blueprint to develop a climate orientated risk assessment and management approach for drinking-water supplies, from catchment to consumer.

Considered global best practice, WHO advocates for the WSP approach as the most consistent means to ensure the safe and reliable supply of safe drinking-water. Adapted to the Ethiopian context, this document outlines a roadmap for the national scale-up of climate resilient WSPs.

Version 1
18. October 2017.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by WHO, 18. October, 2017

Climate-resilient water safety plans: Managing health risks associated with climate variability and change

by WHO, 18. October, 2017

This document provides guidance on how climate considerations can be integrated into water safety planning to provide greater resilience to the current and predicted impacts of climate change and variability on water supplies. The guidance is supported by numerous practical examples of climate resilient water safety planning from both low and high income settings.

Version 1
16. November 2020.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments

Climate-Smart Utility Case Stories

Climate resilience needs to be built and coordinated at the basin, city and utility level to ensure adaptive measures for water systems are effective and integrate other urban services.  IWA and partners undertook a series of webinar on climate smart utilities to showcase what utilities are doing to address climate change both from a mitigation and adaptation approach.

Read more on IWAs work on Climate Smart Water Utilities

https://iwa-network.org/projects/climate-smart-water-utilities/

 

Version 0
21. February 2019.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Karen Setty et al., 20. February, 2019

Comparative evaluation of risk management frameworks for U.S. source waters

by Karen Setty et al., 20. February, 2019

The U.S. Safe Drinking Water Act required states to develop source water assessment programs identifying existing and potential contamination sources; however, comprehensive risk prioritization and management approaches for surface water supplies have seen limited application. This participatory study assessed which permutation(s) of risk management frameworks and tools might benefit U.S. utilities by combining a literature review with external utility interviews. Qualitative data provided a basis for categorical assignments of goodness of fit
with each of 24 framework evaluation criteria across five categories. Weighted integration using stakeholder input provided a relative ranking of applicability, later validated at a decision-making workshop. Hybridization of the American National Standards Institute/American Water Works Association (ANSI/AWWA G300) source water protection standard and World Health Organization Water Safety Plan guidance was recommended to develop a comprehensive risk management approach for U.S. source waters. Cost–benefit components of other guidance materials were recommended to incorporate financial considerations into risk ranking and mitigation decisions.

Version 1
18. June 2020.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Dennis Schmiege et al., 02. May, 2020

Comparing the German enabling environment for nationwide Water Safety Plan implementation with international experiences: Are we still thinking big or already scaling up?

by Dennis Schmiege et al., 02. May, 2020

Ensuring safe drinking-water is the target of the Water Safety Plan (WSP) approach, which has been successfully applied to a large number of water supply systems around the world. Effective country-wide scaling up of WSP implementation requires an enabling environment at the policy level.

By utilizing a multi-step mixed methods approach, this study summarizes international experience with WSP implementation and scaling-up efforts following the 8 steps of the WSP road map published by WHO and IWA for an enabling environment, shows what steps Germany has in place, and compares this with published international experience to inspire further policy action.

Contrasting the international experience to the German situation revealed several overlaps but also profound differences, which, in turn, offer opportunities for mutual learning. Most experience in Germany and internationally is documented for the earlier steps of the WSP road map. Information particularly on developing a national strategy, securing financial instruments, activities to support continual implementation of WSPs and on review of the overall WSP experiences and sharing lessons learned appears to be scarce, while the importance of training, collaboration and alliances, and the value of a regulatory push are often stressed. In Germany, stakeholder engagement, guidance documents and workshop materials have been of vital importance. Information that could particularly inform further action in Germany mostly relate to considering a national WSP strategy, and how to shape an approach for external quality assurance of WSPs.

Version 1
10. August 2021.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Bettina Rickert et al., 07. June, 2021

Compilation of potential hazardous events and their causes

by Bettina Rickert et al., 07. June, 2021

This interactive tool supports the implementation of the WSP step of hazard assessment by providing an overview of hazardous events, including those relating to climate change. The compilation was piloted and adapted based on experiences gathered, and aims to support practitioners, particularly water suppliers, health agencies and consultants, in implementing WSPs for climate resiliance. It was piloted in large (urban), professionally managed water supplies in limited resource settings, however, can also be applied and adapted for water supplies in other settings. This is not intended to be an exhaustive list, and may need to be adapted for application in the local context. It is intended to complement existing comprehensive guidance for implementation by providing a tool for practical application.

Version 1
1. January 2009.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Lans Rosen and Andreas Kindhe , 2009

Comprehensive Framework for integrated risk management in WSP

by Lans Rosen and Andreas Kindhe , 2009

Risk assessment and risk prioritisation are critical elements of a Water Safety Plan. However the process can be complex, require considerable resources and take a long time. Therefore before establishing a risk management system it is important to be clear on the most cost effective approach to meet local priorities and needs. This document provides an overview of the TECHNEAU Generic Framework, which is a comprehensive structure for integrated risk management from catchment to consumer in Water Safety Plans, considering both water quality and water quantity

Version 1
1. August 2009.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by MWH , 01. August, 2009

Conducting consumer surveys of water acceptability

by MWH , 01. August, 2009

Communication with consumers is a key part of assessing and promoting the acceptability of drinking water supplies with consumers. The evaluation of consumer acceptability and knowledge of consumer complaints are important components of assessing the overall effectiveness of a WSP and an essential part of the verification of a WSP. This document summarises the main approaches to the collection and analysis of consumer acceptability through surveys.

Version 2
28. September 2009.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by MWH , 28. September, 2009

Consumer Acceptability Case Study: Dunedin City Council, New Zealand

by MWH , 28. September, 2009

This case study provides an example of where a water supplier in New Zealand operates a Service Centre to respond quickly to customer complaints and assesses levels of consumer acceptability through analysis of complaint data and questionnaires.

Version 2
28. September 2009.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by MWH , 28. September, 2009

Consumer Acceptability Data Case Study: Lyonnaise des Eaux, France

by MWH , 28. September, 2009

This case study provides an example of where a water supplier in France has established a system to collect consumer acceptability data via a group of volunteers. It provides one particular approach to the collection of opinions on the taste and odour of water supplied.

Version 2
28. September 2009.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by MWH , 28. September, 2009

Consumer Acceptability Data Case Study: Yarra Valley Water, Australia

by MWH , 28. September, 2009

This case study provides an example of a water supplier in Australia which has undertaken research to understand consumer expectations in relation to water quality. This includes the use of surveys and focus groups. It also describes the approach the company takes to handling, recording, and reviewing complaints.

Version 2
1. August 2009.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Bob Breach , 01. August, 2009

Corrosion and mains sediments

by Bob Breach , 01. August, 2009

This document summarises the drinking-water quality risks associated with corrosion and sediment accumulation within distribution networks and describes ways that the risks can be mitigated.

Version 1
21. February 2017.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Oliver Schmoll et al., 01. June, 2014

Das Water-Safety-Plan-Konzept: Ein Handbuch für kleine Wasserversorgungen (The WSP concept: a manual for small water supplies)

by Oliver Schmoll et al., 01. June, 2014

The German Environment Agency and the Water Technology Centre published a manual for implementation of the WSP approach in small-scale water supplies in Germany in 2014, which complements the technical rule on WSPs of the German Technical and Scientific Association for Gas and Water (DVGW) with practical explanations, recommendations, examples and supporting tools.

Version 1
8. August 2017.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by EPA Ireland, 08. February, 2011

Developing drinking water safety plans

by EPA Ireland, 08. February, 2011

This document provides guidance to water suppliers on the steps involved in developing a water safety plan and an outline of what it should contain in the Irish context. It contains guidance and useful templates on hazard identification, risk assessment and the preparation of action plans for the hazards identified.

Version 1
6. February 2019.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Moeller et al., 2009

Developing Water Safety Plans Involving Schools – Introducing “Water Safety Plans” for small-scale water supply systems – Manual for teachers and pupils

by Moeller et al., 2009

The World Health Organisation (WHO) initiated the Water Safety Plans (WSP), which is to be considered as a part of the WHO or other guidelines or directives on drinking water quality. The WSP asks for an identification of risks, which could affect water safety and human health in every stage of the water supply. It is also necessary, however, to identify measures, which minimise and manage the risks have to be identified. A WSP should be discussed, developed and implemented with involvement of all stakeholders. The paper give an introduction into this important issue.

Version 2
21. April 2016.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by IWA, 2007

Development and implementation of water safety plans for small scale supplies in Bangladesh: benefits and lessons learned

by IWA, 2007

This paper presents a case study from Bangladesh describing how WSPs can be developed and implemented for small systems. Model WSPs were developed through consultation with key water sector practitioners in the country. Simplified tools were developed to translate the formal WSPs into a format that was meaningful and accessible for communities to use.

Version 1
3. January 2017.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Ahmad Montazeri, 13. September, 2015

Development and implementation of water safety plans in Iran

by Ahmad Montazeri, 13. September, 2015

This presentation describes the development and implementation of WSP in Tabriz in Iran under the guidance of the World Health Organization Regional Office.

Version 1
20. March 2024.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by David Sheehan; Phillip Fasham; Rory Moses McKeown; Asoka Jayaratne, 01. December, 2023

Development of a tool to support operationalising water safety plans: experiences from a national water utility in Ghana

by David Sheehan; Phillip Fasham; Rory Moses McKeown; Asoka Jayaratne, 01. December, 2023

Since their incorporation into the 2004 version of the World Health Organization’s (WHO’s) Guidelines for Drinking Water Quality (GDWQ), Water Safety Plans (WSPs) continue to be the pre-eminent process for the delivery of safe drinking water to consumers. WSPs achieve this by prioritising proactive, rather than reactive, management of risks to drinking water quality. Since the use of WSPs was incorporated into the GDWQ, a range of supporting resources have been produced to assist water suppliers in preparing WSPs. Producing a robust WSP is an important first step in the management of risk, but in many cases, the implementation of WSPs presents significant challenges, particularly in relation to the implementation of Module 5 (implementing improvements) and Module 6 (monitoring of control measures). To address barriers to WSP implementation, the Ghana Water Company Limited (GWCL), in a peer-to-peer partnership with two Australian water utilities, developed a pilot WSP implementation strategy for one of the company’s drinking water supply systems. One of the outputs of the collaboration was the development of a framework for operationalising water safety planning, which incorporates basic guidance for embedding the WSP within routine operations, in order to ensure the safe management of drinking water.

Version 1
11. September 2017.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by WHO, 11. September, 2017

Directives de qualité pour l’eau de boisson: Quatrième édition intégrant le premier additif

by WHO, 11. September, 2017

La quatrième édition des Lignes directrices de l'OMS pour la qualité de l'eau potable s'appuie sur plus de 50 ans d'orientations sur la qualité de l'eau potable qui font autorité en matière de mesures de santé publique lorsqu’il s’agit de mettre en place des réglementations et des normes nationales pour garantir la sécurité de l'eau.

C'est le produit de révisions significatives pour clarifier les recommandations et apporter des moyens de les mettre en œuvre en sachant identifier les dangers, gérer les risques en adoptant des indicateurs sanitaires, des plans de sécurité des eaux de captation et un système de surveillance indépendant.

Le premier addendum met à jour cette quatrième édition, apporte de nouveaux éléments de preuve et des explications supplémentaires pour mieux comprendre les directives et les mettre en œuvre.

Ces lignes directrices s’adressent principalement aux responsables de la réglementation dans le domaine de l’eau et de la santé, aux décideurs et à leurs conseillers, et ont pour objectif d’aider lors de la mise au point de normes nationales. Elles sont aussi utilisées, ainsi que les documents associés, par comme source d’informations sur la qualité et l’hygiène de l’eau et sur les stratégies de gestion efficaces.

Version 1
22. March 2019.
1 vote, average: 5.00 out of 51 vote, average: 5.00 out of 51 vote, average: 5.00 out of 51 vote, average: 5.00 out of 51 vote, average: 5.00 out of 5
0 comments
by Arnt Diener / WHO EURO, 22. March, 2019

Documentary on WSP implementation

by Arnt Diener / WHO EURO, 22. March, 2019

Beautiful short film on how to achieve safe drinking-water by Björn Weber, Oliver Meinborn and Grimme-price winner Ute Hilgeford. Launched by the World Health Organization on World Water Day 2019.

The film-makers accompany a community in the mountains of Tajikistan – where water safety plans have been introduced for the first time in Central Asia. It is a group of citizens who take matters into their own hands. An inspiring story of how a village invests their funeral fund on safer drinking-water.

Version 1
18. October 2017.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Roger Singleton, 01. July, 2017

Drinking Water Safety and Security Planning Template

by Roger Singleton, 01. July, 2017

A community focused WSP template to support drinking water safety and security planning in Fiji. This template is designed to make risk assessment easier for community WSP implementation.

Version 1
22. March 2010.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by AusAID and SOPAC , 22. March, 2010

Drinking Water Safety Planning: A practical guide for the Pacific Island countries

by AusAID and SOPAC , 22. March, 2010

This document is a guideline for development and implementation of Water Safety Plans approach in the Pacific. It is primarily for water supply managers, engineers and operators and introduces a more proactive way of managing drinking water supplies through a comprehensive risk assessment and risk management approach. Implementing DWSPs helps achieve a more effective drinking water supply system.

Version 1
13. May 2016.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by GRAHAM GAGNON et al., 2015

DRINKING WATER SAFETY PLANS

by GRAHAM GAGNON et al., 2015

The objective of this research was to understand the impact of WSPs on operators and water management culture in Alberta’s small communities.

Version 2
24. September 2010.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Talem Hasan and Federica Gerber , 24. September, 2010

Economics of WSP: an advocacy tool

by Talem Hasan and Federica Gerber , 24. September, 2010

This paper describes an economic cost-benefit analysis of the Koror-Airai drinking water safety plan from Palau to demonstrate the value to society of the drinking water safety planning approach in the long term. The cost-benefit analysis for implementing the Koror-Airai drinking water safety plan showed that a return of US$ 6.00 was expected on every US$ 1.00 invested towards implementing the plan. The case study provides an effective advocacy tool for the promotion of drinking water safety planning both in the Pacific region and globally.

Version 1
1. August 2009.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Bob Breach , 01. December, 2008

Emergency management plan checklist

by Bob Breach , 01. December, 2008

Preparation of a well documented and up to date emergency management plan is an essential component of an effective incident response framework. The structure and content can only be determined by each water supply taking account of a wide range of different local factors. However this document provides a checklist of those items which need to be considered.

Version 1
2. November 2022.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by WHO SEARO, 02. November, 2022

Establishing a National WSP Regulatory Audit Scheme – Guidance Package

by WHO SEARO, 02. November, 2022

This package of materials is intended to support countries in developing (or strengthening) national schemes for regulatory auditing of water safety plans. Topics addressed include audit mandates and drivers, standardized audit criteria, auditor qualification and selection processes, financing and other mechanisms for audit functionality and sustainability. The materials are intended to facilitate a stakeholder workshop to discuss the ‘key factors and principles’ for establishing a successful and sustainable audit programme, the output of which is a detailed action plan for the development (or advancement) of a context-appropriate national audit scheme.

Version 1
11. May 2016.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by WHO/IWA, 2010

Être ambitieux, s’engager prudemment, puis élargir le champ d’action

by WHO/IWA, 2010

Dans le cadre des efforts continus en faveur de la sécurité sanitaire de l’eau de boisson et de la santé, de nombreux pays ont demandé des orientations concernant la façon d’introduire des plans de gestion de la sécurité sanitaire de l’eau (PGSSE) et d’élargir leur mise en oeuvre. Il n’existe ni modèle ni façon unique de procéder en la matière.
Néanmoins, en se fondant sur l’expérience, une succession d’étapes décrivant comment y parvenir a été définie. Cette « feuille de route » relative aux PGSSE est destinée aux gouvernements et aux autorités chargés de concevoir ou de réviser les réglementations, programmes, et politiques relatifs à l’eau de boisson. Elle peut également se révéler utile pour les distributeurs d’eau et les autres organisations intéressées par l’amélioration des pratiques existantes.

Version 1
2. May 2018.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Giuliana Ferrero et al., 23. February, 2018

Experiential Learning through Role-Playing: Enhancing Stakeholder Collaboration in Water Safety Plans

by Giuliana Ferrero et al., 23. February, 2018

Improved water safety management, as addressed by the Sustainable Development Goals, can be aided by Water Safety Planning, a risk-assessment and risk-management approach introduced
by the World Health Organization and implemented to date in 93 countries around the globe. Yet, this approach still encounters some challenges in practice, including that of securing collaboration among the broad range of stakeholders involved. This paper presents a role-playing game designed to foster stakeholder collaboration in Water Safety Plans (WSP). In this role-play, participants take on different stakeholders’ roles during a collective (team-based) decision-making process to improve water supply safety in a fictive town. The game is the result of a transdisciplinary initiative aimed at integrating knowledge across technical and governance aspects of WSPs into an active learning experience for water sector actors from diverse backgrounds. It exposes participants to the four phases of Kolb’s experiential learning cycle: concrete experience, reflective observation, conceptualization and active experimentation. This paper discusses potential impacts of the WSP role-play, including skills and knowledge development among participants, which can support cross-sectoral integration and dealing with complexity in decision-making. These are capacity assets strongly needed to address water safety management challenges in a sustainable way.

Version 1
12. March 2021.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by IWA, 10. March, 2021

Factsheet: Engaging vulnerable groups in the implementation of CR WSP

by IWA, 10. March, 2021

Water is a fundamental need in every person’s life and ensuring access to safe water for all without discrimination is a human right, recognized by the United Nations (UN) in 2010. The global commitment to safe water for all is further demonstrated through the Sustainable Development Goal (SDG) 6 targets to achieve universal and equitable access to safe and affordable drinking-water for all. However, many people cannot yet claim their fundamental right to water, and inequalities to safe water access is felt disproportionately by those who are disadvantaged socially, economically, demographically, or geographically.

Read more on how to engage vulnerable groups in CR WSP in this factsheet.

Version 1
21. June 2017.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by World Health Organization, 13. June, 2017

Global status report on water safety plans: A review of proactive risk assessment and risk management practices to ensure the safety of drinking-water

by World Health Organization, 13. June, 2017

Based on information gathered from 118 countries representing every region of the globe, this report provides a picture of WSP uptake worldwide. It presents information on WSP implementation and the integration of WSPs into the policy environment. It also explores WSP benefits, challenges and future priorities.

It is envisaged that this report will serve as a useful resource for policy-makers, practitioners and other stakeholders to inform and strengthen the planning and practice of WSP implementation.

Version 1
15. September 2021.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by By Kizito Masinde; Michael Rouse; Martha Jepkirui; Katharine Cross, 01. April, 2021

Guidance on Preparing Water Service Delivery Plans: A manual for small to medium-sized water utilities in Africa and similar settings

by By Kizito Masinde; Michael Rouse; Martha Jepkirui; Katharine Cross, 01. April, 2021

This publication is a guideline or how-to manual on preparing water service delivery plans with a focus on small to medium sized organised water utilities having with approximately 5,000 to over 100,000 connections mainly in areas with limited capacity and resources. The manual is simplified enough to ensure that these utilities are able to move from a situation where they are struggling to deliver water services to where basic service levels in terms of water quality, quantity, accessibility, reliability, affordability, and acceptability are met. Meeting these basic service levels provides a strong foundation for the utility to progressively move up the ladder of delivering improved services.

Access the publication on IWAP.

Version 1
18. January 2018.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by WHO, 18. January, 2018

Guide pratique pour l’audit des plans de gestion de la sécurité sanitaire de l’eau

by WHO, 18. January, 2018

Ce guide vise à aider à l’élaboration et à la mise en œuvre de programmes d’audit des plans de gestion de la sécurité sanitaire de l’eau dédiés en définissant les principes et exigences les plus  importants. C’est une ressource pratique à l’intention des décideurs politiques, des organismes chargés de la réglementation ou de la surveillance de l’eau potable, des distributeurs d’eau mettant en œuvre des plans de gestion de la sécurité, et tous autres professionnels du secteur s’intéressant à la question de l’audit de ces plans.

Version 1
22. December 2020.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Asian Development Bank, 21. December, 2020

Guidelines for Drinking Water Safety Planning for West Bengal

by Asian Development Bank, 21. December, 2020

This publication provides practical guidance and best practices on the stages of developing safe rural drinking water delivery service schemes in West Bengal and other areas in India.

Water safety planning is considered an international best practice for assessing and managing public health risks from drinking water supply systems. The Asian Development Bank, in close collaboration with the World health Organization, assisted in developing water safety planning guidelines for West Bengal under a project aiming to improve rural drinking water delivery service schemes in the state. The publication outlines phases of the water safety plan, which can also be applied to developing bulk water supply systems.

Version 1
29. September 2017.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Water Supplies Department et al., 21. September, 2017

Guidelines for Drinking Water Safety Plans for Buildings in Hong Kong

by Water Supplies Department et al., 21. September, 2017

根據世界衛生組織(WHO)的建議,香港水務署最近編制了建築物水安全計劃的指引和範本,協助業主或物業管理代理制訂水安全計劃,以風險為本和多重障礙的方法,加強建築物的食水安全。建築物水安全計劃的實施,有賴物業管理和水喉業界人士的共同努力,包括辨識和評估內部供水系統的潛在風險,制定控制措施和執行相應的檢查和保養。此外,通過定期審核和檢視,物業管理可以驗證和更新建築物的水安全計劃。香港水務署已於2017年9月推出建築物水安全計劃的指引和分別合適一般建築物和學校使用的範本後,供建築物業主或物業管理代理自願參與。

Based on the recommendations of the World Health Organization (WHO), the Water Supplies Department (WSD) of Hong Kong has recently developed guidelines and templates for Water Safety Plan (WSP) for Buildings. The guidelines and templates aim at assisting building owners or management agents to develop their own WSPs to enhance water safety in buildings by using a risk-based and multiple barrier approach. Implementation of WSP for buildings requires concerted efforts of building management and plumbing practitioners, including identifying and assessing potential risks of the inside service, deriving control measures and carrying out the corresponding checking and maintenance. In addition, the WSP will be verified and updated by the building management through periodic auditing and review. The guidelines and templates for general buildings and schools have been launched in September 2017 for voluntary adoption by building owners or management agents.

Version 2
17. August 2023.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments

Guidelines for Drinking Water Safety Plans for Buildings in Hong Kong (Chinese)

根據世界衞生組織的建議,香港水務署於2017年制訂了《香港建築物食水安全計劃指引》,協助業主和物業管理人制訂和實施水安全計劃,以提升建築物的食水安全。指引及相關範本於2022年進行修訂並納入了最新資訊和實施經驗。截至2023年5月,全港約有4,000幢建築物實施了建築物水安全計劃,涵蓋逾百萬住戶。

Version 2
17. August 2023.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
17. August, 2023

Guidelines for Drinking Water Safety Plans for Buildings in Hong Kong (Chinese)

17. August, 2023

根據世界衞生組織的建議,香港水務署於2017年制訂了《香港建築物食水安全計劃指引》,協助業主和物業管理人制訂和實施水安全計劃,以提升建築物的食水安全。指引及相關範本於2022年進行修訂並納入了最新資訊和實施經驗。截至2023年5月,全港約有4,000幢建築物實施了建築物水安全計劃,涵蓋逾百萬住戶。

Version 2
17. August 2023.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
17. August, 2023

Guidelines for Drinking Water Safety Plans for Buildings in Hong Kong (English)

17. August, 2023

Based on the World Health Organization’s recommendations, the Water Supplies Department of Hong Kong developed the Guidelines for Drinking Water Safety Plans for Buildings in Hong Kong in 2017 to assist owners and property management agents in developing and implementing Water Safety Plans to enhance water safety in buildings. The guidelines and associated templates were revised in 2022 incorporating updated information and implementation experiences. As at May 2023, about 4,000 buildings in Hong Kong have implemented Water Safety Plan for Buildings covering more than one million households.

 

根據世界衞生組織的建議,香港水務署於2017年制訂了《香港建築物食水安全計劃指引》,協助業主和物業管理人制訂和實施水安全計劃,以提升建築物的食水安全。指引及相關範本於2022年進行修訂並納入了最新資訊和實施經驗。截至2023年5月,全港約有4,000幢建築物實施了建築物水安全計劃,涵蓋逾百萬住戶。

Version 2
21. April 2016.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by WHO, 1997

Guidelines for Drinking-Water Quality (2nd Ed. Volume 3 – Surveillance and control of community supplies

by WHO, 1997

This publication describes the methods used in the surveillance of drinking-water quality in the light of the special problems of small-community supplies, particularly in developing countries, and outlines the strategies necessary to ensure that surveillance is effective. It is also concerned with the linkage between surveillance and remedial action and with the form that remedial action should take.

Version 4
21. April 2016.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by WHO, 2011

Guidelines for drinking-water quality (4th Ed. incorporating the first addendum) – ENGLISH

by WHO, 2011

The Guidelines for drinking-water quality is an authoritative basis for the setting of national regulations and standards for water safety in support of public health. It provides guidance on ways of implementing its recommendations of contextual hazard identification and risk management, including catchment-to-consumer water safety plans. The Guidelines position WSPs as a core element of the Framework for Safe Drinking-water and outline the principles and key elements of a WSP for policy-makers.

Version 4
24. August 2016.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by WHO, 2011

Guidelines for drinking-water quality (4th Ed.) – CHINESE

by WHO, 2011

The Guidelines for drinking-water quality is an authoritative basis for the setting of national regulations and standards for water safety in support of public health. It provides guidance on ways of implementing its recommendations of contextual hazard identification and risk management, including catchment-to-consumer water safety plans.

Version 4
24. August 2016.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by WHO, 2011

Guidelines for drinking-water quality (4th Ed.) – JAPANESE

by WHO, 2011

The Guidelines for drinking-water quality is an authoritative basis for the setting of national regulations and standards for water safety in support of public health. It provides guidance on ways of implementing its recommendations of contextual hazard identification and risk management, including catchment-to-consumer water safety plans.

Version 1
16. February 2024.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by WHO,

Guidelines for drinking-water quality: small water supplies

by WHO,

These Guidelines, specifically tailored to small water supplies, build on over 60 years of guidance by the World Health Organization (WHO) on drinking-water quality and safety. They focus on establishing drinking-water quality regulations and standards that are health based and context appropriate; on proactively managing risks through water safety planning and sanitary inspections; and on carrying out independent surveillance. The guidance is intended primarily for decision-makers at national and subnational levels with responsibility for developing regulatory frameworks and support programmes related to these activities. Other stakeholders involved in water service provision will also benefit from the guidance in this document.

Version 1
1. April 2012.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Unathi Jack and Philip de Souza , 01. April, 2012

Guidelines for using Web-Enabled Water Safety Plan Tool

by Unathi Jack and Philip de Souza , 01. April, 2012

The Water Research Commission (WRC) project K5/1993//3 “Web enablement of a water safety plan and incorporation of existing similar supply system assessment tool” aimed to establish a methodology to identify and manage the risks of water services infrastructure and the means by which Water Services Institutions (WSIs) are better able to identify and manage these through use of Water Safety Planning. The tool assists in developing a Water Safety Plan. Implementation thereof (e.g. taking required actions, implementing corrective actions, developing and implementing management and communication procedures) of the Water Safety Plan depends on the Water Services Institution (WSI).

Version 1
19. July 2016.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Nguyen Lanh et al., 19. July, 2016

GUIDELINES ON WATER SAFETY INVESTMENT PLAN (WSIP) FOR APPLICATION IN IMPLEMENTATION OF WATER SAFETY PLAN PHASE 3 IN VIETNAM

by Nguyen Lanh et al., 19. July, 2016

Water supply companies may face challenges when developing an investment plan for implementation of WSPs, due to the relatively large number of objectives with limited available budget for funding. This draft publication aims to provide guidance for water service companies to develop an investment plan that can meet the most of basic requirements of a WSP in a most cost-effective manner.
This draft publication is currently under review, and we would welcome your feedback to WSPortal@iwahq.org.

Version 2
1. September 2006.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by World Plumbing Council and WHO , 01. September, 2006

Health aspects of plumbing

by World Plumbing Council and WHO , 01. September, 2006

This text describes the processes involved in the design, installation and maintenance of effective plumbing systems. It also examines the microbiological, chemical, physical and financial risks associated with plumbing and emphasizes the importance of measures to conserve supplies of safe drinking-water. It is aimed at administrators and plumbers working in areas that are served by a mains drinking-water supply or sewerage system, or are about to install a mains drinking-water supply or sewerage system.

Version 2
2. December 2007.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by WSP, 02. December, 2007

Household water use and health assessment Spanish Town Jamaica

by WSP, 02. December, 2007

This case study describes a randomized household survey and the collection and testing of drinking water samples from sources (household tap, public standpipe, rainwater, etc.) and household storage containers in Spanish Town Jamaica, with linkages to water safety planning.

Version 1
2. December 2007.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by U.S. Department of Health and Human Services Centers for Disease Control and Prevention National Center for Environmental Health Agency for Toxic Substances and Disease Registry Division of Emergency and Environmental Health Services , 02. December, 2007

Household Water Use and Health Survey for the WSP Linden Guyana

by U.S. Department of Health and Human Services Centers for Disease Control and Prevention National Center for Environmental Health Agency for Toxic Substances and Disease Registry Division of Emergency and Environmental Health Services , 02. December, 2007

This Household Water Use and Health Survey was therefore conducted as part of the Water Safety Plan for Linden, Guyana in order to understand the fate of water from the time it reaches the home to the point of consumption. It illustrates the sampling, the household visits, the water testing, the data management and discusses the results from the survey.

Version 1
12. February 2020.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by H.H.J.L. van den Berg et al., 03. July, 2019

How current risk assessment and risk management methods for drinking water in The Netherlands cover the WHO water safety plan approach

by H.H.J.L. van den Berg et al., 03. July, 2019

In the Netherlands, safe and sufficient drinking water is provided to the general population by ten drinking water companies. To guarantee safe drinking water the World Health Organization (WHO) developed a Water Safety Plan (WSP), a Risk Assessment and a Risk Management (RA/RM) framework. The objective of the study was to
identify legally required RA approaches, to document application of RA/RM activities at Dutch drinking water companies and to determine to what extent these RA/RM activities as a whole cover all the elements of the WHO WSP approach. This study could be of interest to both managers of large water utilities and decision makers.

The assessment was performed by means of a policy review and interviews with two to four staff members involved in RA/RM from all ten Dutch drinking water companies combined with a joint workshop. The drinking water companies are well aware of the potential hazards and risks that can influence the drinking water quality. To guarantee the supply of safe and sufficient drinking water, the Dutch drinking water sector uses six different legally required RA/RM approaches. This study shows that by using the six legally required RA/RM approaches, all WSP steps are covered. WSP entails a generic risk assessment for identifying all hazards and hazardous events from source to tap, whereas the six legally required RA/RM each focus on specific risks at an advanced level.
Each risk assessment provides information on specific hazards and hazardous events covering a part of the water supply chain. These legal requirements are complemented with additional RA/RM activities at sector and water company level such as codes of practices and standard operating procedures. The outcomes of all RA/RM approaches combined provide information from source to tap. When using multiple RA/RM approaches, it is crucial to share and combine information derived from the different activities.

Version 1
25. May 2016.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Dani J. Barrington et al.,

How to prepare Water Safety Plans for community managed water supply systems in rural Nepal – ENGLISH

by Dani J. Barrington et al.,

This package contains tools and resources for developing water safety plans (they could be considered "WaSH Safety Plans") in rural communities where the water and sanitation is managed by the community themself.

Whilst it was developed for Nepal, these tools may be applicable for community managed systems around the globe.

Version 1
25. May 2016.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Dani J. Barrington et al.,

How to prepare Water Safety Plans for community-managed water supply systems in rural Nepal – Nepali

by Dani J. Barrington et al.,

This package has been developed for WaSH practitioners seeking to develop water (probably more correctly, WaSH) safety plans with rural communities who manage their own water and sanitation systems. Although the overall guide is in English, all of the resources to be used with the community are in Nepali.

Version 1
7. January 2020.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Isabelle Schmidt et al., 30. October, 2019

Implementation and evaluation of the water safety plan approach for buildings

by Isabelle Schmidt et al., 30. October, 2019

The World Health Organization (WHO) promotes water safety plans (WSPs) – a risk-based management approach – for premise plumbing systems in buildings to prevent deterioration of drinking-water quality. Experience with the implementation of WSPs in buildings were gathered within a pilot project in Germany. The project included an evaluation of the feasibility and advantages of WSPs by all stakeholders who share responsibility in drinking-water safety. While the feasibility of the concept was demonstrated for all buildings, benefits reported by building operators varied. The more technical standards were complied with before implementing WSP, the less pronounced were the resulting improvements. In most cases, WSPs yielded an increased system knowledge and awareness for drinking-water quality issues. WSPs also led to improved operation of the premise plumbing system and provided benefits for surveillance authorities. A survey among the European Network of Drinking-Water Regulators on the existing legal framework regarding drinking-water safety in buildings exhibited that countries are aware of the need to manage risks in buildings' installations, but experience with WSP is rare. Based on the successful implementation and the positive effects of WSPs on drinking-water quality, we recommend the establishment of legal frameworks that require WSPs for priority buildings whilst accounting for differing conditions in buildings and countries.

Version 1
1. November 2011.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by DASS-NC Service santé environnement , 01. November, 2011

Implementation of WSP New Caledonia

by DASS-NC Service santé environnement , 01. November, 2011

This document describes the WSP implementation process in New Caledonia (French territory in the Pacific Ocean) for 13 municipalities that started in 2008. It describes the risk assessment and management tools used, the benefits achieved, the challenges and solutions to those challenges and the overall lessons learned.

Version 1
10. June 2019.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Bettina Rickert et al., 13. May, 2019

Including aspects of climate change into water safety planning: Literature review of global experience and case studies from Ethiopian urban supplies

by Bettina Rickert et al., 13. May, 2019

In recent years, the water safety plan approach has been extended towards climate-resilient water safety planning. This happened in response to increasing insight into impacts of climate on drinking-water and required adaptation to anticipated climate change. Literature was reviewed for published guidance and case examples, documenting how to consider climate in water safety planning to support future uptake. Climate-resilient water safety plans were piloted within a project in the water supplies of Addis Ababa and Adama, Ethiopia.

Case examples have been published in four of six WHO regions with a focus on urban supplies. Integration of climate aspects focused mostly on the steps of establishing the team, system description, hazard analysis and risk assessment, improvement planning and development of management procedures. While the traditional framework focuses on drinking-water quality, considering climate change augments aspects of water quantity. Therefore, other factors affecting water quantity such as population development and demand of other sectors need to be considered as well. Local climate information and tools should be employed as a significant success factor for future uptake. Such information should be incorporated as it becomes available, and may – depending on the setting – be incrementally integrated into existing water safety plans or used to develop new ones.

Version 2
1. August 2009.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Bob Breach , 01. August, 2009

Intermittent supplies and water quality

by Bob Breach , 01. August, 2009

This document highlights water quality risks from supplies that do not continuously supply water and outlines examples of measure to control these risks.

Version 2
28. October 2008.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by WSP, 28. October, 2008

Johannesburg, South Africa Case Study

by WSP, 28. October, 2008

This document describes the learnings from water safety plan development and implementation by Rand Water in South Africa, providing valuable field experiences from the process.

Version 1
8. November 2018.
1 vote, average: 5.00 out of 51 vote, average: 5.00 out of 51 vote, average: 5.00 out of 51 vote, average: 5.00 out of 51 vote, average: 5.00 out of 5
0 comments
by Antonios Papadakis et al., 26. March, 2018

Legionella spp. Risk Assessment in Recreational and Garden Areas of Hotels

by Antonios Papadakis et al., 26. March, 2018

Several Travel-associated Legionnaires’ disease (TALD) cases occur annually in Europe. Except from the most obvious sites (cooling towers and hot water systems), infections can also be associated with recreational, water feature, and garden areas of hotels. This argument is of great interest to better comprehend the colonization and to calculate the risk to human health of these sites. From July 2000–November 2017, the public health authorities of the Island of Crete (Greece) inspected 119 hotels associated with TALD, as reported through the European Legionnaires’ Disease Surveillance Network. Five hundred and eighteen samples were collected from decorative fountain ponds, showers near pools and spas, swimming pools, spa pools, garden sprinklers, drip irrigation systems (reclaimed water) and soil. Of those, 67 (12.93%), originating from 43 (35.83%) hotels, tested positive for Legionella (Legionella pneumophila serogroups 1, 2, 3, 6, 7, 8, 13, 14, 15 and non-pneumophila species (L. anisa, L. erythra, L. taurinensis, L. birminghamensis, L. rubrilucens). A Relative Risk (R.R.) > 1 (p < 0.0001) was calculated for chlorine concentrations of less than 0.2 mg/L (R.R.: 54.78), star classification (<4) (R.R.: 4.75) and absence of Water Safety Plan implementation (R.R.: 3.96). High risk (≥104 CFU/L) was estimated for pool showers (16.42%), garden sprinklers (7.46%) and pool water (5.97%).

Version 1
1. September 2007.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Enviromental and Engineering Managers Ltd. , 01. September, 2007

Lessons learned from development WSP in Jamaica

by Enviromental and Engineering Managers Ltd. , 01. September, 2007

This document is a technical paper following the "Spanish town Jamaica Case study". It describes the lessons learned from the development of the Water Safety Plan for the Spanish town water supply system in Jamaica.

Version 1
20. October 2020.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Rory Moses McKeown,

Lessons learned from practical CR WSP implementation and auditing in Africa and Asia.

by Rory Moses McKeown,

Water, sanitation and hygiene (WASH) have a significant impact on health and, of particular concern as described in the recent Intergovernmental Panel on Climate Change Special Report on Extreme Events, are the risks of more frequent and intense extreme weather events such as floods, cyclones and droughts, alongside increasing temperatures. Such extremes pose particular challenges to the capacity of WASH programmes to protect health, and there is accumulating evidence that climate change is worsening these risks.

A national programme of water safety plan (WSP) auditing was undertaken in 2018/19 with a particular focus on climate resilience, to learn lessons from the pilot WSPs and adapt the programme in advance of future scale-up.

Version 0
19. May 2016.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Luca Lucentini et al., 2014

Linee guida per la valutazione e gestione del rischio nella filiera delle acque destinate al consumo umano secondo il modello dei Water Safety Plans .

by Luca Lucentini et al., 2014

One decade ago, the World Health Organization recommended that water suppliers developed and implemented Water Safety Plans (WSP) as the most
effective mean to assure the quality of the water supply and the protection of the health of consumers. This model, as transposed in this guideline, consists of the overall risk assessment and risk management from catchment to tap, to protect the water to be destined to human consumption and the system, as well
as to control any process potentially affecting water quality, with the aim of assuring on a continuous way the absence of physical, biological and chemical hazards in drinking water. Risk based approach will also facilitate the flexibility of hazards management of emerging contaminants which are not systematically monitored, and /or vulnerabilities of water supply systems to direct and indirect impacts due to climate change. The guidance is addressed to water suppliers and health authorities as well as to all the stakeholders interested in different way to the drinking water quality. Criteria, methods and procedures are here provided in clear and practical terms to develop and implement WSP in drinking water supplies in Italy, independently by their dimension and by the volumes of supplied water.

Version 1
12. February 2020.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Harold van den Berg ; Bettina Rickert ; Seada Ibrahim ; Kasa Bekure ; Hailu Gichile ; Seble Girma ; Altaseb Azezew ; Tadesse Zegeye Belayneh ; Solomon Tadesse ; Zeleke Teferi Firehiwot Abera ; Samson Girma ; Tesfaye Legesse ; Daniel Truneh ; Gretta Lynch ; Ingmar Janse ; Ana Maria de Roda Husman, 31. October, 2019

Linking water quality monitoring and climate-resilient water safety planning in two urban drinking water utilities in Ethiopia

by Harold van den Berg ; Bettina Rickert ; Seada Ibrahim ; Kasa Bekure ; Hailu Gichile ; Seble Girma ; Altaseb Azezew ; Tadesse Zegeye Belayneh ; Solomon Tadesse ; Zeleke Teferi Firehiwot Abera ; Samson Girma ; Tesfaye Legesse ; Daniel Truneh ; Gretta Lynch ; Ingmar Janse ; Ana Maria de Roda Husman, 31. October, 2019

Unsafe drinking water is a recognized health threat in Ethiopia, and climate change, rapid population growth, urbanization and agricultural practices put intense pressure on availability and quality of water. Climate change-related health problems due to floods and waterborne diseases are increasing. With increasing insight into impacts of climate change and urbanization on water availability and quality and of required adaptations, a shift towards climate-resilient water safety planning was introduced into an Ethiopian strategy and guidance document to guarantee safe drinking water. Climate-resilient water safety planning was implemented in the urban water supplies of Addis Ababa and Adama, providing drinking water to 5 million and 500,000 people, respectively. Based on the risks identified with climate-resilient water safety planning, water quality monitoring can be optimized by prioritizing parameters and events which pose a higher risk for contaminating the drinking water. Water quality monitoring was improved at both drinking water utilities and at the Public Health Institute to provide relevant data used as input for climate-resilient water safety planning. By continuously linking water quality monitoring and climate-resilient water safety planning, utilization of information was optimized, and both approaches benefit from linking these activities.

Version 1
11. October 2023.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Rodriguez-Alvarez et al., 11. October, 2023

Long-Term Assessment of a Water Safety Plan (WSP) in Salta, Argentina

by Rodriguez-Alvarez et al., 11. October, 2023

The use of water safety plans (WSPs) has been recommended by the World Health Organization (WHO) since 2004 as a highly effective means of improving water safety management. Experience with the implementation of WSPs is increasing worldwide, but there is no unified or standardized methodology for how the verification of a WSP should be conducted. In this article, we present a thorough evaluation of a specific WSP five years after its initial implementation. We reviewed the risk assessment methodology used by a water utility in Salta, Argentina, and assessed the implementation of control measures. To objectively evaluate the effectiveness of the WSP, we evaluated water quality parameters and customer complaints using a time-series analysis. We show that although some control measures were implemented, and a reduction in risk values was observed, it was not possible to improve long-standing problems in the water supply of the city of Salta, such as the number of consumer complaints or high turbidity levels in the water during the rainy season. We discuss the role of rigorous scientific assessments and the importance of legislation and regulatory bodies in implementing the WSP.

Version 2
1. October 2013.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by WHO, 01. October, 2013

Maynilad Water: Water Safety Plans

by WHO, 01. October, 2013

Describes the formulation of a Water Safety Plan by Maynilad Water Services, Inc. Philippines.

Version 1
27. June 2018.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Emily Kumpel et al., 10. June, 2018

Measuring the Impacts of Water Safety Plans in the Asia-Pacific Region

by Emily Kumpel et al., 10. June, 2018

This study investigated the effectiveness of Water Safety Plans (WSP) implemented in 99 water supply systems across 12 countries in the Asia-Pacific region. An impact assessment methodology including 36 indicators was developed based on a conceptual framework proposed by the Center for Disease Control (CDC) and before/after data were collected between November 2014 and June 2016. WSPs were associated with infrastructure improvements at the vast majority (82) of participating sites and to increased financial support at 37 sites. In addition, significant changes were observed in operations and management practices, number of water safety-related meetings, unaccounted-for water, water quality testing activities, and monitoring of consumer satisfaction. However, the study also revealed challenges in the implementation of WSPs, including financial constraints and insufficient capacity. Finally, this study provided an opportunity to test the impact assessment methodology itself, and a series of recommendations are made to improve the approach (indicators, study design, data collection methods) for evaluating WSPs.

Version 1
30. June 2017.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Hallvard Ødegaard et al., 30. June, 2014

Microbial barrier analysis (MBA) – a guideline

by Hallvard Ødegaard et al., 30. June, 2014

In order to safeguard the public against waterborne diseases, water utilities must secure that multiple, microbial barriers are provided for in their drinking water systems. In most water utilities disinfection of the water represents an important barrier, but microbial barriers may also be achieved by other actions, for example in the catchment area.

Based on experiences from Norway, Sweden and Finland, this guideline is a helpful tool for implementing Water Safety Plans. The guideline explains the "barrier concept" and assist water utilities as well as their their consultants in determining what actions to take to ensure that the microbial barriers in their systems are sufficient – and that the water is safe to drink.

Version 2
1. August 2009.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Bob Breach , 01. August, 2009

Microbial regrowth and disinfection in the network

by Bob Breach , 01. August, 2009

This document summarizes the management of risk from microbial regrowth in distribution systems through optimized chlorine disinfection. Considerations is also given to the potential for formation of disinfection by-products. Strategies for controlling these risks are presented.

Version 1
1. November 2011.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by World Health Organization et al., 01. November, 2011

Nepal: Water safety plan

by World Health Organization et al., 01. November, 2011

Under AusAid funding, WHO supported Water safety plan implementation in Nepal. This case study reports on key WSP facts, and describes the status of water supply.

Version 1
21. February 2019.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by David Sutherland et al., 29. August, 2017

Observations and lessons learnt from more than a decade of water safety planning in South-East Asia

by David Sutherland et al., 29. August, 2017

In many countries of the World Health Organization (WHO) South-East Asia Region, drinking water is not used directly from the tap and faecal contamination of water sources is prevalent. As reflected in Sustainable Development Goal 6, access to safer drinking water is one of the most successful ways of preventing disease. The WHO Water Safety Framework promotes the use of water safety plans (WSPs), which are structured tools that help identify and mitigate potential risks throughout a water-supply system, from the water source to the point of use. WSPs not only help prevent outbreaks of acute and chronic waterborne diseases but also improve water-supply management and performance. During the past 12 years, through the direct and indirect work of a water quality partnership supported by the Australian Government, more than 5000 urban and rural WSPs have been implemented in the region. An impact assessment based on pre- and post-WSP surveys suggests that WSPs have improved system operations and management, infrastructure and performance; leveraged donor funds; increased stakeholder communication and collaboration; increased testing of water quality; and increased monitoring of consumer satisfaction. These achievements, and their sustainability, are being achieved through national legislation and regulatory frameworks for water supply, including quality standards for drinking water; national training tools and extensive training of sector professionals and creation of WSP experts; model WSPs; WSP auditing systems; and the institution of longterm training and support. More than a decade of water safety planning using the WSP approach has shown that supplying safe drinking water at the tap throughout the WHO South-East Asia Region is a realistic goal.

Version 1
4. December 2017.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by World Health Organization (Regional Office for South-East Asia), 03. July, 2017

Operational Monitoring Plan Development: A guide to strengthening operational monitoring practices in small- to medium-sized water supplies

by World Health Organization (Regional Office for South-East Asia), 03. July, 2017

Practical guidance and training materials for small- and medium-sized water suppliers, and for those providing training and support to these suppliers, on strengthening operational monitoring practices – a core element of water safety planning. Training materials include a facilitator’s guide and PowerPoint slides.

Version 1
19. October 2022.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
14. January, 2022

OPERATIONAL POLICY AND GUIDING DOCUMENT. GWCL

14. January, 2022
Version 1
23. December 2020.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by David Sheehan, 23. December, 2020

Operational policy: Preparation and implementation of water safety plans

by David Sheehan, 23. December, 2020

This purpose of this Operational Policy is to provide an overview of the minimum requirements for the preparation and implementation of Water Safety Plans (WSPs) across a water supply system.

This Operational Policy is not intended to replace any applicable regulatory requirements with respect to WSPs, but, rather, to provide some guidance on important aspects of the WSP implementation

This Operational Policy is divided into three distinct sections: Catchment, Treatment and Distribution, and provides information on the minimum requirements for each part of the catchment-to-consumer WSP framework.

Version 1
20. March 2024.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Asoka Jayaratne; Mellisa Steele; Melita Stevens; Kate van Lieshout; Luke Curran; Matthew Higginbotham; Toby Prosser; Luke Dickson; Kim Mosse; Anthea McManemin, 01. December, 2023

Operationalising water safety plans for Melbourne – a large city case study

by Asoka Jayaratne; Mellisa Steele; Melita Stevens; Kate van Lieshout; Luke Curran; Matthew Higginbotham; Toby Prosser; Luke Dickson; Kim Mosse; Anthea McManemin, 01. December, 2023

A wholesale/retail model delivers drinking water to over 5 million residents in metropolitan Melbourne (Australia). Water Safety Plans were implemented in 1999 ahead of being regulatory mandated in 2003. With over 20 years of WSP application, this collaborative paper by the wholesaler and retailer utilities presents practical examples of drinking water quality risk management in challenging operational environments, highlighting lessons learnt, improvements made and outcomes achieved. Melbourne's supply comprises multiple sources, necessitating different tailored treatment configurations. Source waters range from open catchment with multiple treatment barriers, to protected catchment source waters requiring solely disinfection treatment (unfiltered) with gravity driven supply. Potable supply is a combination of unfiltered, filtered, desalinated and blended supplies. This makes for diversity in case studies brought to this paper, and a range of lessons likely to be of interest to the global WSP community. The Melbourne utility experience highlights the importance of developing and continually improving control measures for ongoing (adaptive) risk reduction. A robust emergency management plan is also fundamental to ensure preparedness for complex and unpredictable events. Furthermore, leveraging learnings from audits and incidents has been valuable for process improvement. WSP implementation has also facilitated timely communication with consumers and other stakeholders.

Version 1
3. August 2009.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Mathias H. Kleppen , 03. August, 2009

Pacific Drinking Water Safety Planning Lessons Learned

by Mathias H. Kleppen , 03. August, 2009

This case study provides the progress and lessons learned form the implementation of the Pacific Drinking Water Safety Plan programme.

Version 1
8. April 2021.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by UNICEF Pacific, 08. March, 2018

Pacific WASH Resilience Guidelines & Tools

by UNICEF Pacific, 08. March, 2018

These guidelines and training materials have been produced by UNICEF Pacific and encompass a number of tools to expand and strengthen the work of governments and other partners to improve water, sanitation and hygiene services, whilst building resilience for communities in the Pacific. The guidance collates current approaches and previous guidance on WASH and resilience in one location, covering theory, guidance and practical tools. By addressing disaster risk reduction and climate change adaptation in a comprehensive approach across the disaster and climate risk continuum, it serves as a contribution to the Framework for Resilient Development in the Pacific.

 

Version 1
1. November 2011.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by World Health Organization et al., 01. November, 2011

Philippines: Water safety plan

by World Health Organization et al., 01. November, 2011

Under AusAid funding, WHO supported WSP implementation in the Philippines. This case study reports on key WSP facts, and describes the status of water supply in the Philippines

Version 1
18. October 2017.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by WHO EURO, 18. October, 2017

Plan de gestion de la sécurité sanitaire de l’eau : un guide pratique pour l’amélioration de la sécurité sanitaire de l’eau potable dans les petites communautés

by WHO EURO, 18. October, 2017

Disposer d’eau potable de qualité acceptable et en suffisance est une condition préalable et essentielle à la bonne santé, au développement économique et à la durabilité des moyens de subsistance des familles des collectivités rurales. La mise en place d’un plan de gestion de la sécurité sanitaire de l’eau constitue l’approche la plus efficace en vue d’assurer l’alimentation en eau potable dans les systèmes d’approvisionnement en eau à petite échelle.

Le guide pratique explique cette approche étape par étape, et présente un ensemble de modèles prêts à l’emploi afin que les personnes ou entités chargées de l’approvisionnement en eau dans les zones rurales puissent élaborer et mettre en œuvre leur propre plan de gestion de la sécurité sanitaire de l’eau.

Le guide pratique s’adresse en particulier aux membres de la communauté rurale responsables de l’exploitation et de la gestion de l’approvisionnement en eau, ainsi qu’au personnel des services locaux de santé et d’approvisionnement en eau chargé de la préservation de la qualité de l’eau potable, et aux organisations non gouvernementales qui veillent à la sécurité sanitaire de l’eau potable dans les collectivités rurales.

Version 1
11. September 2017.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by WHO, 11. September, 2017

Planifier la gestion de la sécurité sanitaire de l’eau pour l’approvisionnement en eau des petites communautés: Recommandations pour la gestion par étapes des risques liés à l’approvisionnement en eau potable des petites communautés

by WHO, 11. September, 2017

Les Directives de qualité pour l’eau de boisson de l’Organisation mondiale de la Santé recommandent l'application d'une approche d'ensemble pour l'évaluation et la gestion des risques appelée «Plans de gestion de la sécurité sanitaire de l'eau» afin d'assurer de la façon la plus efficace la sécurité des approvisionnements en eau. Cette approche est systématique, complète, rentable et adaptée à un large éventail de circonstances. Ainsi est-elle un outil important pour l'approvisionnement en eau des petites communautés.

Ce manuel a pour objet d’assurer la participation des communautés, de les rendre autonomes et de les guider dans l’élaboration et la mise en oeuvre de plans de gestion de la sécurité sanitaire de l’eau pour leurs réseaux d’eau de boisson.

Il présente des recommandations sur la façon de développer et de mettre en œuvre un PGSSE au moyen de 6 tâches réalisables. En suivant l'approche telle qu'elle est décrite dans ce manuel, les petites communautés peuvent améliorer la gestion de leur système d'approvisionnement et obtenir progressivement des améliorations durables de la qualité de l'eau potable.

Version 1
11. May 2016.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by WHO/IWA, 2009

Plans de gestion de la sécurité sanitaire de l’eau

by WHO/IWA, 2009

En 2004, les Directives de l'OMS pour la qualité de l'eau de boisson recommandaient que les fournisseurs d'eau potable développent et mettent en œuvre des plans de gestion de la sécurité sanitaire de l'eau (PGSSE) afin d'évaluer et de gérer systématiquement les risques.
Ce manuel répond à cette recommandation en décrivant de façon claire et en termes pratiques, comment développer et mettre en œuvre des plan de gestion de la sécurité sanitaire de l'eau. Onze modules de formation fournissent des conseils par étape. Chaque module présente une étape clé dans le processus de développement et de mise en application des plans de gestion de la sécurité sanitaire de l'eau.

Version 1
4. March 2021.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by World Health Organisation, 2021

Plans de gestion de la sécurité sanitaire de l’eau résilients au climat : Gestion des risques de santé liés à la variabilité et au changement climatiques.

by World Health Organisation, 2021

Ce guide présente l'état actuel des connaissances sur les effets des changements climatiques sur le cycle de l'eau ainsi que les impacts sanitaires associés. Il est destiné à aider les fournisseurs d'eau qui se sont engagés à utiliser ou qui utilisent déjà l'approche du Plan de Gestion de la Sécurité Sanitaire de l'Eau (PGSSE), à mieux comprendre les questions liées aux changements climatiques et à soutenir l'identifi cation et la gestion des risques liés aux changements climatiques dans le cadre du processus du PGSSE.

Le document aidera les professionnels du secteur, en particulier les fournisseurs d'eau et les équipes du PGSSE à identifi er et à intégrer les questions plus larges du changement climatique, de la réduction des risques de catastrophe (RRC) et de la gestion intégrée des ressources en eau (GIRE) en tant qu'approches contributives importantes au processus du PGSSE.

https://iwaponline.com/ebooks/book/812/Plans-de-gestion-de-la-securite-sanitaire-de-l-eau

 

 

Version 1
1. November 2011.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by DASS-NC Service santé environnement , 01. November, 2011

Plans de Sécurité Sanitaire des Eaux de consommation (PSSE) Etudes de cas en Nouvelle-Calédonie

by DASS-NC Service santé environnement , 01. November, 2011

French version. This document describes the WSP implementation process in New Caledonia (French territory in the Pacific Ocean) for 13 municipalities that started in 2008. It describes the risk assessment and management tools used, the benefits achieved, the challenges and solutions to those challenges and the overall lessons learned.

Version 1
18. August 2017.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by World Health Organization, 14. August, 2017

Potable reuse: Guidance for producing safe drinking-water

by World Health Organization, 14. August, 2017

In response to growing pressures on available water resources, potable reuse represents a practical source of drinking-water in many circumstances.

This document describes how to apply appropriate management systems to produce safe drinking-water from municipal wastewater. Information is provided on specific aspects of potable reuse, including the quality and protection of source wastewaters, types of control measures, monitoring considerations and public acceptance. Application of potable reuse is also illustrated through a number of case studies.

The guidance is intended for use by drinking-water suppliers and regulators who are familiar with the WHO’s Guidelines for drinking-water quality and, in particular, the framework for safe drinking-water, including water safety plans. This publication may also be useful to others with an interest in potable reuse including environmental health and water resource professionals.

Version 1
19. May 2016.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Marilyn Maycock USEPA, 19. May, 2016

ppt – Quality Systems: ISO/IEC 17025:2005

by Marilyn Maycock USEPA, 19. May, 2016

Powerpoint presentation for the US EPA with an introduction to the ISO ISO/IEC 17025:2005 international standard for calibration and testing labs - including its purpose and how to ensure the quality system are effective

Version 1
19. May 2016.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Mark Rodgers - USEPA, 19. May, 2016

ppt – The Importance of Laboratory Support in the Implementation of Water Safety Plans

by Mark Rodgers - USEPA, 19. May, 2016

Powerpoint presentation from the USEPA on the Importance of Laboratory Support in the Implementation of Water Safety Plans. The critical elements to laboratory support as well as he linkages between Water Safety Plan implementation and laboratory support are explained.

Version 1
4. December 2017.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by World Health Organization (Regional Office for South-East Asia), 17. July, 2017

Principles and Practices of Drinking-water Chlorination: A guide to strengthening chlorination practices in small- to medium-sized water supplies

by World Health Organization (Regional Office for South-East Asia), 17. July, 2017

Practical guidance and training materials for small- and medium-sized water supplies, and for those providing training and support to these suppliers, on strengthening chlorination practices – a common improvement need identified through the WSP process in the South-East Asia and Western Pacific regions. Training materials include a facilitator’s guide and PowerPoint slides, and basic standard operating procedures and calculation sheets for effective and safe chlorination. The materials are based on training programmes delivered in the regions.

Version 1
20. March 2006.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by World Health Organization, 2006

Protecting groundwater for health: managing the quality of drinking-water sources

by World Health Organization, 2006

Provides guidance for health, environment and water sector professionals on the application of risk management approaches to protect groundwater sources of drinking-water, presenting a structured approach to analyzing hazards to groundwater quality, assessing and prioritizing the risks they pose, and developing management strategies for their control.

Version 1
8. November 2016.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by World Health Organization (Editors: Rickert B et al., 01. July, 2016

Protecting surface water for health

by World Health Organization (Editors: Rickert B et al., 01. July, 2016

Protecting surface water for health provides a structured approach to understanding surface waters and their catchments to support the identification, assessment and prioritization of the risks, and the development of management strategies for their control, as a basis for providing safe drinking-water.

The book provides guidance and supporting information on the development and application of water safety plans, which represent best practice to address the assessment and control of surface-water hazards in drinking-water catchments.

Version 1
8. November 2016.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by World Health Organization (Editors: Rickert B et al.,

Protecting surface water for health: Editable checklists and tables to support catchment inspection

by World Health Organization (Editors: Rickert B et al.,

Protecting surface water for health provides a structured approach to understanding surface waters and their catchments to support the identification, assessment and prioritization of the risks, and the development of management strategies for their control, as a basis for providing safe drinking-water.

Editable versions of the catchment and pollution assessment checklists and inventory tables that are presented in the book to support surface-water catchment inspection are presented here. Please refer to the introductory pages of Section 3.2 of Protecting surface water for health for guidance on how to use these checklists and tables to perform a catchment assessment (http://www.who.int/water_sanitation_health/publications/pswh/en/).

Version 1
1. December 2008.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Bob Breach , 01. December, 2008

Rapid gravity filters-water quality benefits and risks

by Bob Breach , 01. December, 2008

Rapid gravity filters are used extensively in many waterworks across the world where they provide a critical part of the water purification process. This document summarises the basic functions and operation of such filters and identifies possible risks to water quality which need to be assessed and managed as part of a treatment water safety plan.

Version 1
5. March 2020.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by University of Surrey, 05. March, 2020

Risk assessment of small water supplies

by University of Surrey, 05. March, 2020

Set in Iceland, this short video documents how sanitary inspections can be applied as a basic risk management tool for small water supplies. For more information, visit: https://www.surrey.ac.uk/department-civil-environmental-engineering/research/water-environment-and-health-engineering-group

Version 1
5. March 2020.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by University of Surrey, 05. March, 2020

Risk assessment of small water supplies in lower-middle income settings

by University of Surrey, 05. March, 2020

Set in Uganda, this short video documents how sanitary inspections can be applied as a basic risk management tool for small water supplies in resource limited settings. For more information, visit: https://www.surrey.ac.uk/department-civil-environmental-engineering/research/water-environment-and-health-engineering-group

Version 3
18. December 2017.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by WHO, 2016

Risk Matrix – Example of Semi-Quantitative Matrix

by WHO, 2016

Example of a semi-quantitative risk matrix to classify the severity and likelihood of identified hazards and hazardous events.

Version 1
12. August 2021.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by State Ministry of Rural and Divisional Drinking Water Supply Projects Development,

Rural Water Safety Plan – Instructions and Training Materials

by State Ministry of Rural and Divisional Drinking Water Supply Projects Development,

Tailored guidance package to support rural water safety planning in Sri Lanka. Includes stepwise instructions for trainers to conduct a rural WSP training incorporating a field visit.

Version 1
19. May 2016.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Royal Government of Bhutan et al., 01. December, 2013

Rural Water Safety Plan (RWSP) Facilitator’s Guide

by Royal Government of Bhutan et al., 01. December, 2013

The facilitator‟s guide for the Rural Water Safety Plan Workshop has been prepared based on the Water Safety Planning for Small Community Water Supplies adapted to the Bhutanese context. This manual will describe how rural communities can deliver and sustain safe drinking water by developing and implementing WSPs for their own communities.

Version 1
19. May 2016.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Angella Rinehold, 25. August, 2016

Rural WSP template for Cambodia

by Angella Rinehold, 25. August, 2016

This resource provides a template for a WSP for a rural community in Cambodia which has been customized and tailored to the local context through a pilot programme.
Important note - This template should be adapted and trialed before being used in a different context.

Version 1
19. May 2016.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Angella Rinehold (WHO et al., 25. August, 2015

Rural WSP template for Sri Lanka

by Angella Rinehold (WHO et al., 25. August, 2015

This resource provides a template for a WSP for a rural community in Sri Lanka which has been customized and tailored to the local context through a pilot programme.
Important note - This template should be adapted and trialed before being used in a different context.

Version 1
9. November 2016.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Paul M Byleveld et al.,

Safe drinking water in regional NSW, Australia

by Paul M Byleveld et al.,

The New South Wales (NSW) Public Health Act 2010 requires water suppliers to implement a drinking water quality assurance program that addresses the ‘Framework for management of drinking water quality’ in the Australian drinking water guidelines. NSW Health has recognised the importance of a staged implementation of this requirement and the need to support regional water utilities. To date, NSW Health has assisted 74 regional utilities to develop and implement their management systems. The Public Health Act 2010 has increased awareness of drinking water risk management, and offers a systematic process to identify and control risks. This has benefited large utilities, smaller suppliers, and remote and Aboriginal communities. Work is continuing to ensure implementation of the process by private suppliers and water carters.

Version 1
13. March 2024.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by WHO, 15. February, 2024

Sanitary inspection packages – a supporting tool for the Guidelines for drinking water quality: small water supplies

by WHO, 15. February, 2024

This publication presents the World Health Organization’s (WHO’s) sanitary inspection packages. These packages update the sanitary inspection forms in WHO’s 1997 Guidelines for drinking-water quality. Volume 3: surveillance and control of community supplies. With more than 25 years of practical experience with the application of sanitary inspections, these packages have been developed from a comprehensive evidence review and established good practices.

Version 1
2. January 2011.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Engeeners Without Borders Australia , 02. January, 2011

SNAKES & LADDERS – Water Safety Plan version in Nepal

by Engeeners Without Borders Australia , 02. January, 2011

‘WSP Snakes & Ladders’ was developed according to the hazards identified and hazard control measures developed for this particular community in Nepal. The game could easily be adapted to any drinking water system or community, ensuring that the hazards and control measures are locally appropriate.

Version 1
1. August 2009.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Peter Thompson and Sameera Majam , 01. August, 2009

South Africa The development of a generic water safety plan for small community water supply

by Peter Thompson and Sameera Majam , 01. August, 2009

This document describes development of a Water Safety Plan with a background focus on Africa.

Version 2
1. October 2007.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by WSP, 01. October, 2007

Spanish Town, Jamaica Case Study

by WSP, 01. October, 2007

Presents the WSP for Spanish Town, Jamaica, which may provide an example approach for WSP development for WSP community at an early stage of WSP development

Version 1
24. June 2024.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Government of Sri Lanka, 09. April, 2024

Sri Lanka – National policy on water safety

by Government of Sri Lanka, 09. April, 2024

This document presents a robust and authorized framework that provides essential support for the seamless execution of WSPs in the context of Sri Lanka. This need arises within the global context of WSPs gaining recognition as a crucial tool in ensuring drinking water quality, acceptability, and quantity as advocated by the WHO and widely adopted worldwide. Notably, in the specific context of Sri Lanka, the WHO has extended its WSP training program to the South Asian region, acknowledging the country's proactive stance in embracing and implementing WSP practices. The policy includes consideration of both equity and climate resilience, and aims to ensure access to safe and quality drinking water for all citizens, promoting sustainable water use and promoting economic growth and prosperity in the water sector.

Version 1
16. May 2019.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
01. May, 2019

Strategic Recommendations for Climate Smart Water Utilities: Using the Flood and Drought Portal in Planning

01. May, 2019

The effect of climate change on the hydrological cycle is becoming a growing phenomenon and resulting in impacts including flood and drought events, disappearance of glaciers, decrease in groundwater recharge, and water quality degradation (e.g. oxygen depletion in water reservoirs during extreme heat events) (WHO, 2017).

Such events are becoming increasingly common, more severe and less predictable with increasing climate variability and change. Stakeholders from catchment to tap have a role to play in strengthening climate resilience. Water utilities, in particular, need to have sustainable and resilient water resources management to ensure water supply continuity and to fulfill their responsibility to deliver safe and secure water to their customers.

This document focuses on strategic recommendations for water utilities on:

  1. Why and how water utilities can integrate climate change impacts into planning and management of water resources, specifically through WSPs; and
  2. How to use the Flood and Drought Portal (www.flooddroughtmonitor.com), to better include climate data and information into WSP, ensuring its climate resilience

Version
24. September 2024.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments

Strengthening climate resilience in the drinking-water and sanitation sector through the Protocol on Water and Health

Infrastructure and supporting services are at increasing risk from climate threats, which may compromise the health and well-being of communities. Service providers are actively undertaking measures to reduce greenhouse gas emissions and adapt infrastructure and management strategies to enhance resilience. Climate change considerations are increasingly being integrated into water safety plans and sanitation safety plans, and measures such as improving water efficiency, reducing leakage and reusing treated wastewater are being implemented. However, further development of adaptive management and scenario-based planning is necessary. Regulators can support service providers to strengthen resilience, alongside setting climate targets that consider local priorities. The Protocol on Water and Health offers a framework for addressing climate challenges by promoting stakeholder collaboration and supporting enhanced resilience through target setting and data harmonization.

Version 1
18. September 2018.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by WHO et al., 18. September, 2018

Strengthening operations & maintenance through water safety planning: A collection of case studies

by WHO et al., 18. September, 2018

This document presents case studies from lower and higher income settings around the world that highlight O&M benefits resulting from WSP implementation. These case studies contribute to a growing body of information on the outcomes of water safety planning and may be useful in building support for WSPs among water sector senior managers, operational staff and other stakeholders.

Version 1
7. June 2016.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Luca Rondi et al., 14. August, 2015

Sustainability of Water Safety Plans Developed in Sub-Saharan Africa

by Luca Rondi et al., 14. August, 2015

The WSP approach was elaborated within two cooperation projects implemented in rural areas of Burkina Faso and Senegal by two Italian NGOs (Non-Governmental Organisations). In order to evaluate its sustainability, a questionnaire based on five different sustainability elements and a cost and time consumption evaluation were carried out and applied in both the case studies. Results demonstrated that the questionnaire can provide a useful and interesting overview regarding the sustainability of the WSP; however, further surveys in the field are recommended for gathering more information. Time and costs related to the WSP elaboration, implementation, and management were demonstrated not to be negligible and above all strongly dependent on water quality and the water supply system complexity.

Version 1
18. September 2023.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by USAID/Rural Evidence and Learning For Water (REAL-WATER),

Synthesis of Water Safety Planning Efforts in Ghana

by USAID/Rural Evidence and Learning For Water (REAL-WATER),

This report provides a synthesis of water safety plan (WSP) implementation efforts in Ghana. It highlights the implementation status, enabling environment, challenges, opportunities, and relevant recommendations for improvement.

Version 1
20. March 2017.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by World Health Organization Regional Office for Europe et al.,

Taking policy action to improve small-scale water supply and sanitation systems. Tools and good practices from the pan-European Region

by World Health Organization Regional Office for Europe et al.,

Presents policy-makers with a range of regulatory, planning, financial and educational instruments to support effective policy and promote good practice (including water safety planning) to improve small-scale water supply and sanitation systems.

This publication aims to inspire practitioners and policy-makers who develop water supply and sanitation policies and programmes at the national or subnational levels to consider improvement actions that they can adapt for their own circumstances. It further assists policy-makers in formulating specific targets for small-scale systems and in planning concrete actions for their achievement. Other stakeholders – such as aid and funding agencies, local governments and nongovernmental organizations – may also find the information relevant for their programmes and projects.

Version 1
6. December 2016.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Centre for Affordable Water and Sanitation Technologies, 01. August, 2016

Technical Brief: Water Safety Plans and Household Water Treatment and Safe Storage

by Centre for Affordable Water and Sanitation Technologies, 01. August, 2016

This Technical Brief, written by CAWST (Centre for Affordable Water and Sanitation Technologies), integrates both approaches and introduces the importance of water safety planning for small communities. It describes the benefits of including household water treatment and safe storage (HWTS) in a water safety plan, and explains how the WSP approach can improve HWTS implementation.

It also provides an overview of the six water safety planning tasks for small communities, with considerations for integrating HWTS throughout the tasks.

Version 1
1. April 2011.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Gef et al., 01. April, 2011

Technologies for Climate Change Adaptation

by Gef et al., 01. April, 2011

This guidebook, released by UNEP Risoe Center, describes adaptation strategies in the categories of water conservation; storm water control and capture; resilience to water quality degradation; preparation for extreme weather events; diversification of water supply; and mitigation. It has been made widely available and will help both developed and developing countries understand means of increasing resilience to the uncertain effects of future climate change. The Water Institute at UNC provided technical and methodological expertise.

Version 1
18. June 2022.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments

Test Resource Brenda

Version 1
1. August 2009.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Peter Thompson and Sameera Majam , 01. August, 2009

The development of a generic Water Safety Plan for small community water supply

by Peter Thompson and Sameera Majam , 01. August, 2009

This case study describes the development of Water Safety Plans in small community water supplies in South Africa. It describes the previous assessment methods as well as the eleven steps taken to develop and implement the WSP.

Version 1
24. September 2010.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Talem Hasan and Federica Gerber , 24. September, 2010

The Economics of Drinking Water Safety Planning: An Advocacy Tool

by Talem Hasan and Federica Gerber , 24. September, 2010

This paper describes an economic cost-benefit analysis of the Koror-Airai drinking water safety plan from Palau to demonstrate the value to society of the drinking water safety planning approach in the long term. The cost-benefit analysis for implementing the Koror-Airai drinking water safety plan showed that a return of US$ 6.00 was expected on every US$ 1.00 invested towards implementing the plan. The case study provides an effective advocacy tool for the promotion of drinking water safety planning both in the Pacific region and globally.

Version 1
21. April 2016.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by WHO, 2010

Think big, start small, scale-up: a road map to support country level implementation of water safety plans – ENGLISH

by WHO, 2010

This document provides a 'road map' to support country-level implementation of WSPs. It provides guidance for country planners on how to initiate and carry out WSP implementation.  The document outlines a series of steps which may guide how WSP implementation and scale-up of WSPs may be approached at a national level.

Version 0
24. May 2018.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Karen E. Setty et al., 03. April, 2018

Time series study of weather, water quality, and acute gastroenteritis at Water Safety Plan implementation sites in France and Spain

by Karen E. Setty et al., 03. April, 2018

Water Safety Plans (WSPs), recommended by the World Health Organization since 2004, can help drinking water suppliers to proactively identify potential risks and implement preventive barriers that improve safety. Few studies have investigated long-term impacts of WSPs, such as changes in drinking water quality or public health; however, some evidence from high-income countries associates WSP implementation with a reduction in diarrheal
disease. To validate the previously observed linkages between WSPs and health outcomes, this time series
study examined site-specific relationships between water-related exposures and acute gastroenteritis rates at three locations in France and Spain, including the role of WSP status. Relationships between control or exposure variables and health outcomes were tested using Poisson regression within generalized additive models. Controls included suspected temporal trends in disease reporting. Exposures included temperature, precipitation, raw water quality, and finished water quality (e.g., turbidity, free chlorine). In France, daily acute gastroenteritis cases were tracked using prescription reimbursements; Spanish data aggregated monthly acute gastroenteritis hospital visits. The models identified several significant relationships between indicators of exposure and acute gastroenteritis. Lag times of 6–9 days (including transit time) were most relevant for hydrological indicators (related to precipitation, runoff, and flow) at the two French sites, indicative of viral pathogens. Flush events (defined as surface runoff after a two-week antecedent dry period) linked to nonpoint source pollution were associated with a 10% increase in acute gastroenteritis rates at one location supplied by surface water. Acute gastroenteritis rates were positively associated with elevated turbidity average or maximum values in finished water at locations supplied by both surface and groundwater, by about 4% per 1-NTU increase in the two-week moving average of daily maxima or about 10% per 0.1 NTU increase in the prior month’s average value. In some
cases, risk appeared to be mitigated by WSP-related treatment interventions. Our results suggest drinking water exposure is associated with some potentially preventable gastrointestinal illness risk in high-income regions.

Version 1
26. July 2018.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Government of Nepal et al., 02. October, 2017

Training Package on Climate Resilient Water Safety Plan (CR-WSP)

by Government of Nepal et al., 02. October, 2017

This training toolkit aims to support  roll-out of climate resilient WSPs in Nepal by capacitating national trainers. The training materials are based on international (WHO) and national (Department of Water Supply & Sanitation) best practices and experiences.

The training toolkit contains a “Facilitators handbook”, “Participants workbook” and presentations, to support the successful and consistent delivery of the national climate resilient WSP training program.

Version 1
1. October 2008.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by WHO - Western Pacific Region , 01. October, 2008

Training workbook on Water Safety Planning Urban systems

by WHO - Western Pacific Region , 01. October, 2008

The objective of this workbook is to serve as a guide to facilitate WSP development for an organised water supply that is managed by a water utility or similar entity. WSPs can be tailored differently for each specific water supply system. This workbook is generic and is not specific to any particular country. It is anticipated that trainers in each country would develop their own WSP training material which would be linked directly to country drinking water standards and implementing guidelines as well as bring written in other appropriate languages.

Version 2
1. August 2009.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Bob Breach , 01. August, 2009

Treated water storage

by Bob Breach , 01. August, 2009

This document summarises the type of risks that might occur within treated water storages and how to control them.

Version 1
1. August 2009.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Bob Breach , 01. August, 2009

Unauthorised access to the network

by Bob Breach , 01. August, 2009

It is the experience of many water suppliers that illegal or unauthorised access to the distribution network can occur for a variety of reasons. This poses a number of water quality risks and can also create wider problems related to loss of revenue. This document briefly summarises the water quality risks associated with unauthorised access and how they can be mitigated.

Version 1
21. April 2016.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
21. April, 2016

Urban water safety plan template for Bhutan

21. April, 2016

Provides a template WSP for urban water supply system in Bhutan based on the WSP manual. Contains text and tables as examples, which should be reviewed and revised to reflect system-specific conditions.

Version 1
1. November 2011.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by World Health Organization et al., 01. November, 2011

Vietnam: Water safety plan

by World Health Organization et al., 01. November, 2011

Under AusAid funding, WHO supported WSP implementation in Vietnam. This case study highlights key WSP facts, and describes the water supply situation and regulation of WSP in Vietnam

Version 2
1. November 2009.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by USEPA et al., 01. November, 2009

Water Quality application of composite correction in India

by USEPA et al., 01. November, 2009

This case study describes the study of the Composite Correction Programme (CCP) in three different cities in India to prepare for the implementation of Water Safety Plans. CCP is a water treatment plant optimization program that improves water treatment operation with limited capital investment by optimizing particle removal from water treatment plants.

Version 2
11. July 2017.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Karen Setty et al., 19. February, 2017

Water quality, compliance, and health outcomes among utilities implementing Water Safety Plans in France and Spain

by Karen Setty et al., 19. February, 2017

Water Safety Plans (WSPs), recommended by the World Health Organization since 2004, seek to proactively identify potential risks to drinking water supplies and implement preventive barriers that improve safety. To evaluate the outcomes of WSP application in large drinking water systems in France and Spain, we undertook analysis of water quality and compliance indicators between 2003 and 2015, in conjunction with an observational retrospective cohort study of acute gastroenteritis incidence, before and after WSPs were implemented at five locations. Measured water quality indicators included bacteria (E. coli, fecal streptococci, total coliform, heterotrophic plate count), disinfectants (residual free and total chlorine), disinfection by-products (trihalomethanes, bromate), aluminum, pH, turbidity, and total organic carbon, comprising about 240K manual samples and 1.2M automated sensor readings. We used multiple, Poisson, or Tobit regression models to evaluate water quality before and after the WSP intervention. The compliance assessment analyzed exceedances of regulated, recommended, or operational water quality thresholds using chi-squared or Fisher’s exact tests. Poisson regression was used to examine acute gastroenteritis incidence rates in WSP-affected drinking water service areas relative to a comparison area. Implementation of a WSP generally resulted in unchanged or improved water quality, while compliance improved at most locations. Evidence for reduced acute gastroenteritis incidence following WSP implementation was found at only one of the three locations examined. Outcomes of WSPs should be expected to vary across large water utilities in developed nations, as the intervention itself is adapted to the needs of each location. The approach may translate to diverse water quality, compliance, and health outcomes.
(Final report at https://doi.org/10.1016/j.ijheh.2017.02.004)

Version 1
20. October 2022.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments

Water Safety Conference 2022 – Conference records are now available

The Water Safety Conference 2022 recording are available to the public under the “Conference record” page on the conference webpage. https://watersafety2022.org/conference-record/

Version 1
20. March 2011.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by World Health Organization, 07. March, 2011

Water safety in buildings

by World Health Organization, 07. March, 2011

Provides guidance for those responsible for managing water supply systems in buildings on applying the WSP approach to improve risk management and ensure water safety is maintained within the building.

This document provides guidance for managing water supplies in buildings where people may drink water; use water for food preparation; wash, shower, swim or use water for other recreational activities; or be exposed to aerosols produced by water-using devices, such as cooling towers. These uses occur in a variety of buildings, such as hospitals, schools, child and aged care, medical and dental facilities, hotels, apartment blocks, sport centres, commercial buildings and transport terminals.

Version 1
20. March 2014.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by World Health Organization, 03. March, 2014

Water safety in distribution systems

by World Health Organization, 03. March, 2014

Water quality deterioration in distribution systems, mainly caused by inappropriate planning, design and construction or inadequate operation and maintenance and water quality control, has been linked to a significant proportion of the burden of waterborne and water-related illness. Stresses on these systems caused by rapid urbanization, population growth and aging infrastructure further exacerbates the problems. This reference tool has been developed to help water suppliers and regulators who are familiar with the Water Safety Plan approach, enhance their risk assessment and management and investment planning for their water distribution systems.

Version 1
18. June 2020.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by World Health Organization, 18. June, 2020

Water safety plan audit training package

by World Health Organization, 18. June, 2020

Water safety plans (WPS) have been implemented in every region of the world, and many implementing countries have included WSPs in drinking-water policies or regulations. Enforcement of WSP requirements, as well as general WSP success and sustainability, requires ongoing WSP auditing, i.e. independent and systematic checks of WSP completeness, implementation in practice and effectiveness.

This training package presents guidance on preparing for and conducting a WSP audit, covering such topics as the aim and role of auditing, audit criteria, audit timing and frequency and audit reporting. It provides practical tools to support auditors conduct successful audits for continuous WSP improvement.

 

Version 001
18. October 2017.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Mahmoud Abd Al Rahman Saad Mehany et al., 01. May, 2017

Water Safety Plan for Edfina Drinking Water Supply System, Behira Governorate – Egypt

by Mahmoud Abd Al Rahman Saad Mehany et al., 01. May, 2017

Edfina Drinking Water Treatment Plant was installed at Behira governorate, Egypt in 1998 and, due to increasing of water demand, the water authority intends to increase its capacity by installing a new conventional water treatment plant. However, water resources are suffering from many illegal activities in the catchment which deteriorate the raw water quality. The water higher community took the decision to develop a  WSP for Edfina supply system with the Holding Company in coordination with other water stakeholders (including the Irrigation ministry, Environmental ministry, Health Minisry, NGOs....). This document is the first version of the WSP and is shared as an example of a WSP approach adopted in Egypt.

Version 2
1. November 2011.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Enviromental Health Control Section et al., 01. November, 2011

Water Safety Plan Handbook: for rural water supply systems

by Enviromental Health Control Section et al., 01. November, 2011

Provides customized guidance on implementing WSPs in rural water supply systems tailored to the Malaysian context

Version 3
21. April 2016.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by WHO et al., 2009

Water safety plan manual

by WHO et al., 2009

Water safety plans (WSPs) are the most effective means of consistently ensuring the safety of a drinking water supply. This WSP manual describes how to develop and implement a WSP in clear and practical terms. Stepwise advice is provided through 11 learning modules, each representing a key step in the WSP development and implementation process.

Version 1
28. February 2023.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
28. February, 2023

Water Safety Plan Manual. 2nd Edition

28. February, 2023

This Water safety plan manual provides practical guidance to support development and implementation of water safety planning in accordance with the principles presented in the WHO Guidelines for drinking-water quality.

The manual is targeted at water suppliers and organizations supporting water safety planning programmes, including government agencies responsible for public health, or regulation and surveillance of drinking-water quality, nongovernmental or intergovernmental organizations. The guidance provides a broad range of examples and case studies from lower- to higher-income settings, highlighting practical solutions to real-world challenges from around the globe to help readers apply the guidance in diverse contexts.

This second edition streamlines guidance on the integration of climate resilience and equity into the water safety planning approach, to help support access to safely managed drinking-water services for all users, despite growing uncertainties from a changing climate.

Version 1
20. March 2013.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by WHO et al., 04. March, 2013

Water safety plan quality assurance tool

by WHO et al., 04. March, 2013

This tool is designed to guide organized drinking-water supplies through a WSP self-assessment to determine the WSP’s completeness and the effectiveness of its implementation. It aims to support the development, implementation and assessment of WSPs by systematically highlighting the areas where progress is being made and opportunities for improvement.

Version 2
17. August 2023.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
17. August, 2023

Water safety plan template for general buildings in Hong Kong (Chinese)

17. August, 2023

聯同《香港建築物食水安全計劃指引》,此範本旨在為業主或物業管理人提供易於使用的工具,為具有一般供水系統的建築物(如住宅及辦公室大廈)制訂和實施建築物水安全計劃。

Version 2
17. August 2023.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
17. August, 2023

Water safety plan template for general buildings in Hong Kong (English)

17. August, 2023

In conjunction with the Guidelines for Drinking Water Safety Plans for Buildings in Hong Kong, this template is prepared as an easy-to-use tool for owners and property management agents to develop and implement Water Safety Plan for buildings with general plumbing systems such as residential and office buildings.

Version 2
17. August 2023.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
17. August, 2023

Water safety plan template for general buildings in Hong Kong (Simplified Chinese)

17. August, 2023

聯同《香港建築物食水安全計劃指引》,此範本旨在為業主或物業管理人提供易於使用的工具,為具有一般供水系統的建築物(如住宅及辦公室大廈)制訂和實施建築物水安全計劃。

Version 2
17. August 2023.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
17. August, 2023

Water safety plan template for hospitals in Hong Kong (English)

17. August, 2023

In conjunction with the Guidelines for Drinking Water Safety Plans for Buildings in Hong Kong, this template is prepared incorporating input from facility managers of hospitals for management staff to develop and implement Water Safety Plan to enhance water safety in hospitals.

Version 2
17. August 2023.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
17. August, 2023

Water safety plan template for hospitals in Hong Kong (Simplified Chinese)

17. August, 2023

聯同《香港建築物食水安全計劃指引》,此範本納入了醫院設施經理的意見,以協助管理人員制訂和實施水安全計劃,提升醫院內的食水安全。

Version 2
17. August 2023.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
17. August, 2023

Water safety plan template for hospitals in Hong Kong (Traditional Chinese)

17. August, 2023

聯同《香港建築物食水安全計劃指引》,此範本納入了醫院設施經理的意見,以協助管理人員制訂和實施水安全計劃,提升醫院內的食水安全。

Version 1
13. April 2018.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Water Supplies Department et al., 02. April, 2018

Water safety plan template for residential care homes for the elderly

by Water Supplies Department et al., 02. April, 2018

This template is prepared based on recommendations of the World Health Organization (WHO)  to assist the owner or the house management staff of a residential care home for the elderly with an independent internal plumbing system to develop and implement a Water Safety Plan (WSP) to enhance water safety.

Version 2
17. August 2023.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
17. August, 2023

Water safety plan template for residential care homes for the elderly in Hong Kong (English)

17. August, 2023

In conjunction with the Guidelines for Drinking Water Safety Plans for Buildings in Hong Kong, this template is prepared as an easy-to-use tool for owners or house management staff of residential care homes for the elderly with an independent internal plumbing system to develop and implement Water Safety Plan to enhance water safety.

Version 2
17. August 2023.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
17. August, 2023

Water safety plan template for residential care homes for the elderly in Hong Kong (Simplified Chinese)

17. August, 2023

聯同《香港建築物食水安全計劃指引》,此範本旨在為安老院舍的業主或院舍管理人員提供易於使用的工具,為具有獨立內部供水系統的院舍制訂和實施水安全計劃,提升食水安全。

Version 2
17. August 2023.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
17. August, 2023

Water safety plan template for residential care homes for the elderly in Hong Kong (Traditional Chinese)

17. August, 2023

聯同《香港建築物食水安全計劃指引》,此範本旨在為安老院舍的業主或院舍管理人員提供易於使用的工具,為具有獨立內部供水系統的院舍制訂和實施水安全計劃,提升食水安全。

Version 2
17. August 2023.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
17. August, 2023

Water safety plan template for schools in Hong Kong (English)

17. August, 2023

In conjunction with the Guidelines for Drinking Water Safety Plans for Buildings in Hong Kong, this template is prepared as an easy-to-use tool for persons-in-charge of schools’ house management to develop and implement Water Safety Plan to enhance water safety.

Version 2
17. August 2023.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
17. August, 2023

Water safety plan template for schools in Hong Kong (Simplified Chinese)

17. August, 2023

聯同《香港建築物食水安全計劃指引》,此範本旨在為校舍管理負責人提供易於使用的工具,以制訂和實施水安全計劃,提升食水安全。

Version 1
17. August 2023.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
17. August, 2023

Water safety plan template for schools in Hong Kong (Traditional Chinese)

17. August, 2023

聯同《香港建築物食水安全計劃指引》,此範本旨在為校舍管理負責人提供易於使用的工具,以制訂和實施水安全計劃,提升食水安全。

Version 1
16. May 2018.
1 vote, average: 4.00 out of 51 vote, average: 4.00 out of 51 vote, average: 4.00 out of 51 vote, average: 4.00 out of 51 vote, average: 4.00 out of 5
0 comments
by Rory Moses McKeown, 16. May, 2018

Water safety plan template including climate considerations for rural water supplies: United Rep. of Tanzania

by Rory Moses McKeown, 16. May, 2018

This water safety plan (WSP) template was developed to support the integration of climate risks into the WSP approach in rural areas of the United Rep. of Tanzania. Examples are presented on how to complete the template, and the information should be considered and customized to the local context.

This template is  based on WHO EURO (2014) Water safety plan: a field guide to improving drinking-water safety in small communities, but adapted to the local context.

This resource was developed as part of the Department for International Development (DFID, UK)-funded project on “Building adaptation to climate change in health in least developed countries through resilient WASH” which was implemented from 2013-2018 in Bangladesh, Ethiopia, Nepal and Tanzania.

Version 1
21. April 2016.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by WHO, 2014

Water safety plan: a field guide to improving drinking-water safety in small communities – ENGLISH

by WHO, 2014

This field guide provides a step-by-step introduction to the WSP approach and a range of ready-to-use templates to assist those locally involved in rural water supply to develop and implement their own WSPs.
The field guide particularly addresses the rural community members responsible for the operation and management of their water supplies, as well as the staff of the local health and water supply offices responsible for safeguarding drinking-water quality and nongovernmental organizations that support drinking-water safety in rural communities.

Version 1
21. April 2016.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by WHO, 2012

Water safety planning for small community water supplies – ENGLISH

by WHO, 2012

This manual is designed to engage, empower and guide communities in the WSP development and implementation process. Guidance is provided on how to develop and implement a WSP through six achievable tasks. By following the WSP approach as described in this manual, small communities can improve the management of their drinking-water systems to achieve incremental and sustainable improvements in their drinking-water quality.

Version 1
22. June 2017.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by ADB et al., 31. May, 2017

Water safety planning for urban water utilities: Practical guide for ADB staff

by ADB et al., 31. May, 2017

This handbook provides practical guidance on integrating the water safety plan (WSP) approach into ADB's urban water projects to facilitate compliance with global good practices. Following the WHO’s Water Safety Plan Manual (2009), adapted to ADB’s operations, this handbook offers step-by-step guidance on developing and implementing a WSP, serving as an example of how external support agencies may integrate WSPs into their urban water programmes.

Version 1
17. March 2021.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by World Health Organization, 17. March, 2021

Water safety planning training videos

by World Health Organization, 17. March, 2021

Training videos on water safety planning are now available. The videos cover an introduction to water safety plan principles and steps, and water safety plan auditing. These videos are recordings from a bilateral training event organized by the WHO South-East Asia and Western Pacific Regional Offices, with support from WHO Headquarters. The content has been designed such that the global WSP community can benefit from viewing. For more information and to view the videos, visit the Water safety planning training videos page.

Version 1
13. December 2017.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by WHO, 13. December, 2017

Water safety planning: A roadmap to supporting resources

by WHO, 13. December, 2017
Describes resources developed by the World Health Organization (WHO), and partners, on various aspects of water safety planning, such as water safety plan development, implementation, training, advocacy and auditing.
Version 1
10. August 2021.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Karen Setty et al., 26. May, 2021

Water Safety Plans

by Karen Setty et al., 26. May, 2021

Water safety plans (WSPs) represent a holistic risk assessment and management approach covering all steps in the water supply process from the catchment to the consumer. Since 2004, the World Health Organization (WHO) has formally recommended WSPs as a public health intervention to consistently ensure the safety of drinking water. These risk management programs apply to all water supplies in all countries, including small community supplies and large urban systems in both developed and developing settings. As of 2017, more than 90 countries had adopted various permutations of WSPs at different scales, ranging from limited-scale voluntary pilot programs to nationwide implementation mandated by legislative requirements. Tools to support WSP implementation include primary and supplemental manuals in multiple languages, training resources, assessment tools, and some country-specific guidelines and case studies.

Systems employing the WSP approach seek to incrementally improve water quality and security by reducing risks and increasing resilience over time. To maintain WSP effectiveness, water supply managers periodically update WSPs to integrate knowledge about prior, existing, and potential future risks. Effectively implemented WSPs may translate to positive health and other impacts. Impact evaluation has centered on a logic model developed by the Centers for Disease Control and Prevention (CDC) as well as WHO-refined indicators that compare water system performance to pre-WSP baseline conditions. Potential benefits of WSPs include improved cost efficiency, water quality, water conservation, regulatory compliance, operational performance, and disease reduction. Available research shows outcomes vary depending on site-specific context, and challenges remain in using WSPs to achieve lasting improvements in water safety. Future directions for WSP development include strengthening and sustaining capacity-building to achieve consistent application and quality, refining evaluation indicators to better reveal linked outcomes (including economic impacts), and incorporating social equity and climate change readiness.

Version 1
5. October 2016.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by WHO SEARO, 01. September, 2015

Water Safety Plans – Helping people in South Asia access safer, cleaner water

by WHO SEARO, 01. September, 2015

Information and advocacy brochure from WHO-SEARO briefly defining Water Safety Plans (WSPs), showing progress in WSP development in South East Asia Region, illustrating what WSPs deliver to suppliers and users and providing ideas on what stakeholders' next steps might be.

Version 1
1. February 2011.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Frank Greaves and Claire Simmons , 01. February, 2011

Water Safety Plans for communities: guidance for adoption of water safety plans at community level

by Frank Greaves and Claire Simmons , 01. February, 2011

Numerous publications now exist on the formation and use of WSPs, but most of these focus on largerscale projects run by private or public utilities, commercial enterprises and international NGOs. Tearfund’s particular interest is in how WSPs can be understood and established by user communities which are faced with self-managing a water supply project to gain sustainable access to safe water quality. The guide is written chiefly for the use of a facilitator or facilitating body (eg the hygiene promoters or community mobilisers of a DMT or partner staff) to use in training community members, and in particular,the water project accountability group (eg Water Users Committee) of the community.

Version 1
29. June 2018.
2 votes, average: 5.00 out of 52 votes, average: 5.00 out of 52 votes, average: 5.00 out of 52 votes, average: 5.00 out of 52 votes, average: 5.00 out of 5
0 comments
by WHO EURO, 29. June, 2018

Water safety plans in the European region: Promotional video

by WHO EURO, 29. June, 2018

[embed]https://www.youtube.com/watch?v=b2FkFK3Kgbo[/embed]

Small-scale systems are an important component of water supply in the WHO European Region, and Water Safety Plans (WSPs) are regarded the most effective approach to ensuring continuous provision of safe drinking-water.

The above is a short promotional video on WSPs in the WHO European Region.

Version 1
20. March 2010.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by WHO, 01. March, 2010

Water safety plans: managing drinking-water quality for public health

by WHO, 01. March, 2010

A brief note on the rationale for the WSP approach, the potential benefits for various stakeholder groups, and the value of incorporating WSPs into policies and regulations.

Version 2
8. June 2010.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by Asian Development Bank et al., 08. June, 2010

WOPs Manila and Danang on Water quality improvement

by Asian Development Bank et al., 08. June, 2010

Da Nang Water Supply Company (DAWACO) and Manila Water Company, Inc. (Manila Water) engaged in a water operator partnership (WOP) to help DAWACO meet World Health Organization (WHO) standards for water quality in their pipe network. Through the partnership, 20,000 residents received improved access to water, and DAWACO increased staff capacity to scale up similar improvements in the remainder of DAWACO’s service area.

Version 2
29. July 2016.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by WHO, 29. July, 2013

WSP implementation and lessons learned: Amarapuri Water Supply

by WHO, 29. July, 2013

This case study describes the benefits, challenges, and lessons learned from WSP implementation in the Amarapuri Water Supply System, Nepal.

Version 1
9. February 2023.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by WHO et al., 23. January, 2023

WSP manual supplementary tool: Module 10 – checklists for conducting WSP reviews

by WHO et al., 23. January, 2023

This tool is intended to support the practical application of the guidance presented in the Water safety plan manual: step-by-step risk management for drinking-water suppliers, second edition (WHO & IWA, 2023). Refer to Module 10 in the manual for detailed guidance.

This tool provides key questions and considerations for conducting successful water safety plan (WSP) reviews, including post-event reviews (e.g. following a significant incident, near miss or emergency). It can also support reviews with a particular focus on strengthening equity and climate considerations as part of continuous WSP improvement.

Version 1
9. February 2023.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by WHO et al., 23. January, 2023

WSP Manual supplementary tool: Module 4 – examples of risk assessment matrices

by WHO et al., 23. January, 2023

This tool is intended to support the practical application of the guidance presented in the Water safety plan manual: step-by-step risk management for drinking-water suppliers, second edition (WHO & IWA, 2023). Refer to Module 4 in the manual for detailed guidance.

This tool provides examples of risk matrices, to illustrate the wide range of options that could be adopted for risk assessment as part of water safety planning.

Version 1
9. February 2023.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by WHO et al., 23. January, 2023

WSP Manual supplementary tool: Module 8 – general checklist for emergency preparedness

by WHO et al., 23. January, 2023

This tool is intended to support the practical application of the guidance presented in the Water safety plan manual: step-by-step risk management for drinking-water suppliers, second edition (WHO & IWA, 2023).  Refer to Module 8 in the manual for detailed guidance.

To support preparedness for emergency responses and unforeseen events in accordance with Module 8, use this checklist to consider what needs to be in place in the local context.

Version 1
23. January 2023.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by WHO et al., 23. January, 2023

WSP Manual: Module 2 supplementary tool – system description checklist

by WHO et al., 23. January, 2023

This tool is intended to support the practical application of the guidance presented in the Water safety plan manual: step-by-step risk management for drinking-water suppliers, second edition (WHO & IWA, 2023). Refer to Module 2 in the manual for detailed guidance.

The checklist below supports water safety plan (WSP) teams with describing the water supply (Module 2). It includes key information to consider and summarize when describing each stage of the water supply, including:

  • general system information (including equity- and climate-related aspects);
  • source (including surface water and groundwater aspects, and the catchment);
  • treatment;
  • distribution and storage;
  • user practices (including buildings);
  • water safety aspects (e.g. national drinking-water quality regulations and standards, historical water quality data, customer notifications and complaints); and
  • known or potential problems in the system.
Version 1
9. February 2023.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by WHO et al., 23. January, 2023

WSP Manual: Module 3 supplementary tool – possible threats to the supply of safe drinking-water

by WHO et al., 23. January, 2023

This tool is intended to support the practical application of the guidance presented in the Water safety plan manual: step-by-step risk management for drinking-water suppliers, second edition (WHO & IWA, 2023). Refer to Module 3 in the manual for detailed guidance.

WSP teams can use this tool to help identify possible threats to water safety, which will inform the identification of hazards and hazardous events (Module 3).

Version 1
21. April 2016.
0 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 50 votes, average: 0.00 out of 5
0 comments
by WHO, 11. April, 2013

WSP quality assurance tool

by WHO, 11. April, 2013

Tool developed to support the development and implementation of WSPs, systematically highlighting the areas where progress is being made and opportunities for improvement.