Optimization of the Hybrid System for Micro Hydro, Photovoltaic and Biomass Power Generation in Senamat Ulu Village Using Homer Simulation

Elsi Alfionita Syawal, R. Nazir
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Abstract

Currently, the supply of electrical energy is still not fulfilled in some areas due to the depletion of conventional energy sources and fossil energy. The ideal alternative energy is renewable energy that does not have the potential to run out such as solar energy, biomass and water. Senamat Ulu is a village in Bungo Regency that has the potential for biomass power generation because it has a lot of palm oil plantations covering an area of 3,917 hectares with an average production of 6,901 tons per year. Based on the coordinates of the center of the village, simulation Homer scored solar radiation of 4.43 kWh / m2/ day for Ulu Senamat area. The purpose of this research is to obtain the amount of biomass energy potential and the optimal model for the hybrid system of power generation in Senamat Ulu Village. From the results of the study, it was found that the potential for electrical power from the biomass power plant in Senamat Ulu was 6,113.65 kW consisting of 2,189.08 kW shells and 3,924.57 kW palm fiber. The most optimal generator model is simulation I in terms of the smallest NPC and COE economies, namely NPC $ 275,091 and COE $ 0.0768/kWh where Biomass is 49,946 kWh/year at a cost of $ 0.0271/kWh, PV 26,681 kWh/year with electricity price of $ 0.107/kWh, Micro hydro 156.025 kWh/year with electricity price of $ 0.00992/kWh, Storage Li-ion 8,643 kWh/year and converter 288,331 kWh/year and the time required to payback is 5.8 years. Keywords: Optimization, NPC, COE
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基于荷马模拟的Senamat Ulu村微水电、光伏和生物质混合发电系统优化
目前,由于常规能源和化石能源的枯竭,一些地区的电能供应仍然得不到满足。理想的替代能源是不会耗尽的可再生能源,如太阳能、生物质能和水。Senamat Ulu是Bungo Regency的一个村庄,具有生物质能发电的潜力,因为它有很多棕榈油种植园,占地面积为3,917公顷,平均年产量为6,901吨。基于村庄中心的坐标,模拟Homer获得了Ulu Senamat地区4.43 kWh / m2/ day的太阳辐射。本研究的目的是获得Senamat Ulu村混合发电系统的生物质能源潜力量和最优模型。从研究结果中,发现Senamat Ulu生物质发电厂的电力潜力为6,113.65 kW,由2,189.08 kW的贝壳和3,924.57 kW的棕榈纤维组成。在NPC和COE最小经济条件下,最优的发电机模型为仿真I, NPC为275,091美元,COE为0.0768美元/kWh,其中生物质为49,946 kWh/年,成本为0.0271美元/kWh,光伏为26,681 kWh/年,电价为0.107美元/kWh,微水电为156.025 kWh/年,电价为0.00992美元/kWh,储能锂离子为8,643 kWh/年,变流器为288,331 kWh/年,所需回收期为5.8年。关键词:优化,NPC, COE
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