Every day, Kenya produces over 24,000 tons of waste, amounting to 8.8 million tons annually. Most of this waste is currently mismanaged, with more than 75% of waste in Kenya being incinerated or disposed at dumpsites. Moreover, Kenya is home to two of the world's 50 largest landfills – Dandora in Nairobi and Kibarani in Mombasa – highlighting its significant waste management challenges. Mismanaged waste in Kenya poses several environmental and health risks, which local actors are yet to comprehensively address. The proximity of landfills to residential areas in Kenya negatively impacts the quality of life of nearby communities and poses severe health risks by contaminating local land and water resources. In addition, waste incineration releases toxic pollutants into the air, water and soil and produces hazardous ash that can contaminate the environment and pose health risks to nearby communities. This study identified 16 small and growing businesses (SGBs) providing integrated waste management services. Employing a mixed-methods approach to conduct a deep dive into the integrated waste management sub-sector in Kenya.
Priya is a gender equality advocate, investor and entrepreneur. She is the co-founder and CEO of Villgro Philippines, an early stage impact incubator that funds, mentors and nurtures social entrepreneurs. She also co-founded Unlock Impact, a social impact venture focused on scaling inclusive solutions that address gender and climate action across South and Southeast Asia.…
Fondly known as The Chief Entrepreneur in East Africa, Mr. Mwinamo has for 20 years been constantly involved in policy development and championing for a better SME growth environment. He is the co-founder and CEO of SNDBX International, an innovative one-stop shop for professional services and the only one of its kind globally, offering 32…
India grapples with a substantial plastic waste challenge. In 2021, according to government data, the country generated nearly 26,000 tonnes of plastic waste daily, amounting to approximately 4.1 million tonnes over the year. However, other estimates state that the actual figures are more than double, with an estimate from a recent Nature paper, stating that India generated 9.3 million tonnes of plastic waste in 2023. A significant portion of that waste, approximately 75%, consists of three primary polymers: polypropylene (PP), polyethylene (PE) and polyvinyl chloride (PVC), with the remainder coming from other polymers such as polystyrene (PS), high-density polyethylene (HDPE), low-density polyethylene (LDPE), and polyethylene terephthalate (PET). The key opportunities for plastic circularity in India are emerging around enabling higher-quality recycled outputs, packaging solutions and circularity in traditionally hard-to-recycle segments, such as flexible and multilayer plastics. These cascade into specific opportunity areas across the value chain, which are summarized in this report
This guide focuses on the management and handling of municipal solid waste (MSW) from its initial collection to how it is processed and dealt with at landfills and dumpsites. It also covers some solid wastes with lower-value recycling potential or volumes, e.g., biomedical waste, paper waste, and base metals from non-electronic waste sources, such as aluminium and copper. Managing the close to 60 million tonnes of MSW that India generates annually is a daunting challenge. 90% of that waste is apparently collected but lower levels of processing – around 50% – show a significant amount is either not processed or remains unaccounted for, highlighting inefficiencies in waste management systems. Projections indicate a staggering increase in MSW generation, nearly tripling to 165 million tonnes by 2031. There are significant opportunities to improve waste processing and resource recovery in India’s MSW sector through decentralization, automation, and logistical improvements.
India is a significant player in the global e-waste landscape, contributing approximately 4.1 million tonnes of electronic waste (e-waste) in 2022, which accounts for approximately 7% of the world's total e-waste output. In 2021, one-third of India's e-waste was managed through formal and informal channels, with 80 to 90% of e-waste management operations handled by the informal sector. By 2030, India's e-waste output is expected to escalate significantly, reaching approximately 9 million tonnes (based on our estimates), which would represent about 11% of the global e-waste forecast for that year (82 million tonnes). India’s e-waste and LiB recycling sector offers multiple avenues to create value through innovative business models. The key opportunities range across advanced metal and rare earth extraction, integrated recycling, interim recycling for high-demand metals, second-life electronics and batteries. These cascade into specific opportunity areas across the value chain, which are summarized in this report.
India presents significant opportunities for new businesses to create value by leveraging agricultural, food and biomass waste. Agricultural biomass, which primarily consists of post-harvest crop residue and waste from livestock, is the largest source of waste in India – the country generates approximately 350 million tonnes annually. Agricultural and biomass waste generation is also expected to increase as food production increases, especially for staple and cash crops like rice, wheat, maize and cotton. Biomass is used in diverse applications from fodder for cattle and household cooking to the production of biogas, manure and renewable fuels such as bioethanol and biodiesel.
Biomass caters to a substantial portion of India’s rural energy demand, fulfilling approximately 80% of it. Low-cost biomass solutions play a particularly significant role in rural settings, where small-scale energy needs predominate. Conversely, more sophisticated biomass technologies are used in applications such as energy generation or fuel production, especially for large-scale operations. These opportunities relate to improved collection, waste-to-energy solutions, and diverse biomaterials.
Check out the agenda of this event that will bring together government representatives, private sector executives, investors, and practitioners focused on nurturing localized and sustainable entrepreneurial ecosystems.
To explore the feasibility of corporate partnerships for entrepreneurial ventures, this report investigates
the experiences of entrepreneurs who have successfully secured corporate procurement contracts in
various country contexts. Their journeys, best practices, and actionable strategies can serve as a roadmap
for entrepreneurs aspiring to navigate the complexities of corporate procurement. These case studies
not only highlight the innovative solutions these entrepreneurs have developed but also underscore the
importance of building strong relationships with corporations and understanding their procurement needs.
With support from GIZ, ANDE is pleased to launch the South Africa Townships Ecosystem Map, a new tool designed to improve connectivity within the township entrepreneurial landscapes across the country.
This essential resource includes a filterable web directory of the diverse ecosystem players in South Africa, including investors, entrepreneur support organizations, academic institutions, donors, and more.
The map is available in English and Portuguese.