ENGIE Energy Access has officially launched its inaugural mini-grid project in Dohouè, a village in southern Benin, marking a significant advancement in sustainable energy development for the region. The Dohouè MySol Grid, equipped with 135 kWp of solar panels and 130 kWh of Lithium-ion battery storage, now provides more than 1,500 residents and local businesses with renewable energy.
In collaboration with the Beninese Agency for Rural Electrification and Energy Management (ABERME), ENGIE has secured a 20-year license to operate the grid, demonstrating its dedication to fostering long-term economic growth and sustainability in the area. This project not only facilitates access to clean energy but also supports economic development by enabling income-generating activities and promoting financial inclusion.
Gillian-Alexandre Huart, CEO of ENGIE Energy Access, emphasized the company''s strategy in Benin, highlighting its flexible and cost-effective solutions designed to address the diverse energy needs of both residential and commercial users outside the national grid. “Our goal is to make clean energy technologies accessible to low-income households, enhancing community empowerment and inclusivity,” Huart stated.
Further expanding its impact, ENGIE Energy Access, under the guidance of Country Director Christelle Agossou, plans to construct and operate 20 additional mini-grids throughout Benin. Supported by funding from the Millennium Challenge Account – Benin II through the Off-grid Clean Energy Facility (OCEF), these projects will provide a total of 1.2 MW of power, brightening the lives of over 30,000 people in 20 rural communities.
ENGIE Energy Access is making strides in Benin, already impacting over 1.5 million people with its sustainable electricity solutions. The company employs over 200 people locally, with 1,000 independent sales agents and more than 100 service locations, ensuring a robust presence and exceptional service throughout the country.
The residential energy storage market in Benin is fueled by the increasing adoption of renewable energy sources and the need for reliable backup power solutions. As more households install solar panels and other renewable energy systems, the demand for residential energy storage solutions grows. Technological advancements in battery storage and decreasing costs are also key factors driving market expansion.
In the Benin Residential Energy Storage Market, challenges include high initial costs and limited consumer awareness. The high cost of advanced energy storage systems can be prohibitive for many households, limiting market growth. Furthermore, there is a lack of awareness and understanding among consumers regarding the benefits and operation of residential energy storage solutions. This limits adoption and growth potential in the market.
Benins policies on residential energy storage are designed to boost the adoption of renewable energy sources and improve energy security. The government offers incentives for the installation of energy storage systems, such as tax breaks and subsidies. Additionally, policies aim to reduce energy costs for households by supporting innovative storage technologies and integrating them with solar and wind power systems.
To get an accurate picture of energy efficiency in a country, it is important to first look at how and where energy is being used. Total final consumption (TFC) is the energy consumed by end users such as individuals and businesses to heat and cool buildings, to run lights, devices, and appliances, and to power vehicles, machines and factories.
One way of looking at the overall energy efficiency of a country is to measure the total energy supply per unit of economic output (here adjusted for purchasing power parity). This reflects not only energy efficiency but also the structure of the economy, with services-oriented economies generally having a lower energy intensity than those based on heavy industry.
In most countries, heating and cooling make up the largest share of energy use in homes. While air conditioners, appliances and lights generally run on electricity, combustible fuels such as natural gas, oil, coal and biomass are still widely used for heating and cooking. Electrifying these end uses, for example by replacing fossil fuel boilers with efficient electric heat pumps, will be important for reducing CO2 emissions.
Residential energy intensity is largly driven by space heating, and to a lesser extent appliances. To allow cross-country comparisons, it is measured by floor area and temperature-corrected.
In most countries, transport energy use is dominated by oil used to fuel passenger cars, trucks and airplanes. Electrification of the transport sector, for example through the widespread rollout of EVs, is an important strategy for reducing CO2 emissions.
Passenger transport intensity is measured by the average amount of energy used to move one passenger over a distance of one kilometre. Intensity levels vary across countries depending on how people get around in that country – such as the modes of tranport used (e.g. driving, flying, rail), the types of vehicles used, and the average number of passengers per vehicle.
Industrial energy sources can vary considerably between countries depending on the structure of their economies. Many industrial processes, including steelmaking, cement and chemicals, still require fossil fuels for high-temperature heat or as feedstocks.
A country''s manufacturing energy intensity largely depends on the makeup of a country''s manufacturing sector: certain industries, such as basic metals and pulp and paper, are particularly energy intensive relative to their economic contribution.
The services sector tends to be much less energy intensive than industry, with the largest share of energy in most countries being used to heat and cool buildings. The shift from an economic structure based on heavy industry to one based on services has historically been a driver of falling energy intensity of advanced economies.
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