The solar mini-grid at Kitonyoni near Machakos in Makueni County was financed by the UK government and commissioned in 2012 by the Sustainable Energy Research Group at University of Southampton. The Kitonyoni Solar mini-grid is managed by Makueni County Solar Energy Co-op Society Ltd which is owned and managed by the community. In July 2016, I travelled to Kitonyoni to visit the solar min-grid and meet with the community. While at Kitonyoni, I met with Joseph, Monicah, William and Shadrack from the management Makueni County Solar Energy Co-op Society Ltd and also with Stephen, the manager of the mini-grid and energy service business.
With the community leaders and the manager of the mini-grid, I visited several businesses and households that were consuming electricity from the cooperative to understand the business model. The solar electric cooperative seems to be professionally managed and financially sustainable. They operate on a for-profit business basis and the financial accounts reveal that the operation is financially sustainable. The electricity cooperative uses a pre-paid card system for electricity sales and payments which seems to be working well. The electricity consumers are more conscious of energy use and payments and the cooperative is also happy with the upfront collections. The number of shops in the Kitonyoni market has significantly increased since the solar mini-grid was commissioned and the value of the land in the area has also almost tripled. However, the tariff charged by the solar electric cooperative is considerably higher than the public electricity utility but the community has been willing to pay a higher tariff due to better availability and reliability.
My partners on the STEPs project, the team at University of Southampton led by Prof Bakr Bahaj had carried out a survey to examine the possibility of integrating thermal energy services into the existing electrical energy service business model. The results showed that 90% of the households in Kitonyoni use firewood for cooking which is available without cost to the community (Bahaj and Kanani, 2016). While the households spends over 5 hours to gather firewood, there is limited interest in switching to cleaner cooking options such as LPG which involve additional financial expenditure. The opportunity to integrate a solar thermal energy service along with the electricity service seems rather limited due to limited scope and demand for commercial fuels. The firewood is available freely in the area and LPG distribution networks are not available in the village. Therefore currently, there does not seem to be a business case for introduction of an LPG franchise model and integrate the model into the solar electricity business. However some thoughts that I shared with the community were:
Since households and restaurants are cooking in separate rooms than their houses and as there is a preference for community schemes, will a community electric cooking scheme succeed? This may be relevant as on most days the battery bank of the solar mini-grid seems to be fully charged in the early afternoon and this could provide an opportunity for a central cluster of electric induction cookers which people can use to cook on a pay per use basis(similar to battery charging) to the cooperative.
It is possible that people may opt for efficient Cookstoves/Jikos if available on a hire-purchase/PAYG basis and reduce the amount of firewood to be collected resulting in time savings. An efficient Jiko will cost 45 $ which could be offered on a loan basis with daily/weekly/monthly payments to people by the cooperative for 6 months to 1 year tenure. These funds could be revolved over the time period to reach other members.
A differential tariff with a lower tier-tariff for the shops and establishments that use electricity during the day will likely improve the revenue model of the cooperative and can increase the utilisation levels. Such a tariff regime could allow the use of induction electric cookers at households during the day. Such a development could result in increasing sales and revenue and improving the business viability.
Therefore the technology options for thermal energy and cooking in Kitonyoni is electric cooking or efficient Cookstoves with the possible business models of pay-per-use or hire-purchase respectively. A differential tariff with lower off-peak tariff could also allow electric cooking during the day time and improve the business model. These options are not entirely obvious and needs to be investigated and defined. This approach will certainly face stiff competition from free biomass availability and availability of free time for fire-wood collection.
Bahaj AS and Kanani, C, 2016, Thermal Energy Survey and Analysis, Material 10: Energy for Development Villages – Sustainable Thermal Energy Service Partnerships