Posts

Water research with policy impact in Kenya

Oxford’s smart handpump research has been recognised by in the Government of Kenya’s Water Services Regulatory Board’s (WASREB) annual Impact Report.

Eng Robert Gakubia, CEO of WASREB, identifies the continuing challenge of attaining national targets for urban and rural water with the need to explore innovative approaches highlighting the “interesting work done in Kitui County” by Oxford University in a a special section.

The Smart Handpump research and implementation has been led by Patrick Thomson and Rob Hope with colleagues in the Smith School of Enterprise and the Environment, the School of Geography and the Environment, and the Department of Engineering Science with funding from ESRC, NERC, DFID and the Skoll Centre, see: http://www.smithschool.ox.ac.uk/research/water-programme/

Read the Impact Report

/0 Comments/by

Rural water sustainability in Africa

UNICEF has signed a partnership agreement with Oxford University to test new models for rural water sustainability in Africa.

The two year programme of work is led by Dr Rob Hope with Professor David Bradley, Patrick Thomson and Johanna Koehler, and government and private sector collaborators in Kenya. The work builds on an earlier DFID funded project with the second phase expected to deliver:

  • A scalar and replicable model for the sustainable delivery of rural water services.
  • A pre-payment system that underpins a business model for long-term, local sustainability.
  • Measuring health and burden impacts related to handpump functionality and failure events.

The primary study location is Kitui County, Kenya, with a programme of collaborative initiatives with UNICEF’s 21 country offices in the East and Southern Africa region. Watch a video and read the report from the first phase of this work.

unicef

 

/0 Comments/by

Groundwater and poverty research in Marrakech

Oxford University research on Unlocking the Potential of Groundwater for the Poor (UPGro) was presented at the International Association of Hydrogeologists in Marrakech, Morocco in September.

Jacob Mutua Representing the NERC catalyst grant led by Dr Rob Hope, Jacob Mutua (pictured on right) presented results from the Kwale study site in Kenya linking groundwater science with institutional and poverty assessments. Jacob is part of an international consortium including Kenyan universities (University of Nairobi, JKUAT), government and private sector (RFL Ltd., Base Titanium Ltd., KISCOL) and the Polytechnic University of Catalonia (UPC). Jacob is now starting the DPhil programme at the School of Geography and the Environment, Oxford, with matched funding from Base Titanium and Oxford University.

To find out more about the research, view the poster ‘Groundwater risks and institutional responses, Kwale County, Kenya

 

/0 Comments/by

Safe enough? Proportionate climate change adaptation in London’s water supply system

London faces increased risk of water shortages in the future due to climate change and population growth if no actions are taken to increase supply or reduce demand, according to a new study led by Edoardo Borgomeo and Jim Hall at the Environmental Change Institute. The research presents a new methodology for water managers to incorporate climate change uncertainties into water resources planning.

Water resources managers have significant experience in planning and operating their systems in the face of hydrological and weather variability. The reality of climate change, however, poses new challenges for water resources managers. Whilst the precise impacts of climate change for temperature, precipitation and water availability remain uncertain, water managers still need to take into account these uncertainties in their water plans. In the UK water companies are now legally obliged to evaluate the impacts of climate-related risks on their systems.

To help water managers address this challenge, this study develops a methodology for incorporating climate change related uncertainties in water resources planning. The methodology uses a risk-based metric to compare different water management options on the basis of their ability to reduce risks of water shortages under continuously changing climate conditions.

This methodology responds to the need in the UK and worldwide for a way of identifying water management investments which are proportionate to the risks the water systems are facing. Supply-side and demand-side management strategies can be compared based on how cost-effective they are at reducing risks to acceptable levels.

The risk-based methodology was applied to the London water supply area to characterise the most important uncertainties and identify water management options that are capable of reducing the harmful impacts of climate change. Results from the study demonstrate that without further supply or demand interventions, the combined effects of climate change and population growth are projected to increase the risk of water shortages in the future in London.

This research, led by Edoardo Borgomeo and Jim Hall, was carried out in partnership with Thames Water and the Environment Agency. The study contributes to the ongoing discussion in the UK water sector on whether the current approach to water resources planning should change for the next round of water resources management plans in 2019.

Reference

Borgomeo, E., Hall, J.W., Fung, F., Watts, G., Colquhoun, K. and Lambert, C. (2014) Risk-based water resources planning: Incorporating probabilistic nonstationary climate uncertainties. Water Resources Research. DOI: 10.1002/2014WR015558

/0 Comments/by

Wireless water: mobile offers a brighter future for rural Africa

Oxford University led research which harnesses mobile technologies to improve rural access to water is featured in BBC News online.

According to mobile industry body GSMA, there are currently more than 250 million mobile phone subscribers in sub-Saharan Africa – and this is forecast to rise to nearly 350 million by 2017.

This mobile revolution is providing a platform for new technologies and enabling developing countries to leapfrog ahead.

Mobile is helping provide improved and more sustainable water supplies for Africa. For example, mobile/water for development, a research initiative based at the University of Oxford, designs and tests mobile technologies to try to improve rural access to water.

Read the full article on BBC News online.

Related links

mobile/water for development website

/0 Comments/by

Mobile water payments article in Water International journal Best Paper Awards

A journal article by Oxford researchers on the impacts and implications of mobile water payments in East Africa has been given an honourable mention in the Water International Best Paper 2012 Awards.

The paper ‘Impacts and implications of mobile water payments in East Africa’ is co-authored by Tim Foster, Rob Hope and Aaron Krolikowski, Smith School for Enterprise and the Environment, and two formers students of the MSc Water Science, Policy and Management, Cliff Nyaga and Ilana Cohen.

The research takes a look at the unprecedented growth in Africa’s mobile communications sector and the new opportunities it offers to address the continent’s persistent water service challenges.

Download the paper for free.

/0 Comments/by

From rights to results in rural water services

New evidence to translate the human right to water into measureable results in rural Africa is presented in a new report funded by UK Department for International Development and led by Oxford University.

rural water suply

 

Institutional transformations are required if Africa is to deliver the universal Human Right to Water to 275 million rural people without improved water services. Improving the reliability of one million handpumps which should deliver drinking water to over 200 million rural Africans will be a major contribution to translating water rights into measureable results. This study tests a new maintenance service model over a one year period in rural Kenya using mobile-enabled data to improve operational and financial performance by reducing risks at scale.

The report, produced by the Smith School Water Programme, highlights results that have led to:

  • a ten-fold reduction in handpump downtime (days not working),
  • a shift to 98 per cent of handpumps functioning,
  • a fairer and more flexible payment model contingent on service delivery,
  • new and objective metrics to guide water service regulatory reform,
  • a revised financial architecture shaped by an output-based payment model.

The model outlines a new and replicable framework for policy and investment behaviour informed by rural water users’ more expansive views of the design and delivery of rural water institutions than currently prescribed.

Report launched at ‘Smart Handpump’ day

The report was launched at an event at Kellogg College on 5 March  hosted by the Oxford Centre for Affordable Healthcare Technology, Smith School of Enterprise and the Environment, School of Geography and the Environment and Department of Engineering Science.

Attendees from DFID, ARM, Sequoia Technology, Oxfam and ESRC were invited to meet the ‘Smart Handpump’ that has been installed in the college grounds. Smart Handpumps use a mobile-enabled transmitter which sends data on pump usage, rapidly detecting any failures and enabling repairs to be made. The technology is currently being piloted in rural Kenya and feeds into ongoing work at Oxford University on improving institutions to measurably reduce poverty.

Researcher Patrick Thomson demonstrating the handpump to Nick Liddington (MD of Sequoia Technology Group) Steve Sydes (Commercial Director of Sequoia Technology Group).

Researcher Patrick Thomson demonstrating the handpump to Nick Liddington and Steve Sydes (Managing Director and Commercial Director of Sequoia Technology Group).

Download the full report

/0 Comments/by

Making clean drinking water universally available is achievable

Making clean drinking water globally accessible is one of the biggest challenges of this century. Yet, a new study by Oxford University contends that this goal is achievable if the key elements of good governance and management are adopted.

The study proposes a framework built on examples of good practice in South Asia and sub-Saharan Africa, areas which the authors argue present the most severe challenges of all the developing countries. They warn, however, that the scale of investment necessary to update the often neglected, ageing infrastructure of pipelines or water pumps goes beyond the narrow project timeframes favoured by politicians. The findings are published in a landmark collection of papers on water security, risk and society by the journal Philosophical Transactions of the Royal Society A.

The study says the problem of providing clean water is most acute in developing countries, particularly in Africa, where creaking infrastructures struggle to keep pace with fast-growing urban populations; in rural areas, millions of water pumps stand unused waiting to be repaired. Despite hitting the Millennium Development Goal for drinking water access in 2012, over 780 million people still do not have safe and reliable drinking water, says the report, resulting in largely preventable health problems that most affect women and children.

Based on nine case studies in Cambodia, India, Kenya, Uganda and Senegal, the authors analysed new data in rural and urban areas to compare what the authors call the under-researched aspects of water security: the institutional side of how water supplies are delivered, their operation and management systems. They examined water payment systems; and the quality of service, such as how quickly leaks or pumps were fixed, and whether populations had water on demand or a regularly disrupted service.

The study suggests that a critical factor in all cases is to have a good system for maintaining existing water supplies. Additionally, new information systems were found to be important for improving the way the quality of service was monitored. In West Africa, for instance, a structured crowd sourcing platform is used by water scheme managers to input weekly data via a mobile phone application; in East Africa, a mobile-enabled monitoring system is leading to faster repair times for water pumps.

Late bills are still a huge problem in developing countries, so consequently there is often a failure to recoup the service costs needed to invest in the infrastructure. The study highlights a successful mobile water payment system adopted in one Kenyan city, which was the preferred way of paying bills for 85% of customers who would otherwise often have to queue in water company offices. More efficient and transparent payment systems were not only found to reduce debts, but also helped root out corrupt practices which diverted water payments into illegitimate channels.

The study warns that barriers to progress include the vested interests of individuals benefiting from the status quo, and misguided public investments which are short-term and without any real measures of performance. However, the authors argue that these findings provide concrete evidence to demonstrate how drinking water risks can be managed and reduced ‘even in the most difficult and challenging contexts’.

Lead author Dr Rob Hope, from the Smith School of Enterprise and the Environment at the University of Oxford, said: “We hope this study provides a framework to design policy and guide investments to systematically reduce drinking water risks in urban and rural contexts. These case studies demonstrate a variety of approaches taken by countries in some of the most challenging circumstances.”

“They set benchmarks by which others can measure their own progress. Our examples include water managers who have introduced both bonus systems to reward good performance and competitions between different areas to drive up standards of service. Some water service providers have found ways of giving subsidies to expand access to water customers on the lowest incomes. There are other examples of initiatives to promote greater efficiency which can mean leaks or water pumps get fixed more quickly or water rationing can be replaced with a continuous service.”

“Despite the often gloomy outlook voiced by some on the prospects for making drinking water more accessible, these case studies in sub-Saharan Africa and South Asia show there are realistic pathways to transform water services, thereby potentially improving the health of the millions of people who depend upon them.”

Meanwhile in the same collection of papers, Professor David Bradley of Oxford University, with Professor Jamie Bartram, uses an analysis of the effective monitoring programme developed to measure the success of the Millennium Development Goals (MDGs) for the provision of domestic water supply and basic sanitation to see how it can be further improved and possibly be applied to a broader goal of water security.

Reference

Robert Hope and Michael Rouse (2013) Risks and responses to universal drinking water security. Philosophical Transactions of the Royal Society A, vol. 371, no. 2002.

 

/0 Comments/by

Dr. Rob Hope leads session at the Skoll World Forum

Dr. Rob Hope, School of Geography and the Environment, is leading a session on Mobile-Enabled Entrepreneurship for Water Security at the Skoll World Forum in Oxford on 12 April.

skollThe session highlights the mobile-enabled technologies that are charting new models for addressing Africa’s rural and urban challenges to water supply security. The mobile-enabled entrepreneurial landscape is evaulated based on the latest research and practice, including findings from the Oxford University research initiative mobile/water for development.

The programme also includes sessions on ‘Water, Water Everywhere: The Paradox of the 21st Century’ moderated by Gary White (Co-Founder and CEO, Water.org) and ‘A Collaborative Approach to Water and Sanitation’ led by Joe Madiath (Founder and executive Director, Gram Vikas).

Each year in Oxford the Skoll Forum gathers over 1,000 delegates from the social, finance, private and public sectors with an aim to accelerate entrepreneurial approaches and innovative solutions to the world’s most pressing social issues. The full programme, live streaming and other resources for the event which is running from 10 to 12 April 2013 can be found at http://skollworldforum.org/

/by

Mobile payment innovations improve water service delivery in Tanzania

New research from Oxford University has found that mobile payments and related innovations are improving urban water service provision in East Africa by increasing revenue collection and reducing corruption.

Water service providers in Tanzania often struggle to provide satisfactory water supplies in its rapidly growing cities due to inadequate revenue collection and inefficient billing and payment systems. Mobile payment innovations are being used to improve public service delivery in East Africa by increasing the ease of payment for customers, expanding revenue collection for water utilities, and removing opportunities for theft, bribery, and collusion.

The project examined the use of mobile money applications and wireless pay point networks for water bill payments in Dar es Salaam, Tanzania. Data included 1,000,000 water payments made using different payment methods, 1097 surveys of water users in the city, and over 40 interviews with water sector officials and representatives with the telecommunications industry.

Researchers on the project include Aaron Krolikowski (School of Geography and the Environment), Professor Xiaolan Fu (Department of International Development), and Dr. Robert Hope (School of Geography and the Environment). Funding was provided by the Skoll Centre for Social Entrepreneurship.

The report, entitled “Wireless Water: Improving Urban Water Provision Through Mobile Finance Innovations” is accompanied by a policy brief and three analytical sub-reports on customer payment behaviours, governance, and user characteristics, which can be downloaded below.

Read the Oxford University press release

Report: Wireless Water: Improving Urban Water Provision Through Mobile Finance Innovations
Policy Brief: Improving Public Service Delivery with Mobile Payment Solutions
Analytical Perspectives: Mobile Payment Innovations and User Characteristics
Analytical Perspectives: Analytical Perspectives – Governance
Analytical Perspectives: Mobile Payment Innovations and Customer Payment Behaviours

/0 Comments/by