World Biogas Association Poised to Take a Bite Out of Climate Change. Associations Now, November 23, 2016.
The recently launched World Biogas Association plans to help organizations across the globe promote anaerobic digestion and biogas technologies—and harness them to fight climate change.
Anaerobic digestion and biogas technologies have immense potential to help meet the United Nations sustainable development goals, according to the founders of the World Biogas Association, launched at the United Nations Convention on Climate Change (UNFCCC) COP 22 at Marrakesh, Morocco, earlier this month. WBA will facilitate the adoption of anaerobic digestion and biogas technologies on a global scale.
Anaerobic digestion involves microbes digesting plant material in sealed containers, which produces biogas that can be used for heating, electricity, and other uses. The process also produces a biofertilizer (called digestate) that can be applied to land.
At the UNFCC COP 21 in Paris in 2015, 195 national governments adopted the first-ever universal, legally binding global climate agreement. It calls for reducing greenhouse gas emissions to keep global warming to less than 2 degrees Celsius, but with a target of less than 1.5 degrees.
Read the complete article.
Waste to Wealth: Helping to Close the Sanitation Financing Gap in Rural Communities and Small Towns | Source: Solutions Journal, Feb 2016 |
Waste to Wealth is a Ugandan initiative created in partnership with the Ministry of Water and Environment, its water and wastewater utility (the National Water and Sewerage Corporation), and other government, NGO, and academic partners. The concept is simple—to use modern bioenergy technologies to convert human and other organic wastes into resources that will provide economic benefits and improved environment and human health.
The results of using EcoSan fertilizer on maize in South Nyanza, Kenya. No fertilizer was used on the left, while fertilizer from EcoSan toilet systems was used on the right. Both sections of maize were planted at the same time.
The biogas and slurry left from energy conversion will be used as a resource with economic value to provide a return on the investment in AD technology. The concept is an innovative and transformative technology-based approach to managing human wastes and providing sanitation services in low income countries.
- Human waste contains significant amounts of organic material that can be digested by specific bacteria in oxygen-free environments.
- The byproducts from this digestion process can be used as energy for cooking, lighting, and generating electricity.
- Revenue or savings from the sale or use of these products provides financing to pay back up-front capital costs.
Read the complete article.
A new project promises to provide one million people in Bangladesh with an improved living environment and access to safe faecal sludge management. The project will also give 250,000 people access to improved sanitation facilities and use market-based solutions to generate biogas from sludge.
SNV Bangladesh and Khulna City Corporation (KCC) launched the “Demonstration of pro-poor market- based solutions for faecal sludge management in urban centres of Southern Bangladesh” project on March 31, 2014. The Bill & Melinda Gates Foundation and the UK Department for International Development (DFID) are funding the project.
Currently Khulna has no designated dumping sites or treatment facilities for faecal sludge. The city has an estimated population of 1.6 million, while 1.2 million more people live in the surrounding 36 smaller towns. By developing faecal sludge management services in KCC, and the two small towns of Khustia and Jhenaidah in Khulna division, the four-year project aims to reform human waste management in Bangladesh.
Read more in the project brochure.
Source: SNV, 4 Apr 2014
Issue 57 May 25, 2012 | Focus on the Integration of WASH and the Prevention of Indoor Air Pollution
This issue updates the April 22, 2011, weekly with more recent news and studies. A recent Lancet article stated that an integrated multisector approach can lead to rapid improvement in child survival. A WHO Bulletin study points to the need for multisector integration but discusses the difficulties in integrating cookstoves with other interventions to prevent pneumonia. A report on the adoption of cookstoves in Kenya found that cookstove adoption was greater where household water treatment occurred. Other resources include news from Uganda on the use of latrine wastes for biogas and the use of solar cookers in China for water treatment and cooking.
Please let WASHplus know at any time if you have resources to share for future issues of WASHplus Weekly or if you have suggestions for future topics. An archive of past Weekly issues is available on the WASHplus website.
A Tanzanian entrepreneur, Andembwisye Mwakatundu, has come up with an innovative plan to turn hundreds of tons of cow-dung otherwise thrown away by ranches and individuals throughout the country to produce biogas. The sight of men on bicycles carrying firewood and charcoal is a common one along Dar es Salaam’s Nyerere Road towards Kisarawe in Coast Region and throughout Tanzania: It is the human face of deforestation.
The main source of fuel for preparing food, lighting, and keeping their homes warm are standing trees and shrubs, with more than 39 million, or 80 per cent, of Tanzania’s population relying for household cooking fuel alone on firewood and charcoal. Population growth matched with a dwindling supply of fuelwood and the rising cost of kerosene, has resulted in the country’s forest cover being reduced over the last 40 years from 6.3 hectares per capita in 1961 to around .08 hectares in 2009, leaving behind miles of barren land incapable of absorbing water or supporting plant life of agriculture.
Invest in sanitation and wastewater, make treated wastewater available for reuse in urban areas and reduce the GDP loss due to bad health and disease which bad sanitation brings. These are the lessons that India can learn from neighbouring China, says S. Vishwanath, a writer on sustainable water management and sanitation issues.
The four storied apartments in Dongsheng District of Erdos Municipality in Inner Mongolia, China look like any apartment, all 825 of them. They look the same that is until you use the toilet. Detailed instructions nailed to the door tell you how to use them. The urine diverting toilets flush with sawdust instead of water. Urine is collected in tanks tucked away in the basement of the building and used as a fertiliser in a surrounding agricultural field. The solids are composted and reused also as fertiliser. Grey-water coming from the washing machine and bath is treated at a small treatment plant in the development and reused for landscape use. The people who bought the flats did so knowing fully well the systems of sanitation in place and paid the same market rates as the flats which had conventional sanitation systems. This is China’s brave new world of waste and wastewater management.