Penetration of Photovoltaic – Synchronous Diesel Generator Systems without Storage for Isolated Area

2019 International Conference on Computer Science, Information Technology, and Electrical Engineering (ICOMITEE) Pub Date : 2019-10-01 DOI:10.1109/ICOMITEE.2019.8921203

M. Muhtadi, Soedibyo, M. Ashari

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引用次数: 3

Abstract

Synchronous Diesel Engine Generator (DEG) is commonly used to supply electric power in isolated and communal areas where grid electricity network is not available. DEG has been chosen because of its easiness to engineer and construct. However, DEG is costly due to high fuels consumption. The way to reduce cost of DEG is hybrid system with Photovoltaic-Inverter (PV). The purpose of this study is to present the simulation of DEG - PV off-grid hybrid power system without battery and dummy load. The study was conducted by running simulations between DEG and PV with different generating capacity to find out the most efficient system. All the simulations were performed using Matlab/ Simulink. The result of the three simulations are known that the power, voltage and frequency can be controlled properly in changing situation. In this study shows that Case 2 is the most feasible because diesel always work above 30% of its capacity and fuel of DEG more efficient after injected power PV on the system. Case 3 shows that even though the fuel usage is the lowest but at certain time the electricity generated by DEG in very low (<30%) making DEG system inefficient.

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无储能光伏-同步柴油发电系统在偏远地区的应用

同步柴油机发电机(DEG)通常用于在没有电网的孤立和公共地区供电。选择DEG是因为它易于设计和施工。然而，由于燃料消耗高，DEG的成本很高。采用光伏-逆变器(PV)混合系统是降低DEG成本的途径。本研究的目的在于模拟无电池、无虚拟负载的DEG - PV离网混合电力系统。通过对不同发电容量的DEG和PV进行模拟，找出最高效的系统。所有仿真均采用Matlab/ Simulink进行。三次仿真结果表明，功率、电压和频率可以在变化的情况下进行合理的控制。在本研究中，案例2是最可行的，因为在系统上注入电力光伏后，柴油总是在其容量的30%以上工作，并且DEG燃料的效率更高。案例3表明，尽管燃料使用量最低，但在一定时间内，由DEG产生的电量非常低(<30%)，使得DEG系统效率低下。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2019 International Conference on Computer Science, Information Technology, and Electrical Engineering (ICOMITEE)

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