Building Markets for Efficient Biomass Power Provision

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Revision as of 13:56, 19 April 2018 by ***** (***** | *****) (→‎Progress Update)

Overview

Innovator

CAMCO


Camco Logo.png

Project

Biomass Mini-grids for Palm Oil Producing Communities in Benin and Tanzania

Collaborators

Village Industrial Power (VIP) (USA)

Location Applied

Benin and Tanzania

In rural areas of Benin and Tanzania, access to modern energy services is extremely limited. Without electricity, farming communities are slow in their adoption of modern agriculture practices - resulting in sparse irrigation, lagging food production, and few opportunities for value-added processing and refrigerated storage. Though some communities depend on fossil fuel-based technologies to meet their energy needs, perpetually escalating fuel costs - coupled with adverse environmental impacts - necessitate the exploration of more affordable and sustainable options.[1]



Clean Energy Solution

Village Industrial Power (VIP) Plants are mini-grid systems powered through the combustion of biomass waste produced at local agricultural processing facilities. The VIP Plants generate mechanical / electrical / thermal energy for use in a diverse range of agricultural activities - processing fruit, palm, rice, and cocoa; dairy pasteurization; purifying water; and powering irrigation pumps. The VIP Plants will be assembled / sold in partnership with local manufacturers, and owned/operated by local Energy Service Companies (ESCOs).[1]



Impact

The project will result in the establishment of 50 agro-processing centers and village mini-grids capable of producing between 10 and 50kW of electricity for homes, social services, and businesses. It is anticipated that the VIP Plants will service more than 5,000 agrarian families. This clean energy solution will contribute agricultural development and low-carbon economic growth that improves food security, financial stability, environmental sustainability, and women’s empowerment through new entrepreneurship opportunities.[1]


Organization

Camco Clean Energy is a sustainable energy development company with offices across Africa. It is experienced in providing rural electrification through solar, biomass, small hydro, and biofuel technologies, addressing traditional charcoal production and consumption. Camco will co-implement activities with Gazogen, Inc - a firm that specializes in the development of biomass fueled co-generation plants.[1]


Progress Update

By the end of the Powering Agriculture Award in March 2016 CAMCO and VIP had installed five units in three locations. Three palm oil processing businesses in South Eastern Benin had tested the VIP unit in order to displace diesel consumption that is used in running the expeller press and the kernel and fiber separator. The VIP mini-grid in the village of Uchindile, Tanzania, electrified over 15 shops, homes, and a hospital while a rural clinic near Kigoma, Tanzania tested the VIP unit to power a submersible pump, provided hot water for the laundry and powered other equipment with the electricity produced by the unit. Training on the operation and maintenance of the units was provided at all sites.

Through a networking event organized by the Powering Agriculture, VIP met Factor(e) Ventures, an engineering and business incubator, and was helped by them to capture the lessons learned from the Powering Agriculture beta pilots and incorporate those into both the gen3c units, the business model and market entry strategies. In 2017, with funding from Shell Foundation, VIP ran 6 pilots in Kenya in the fruit and vegetable and maize drying sectors and was able to validate the value proposition, increasing farmers' incomes by up to 7 times, and the business model for the farmers based on a lease to own model. Three VIP units are currently installed in Kenya with two under contract for sales. An additional 4 units have been shipped from India for designated customers. VIP has also moved manufacturing to India which has allowed for the reduction of the cost of the unit by half with further cost reductions to be realized at scale. [1]



Further Information


References