%0 Journal Article
%T Modelling and Optimization of Hydroelectric Power Plants in Cameroon for the Development of the Green Energy Market in Neighboring Countries Using Homer Software
%A Bachirou Bogno
%A Michel Aillerie
%A Kitmo
%A Dieudonn&#233
%A Kidmo Kaoga
%J Smart Grid and Renewable Energy
%P 248-265
%@ 2151-4844
%D 2024
%I Scientific Research Publishing
%R 10.4236/sgre.2024.1510014
%X Renewable energy is increasingly in demand for a variety of applications in both urban and rural areas. There are, however, a number of implementation constraints in some countries, even though sunshine, wind and water are abundant and available. As part of this research, we are carrying out a technical and economic study on the availability of renewable energy in Cameroon, with a view to combining several sources of solar, biomass, wind and hydroelectric power to meet energy demand both inside and outside the country, in countries such as Chad, Gabon and Nigeria. In this work, the implementation of the entire system in the HOMER software demonstrates the feasibility and possibility of implementing a multi-source power plant based on renewable energies. Calculation of the levelized cost of energy (LCOE) and the net present cost (NPC) shows that a capacity of 485 GW can meet the energy demand of the countries bordering Cameroon. Furthermore, the calculation of the performance ratio gives a PR = 46.52 and a Capacity factor of CF = 11.64. The system is profitable not only economically but also environmentally, as it reduces greenhouse gas emissions and energy losses.
%K Wind Plant
%K PV Plant
%K Hydropower
%K Homer
%K Renewable Energy
%U http://www.scirp.org/journal/PaperInformation.aspx?PaperID=136821