Interested in learning about Solar Pumping in French? Let us know in the comments if you'd like to see the toolkit translated!
Access to a safe, sustainable water supply is a growing concern in every region of the world. In many communities, groundwater is being pumped by diesel fueled systems, which are both expensive and can be difficult to maintain. In communities where electricity is scarce, solar can be a part of the solution.
The highest demand for solar pumps is among rural off-grid areas, currently underserved, or served by costly fuel-driven pumps. Solar pumping is most competitive in regions with high solar insolation, which include most of Africa, South America, South Asia, and Southeast Asia; but the technology can operate successfully in almost any region of the world.
Last year, I attended the African Great Lakes Conference in Entebbe, Uganda, joining over 300 specialists who presented on a wide range of water issues. The highlight of the conference, for me, was visiting the Integrated Community Environmental Conservation project in Arul village, Kigungu, in Entebbe.
The project aims to reduce bio-diversity loss, pollution of international waters of Lake Victoria, land degradation, and address some effects of climate change. The fact that the project was managed by a women’s empowerment network made the prospects of the visit more interesting. Mainstreaming gender in environmental and conservation work is an issue that needs to be addressed.
How can we think in new ways about expanding farmer-led irrigation in support of global food security and poverty reduction? This was the question at the heart of the 2017 Water for Food International Forum. The theme, “Water for Food Security: From Local Lessons to Global Impacts,” was based on the premise that global breakthroughs are so often driven by local action.
Organized by the World Bank and the Daugherty Water for Food Institute (DWFI) at the University of Nebraska, and supported by several partners, the event showcased voices from farmer representatives, the private sector, national and regional policymakers, and major international financing institutions – galvanizing a coalition of support to legitimize farmer-led irrigation as a major development agenda, particularly for Africa.
Imagine that you must flee home at once. You may be fleeing violence, social tensions, poor environmental conditions, or even persecution. You and your loved ones may walk for several days to find safety, and may even go for periods without food.
What would you need to survive?
The answer is clean water. Finding drinkable water is one of the first steps in your journey to a new home. If you instead consume contaminated water, you risk exposure to several diseases. Drinking water unfit for consumption may not only harm your health in the short run -- drinking unclean water may cause life-long health problems. And of course, these problems multiply if entire communities, or even cities, face these health problems.
At the end of this leg of the journey, you may end up in a densely populated refugee camp. Many refugee camps quickly become quasi cities that suffer from poor planning, poor water supplies, and poor sanitation. Keeping these makeshift cities clean and safe is a herculean task. For many refugees and internally displaced persons (IDPs) in these water scarce cities, it is difficult to access water supply and sanitation facilities.
The situation is even more dire for refugees or IDPs in the water-scarce Mashreq subregion*. The demographic shock of mass migration compounds already complex challenges in the region -- from climate shocks to crumbling infrastructure. According to the World Bank report Turbulent Waters: Pursuing Water Security in Fragile Contexts, water security is more difficult to achieve in fragile contexts because of a range of factors, including weak institutions and information systems, strained human and financial resources, and degraded infrastructure.