“If you don’t have power, it is difficult to achieve economic growth and better living standards,” observes
It is estimated that more than two-thirds of the population of Sub-Sahara Africa is without electricity, and more than 85% of those living in rural areas lack access to the grid. (Source:
Electrifying the region is a huge challenge with no single solution. However, localized off-grid energy solutions whereby power is generated at or near the point of use—sometimes known as distributed power—are increasingly playing a big role in bridging the sub-Saharan “power gap.”
Just as the development of mobile phone networks in Sub-Saharan Africa reduced the need for fixed telecom infrastructure, off-grid energy is also a technological leapfrog. “Off-grid,” or distributed power, solutions such as standalone combined-heat-and-power (CHP) engines, micro-turbines, advanced battery technologies, and solar and wind energy systems can be more cost-effective and practical for many remote sub-Saharan locations that big centralized power schemes find difficult to reach.
The large-scale vegetable fields found in the
Producing that much vegetable matter results in a large amount of waste material: up to 45,000 tons of waste annually at the Naivasha farm. A great untapped energy resource, the combined technological know-how of
The waste vegetable matter is placed into an anaerobic digester, a low-oxygen environment that causes the biomass to rot and produce natural gas. It is this methane and carbon dioxide that is then burned in a low-emission GE Jenbacher J420 engine to produce electricity.
The process is extremely efficient as the only by-product of the anaerobic digestion itself is nutrient-rich sediment that can be used as fertilizer or converted into charcoal. Equally, the Jenbacher is a highly efficient and reliable CHP engine. The heat generated during the burning of the natural gas is not wasted, as it is then used in heating and cooling systems.
Two J420 GE Jenbacher engines will be installed at the Naivasha farm, allowing for the production of up to 2.8 MW of electricity, enough to power the farm and 5,000–6,000 homes in the surrounding area.
The company will reap significant savings as a result of being energy self-sufficient, and its agricultural production will become more environmentally friendly by utilizing a previously discarded waste product.
“The Vegpro project will become a reference point for distributed power in sub-Saharan Africa, demonstrating the great applicability of this technology in promoting more reliable and cleaner energy production.
“Such technology has a wider importance in safeguarding Africa’s energy security through its potential use in other sectors. For example, we see great potential for the sustainable production of off-grid energy in a wide range of areas, from industrial processing to municipal waste.”
As is often the case with any complex infrastructure project, there are challenges to be surmounted in the off-grid revolution.
GE’s Njenga explains:
“The challenge is not just the technology, you need to support the full project chain. You have to have the technological expertise and knowledge but there are many other things to take into consideration such as the social impact, flora and fauna, and other environmental impacts. For community projects, long-term viability also needs to be ensured with the right training and maintenance programs. Training local people to operate and maintain facilities on an ongoing basis is important.”
Effective metering and payment programs are also critical once the off-grid schemes are operational in local communities. However, the benefits are immense. “Getting power to communities via these off-grid projects can help empower them and create economic growth,” says Njenga. “It helps to power local businesses, hospitals and the mobile phone network. It can make a real difference in people’s lives.”