A large‐scale solar photovoltaic system (LSS PV) aims to reduce the gap as Malaysia plans to shift electricity generation from conventional sources like fossil fuels to renewable energy sources. The government plans to increase renewable energy to 20% of the generation mix by 2025. The first and second round of Malaysia's LSS programme has 958 MW of PV projects to be realized by 2020. The third round of the LSS program goes for an aggregate capacity of 500 MW. Being an intermittent source of energy, the major complication is with grid integration of the LSS PV system into the national power grid. This research aims to identify an optimum power system management scheme for LSS in Malaysia to stabilize voltage fluctuations by utilizing IEEE bus configuration. The simulation and planning of network type is based on PSS/E and PVSyst. The expected outcome of this research is to develop a solution for LSS grid integration with minimal loss in the system and in accordance with electricity standards as per Malaysian grid code. Additionally, the harmony of incorporating power electronic devices for reactive power compensation is tested. This work can be stated as a reference model for utility provider in other countries having similar network and grid configuration.

中文翻译：

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利用无功补偿技术优化马来西亚LSS光伏并网的电力系统管理方案

大型太阳能光伏系统（LSS PV）的目的是缩小差距，因为马来西亚计划将发电从化石燃料等常规能源转移到可再生能源。政府计划到2025年将可再生能源增加到发电量的20％。马来西亚的LSS计划的第一轮和第二轮将在2020年之前实现958兆瓦的光伏项目。第三轮LSS计划的总装机容量500兆瓦。作为间歇性能源，主要的麻烦是将LSS PV系统并网到国家电网中。这项研究旨在为马来西亚的LSS找出最佳的电力系统管理方案，以利用IEEE总线配置来稳定电压波动。网络类型的仿真和规划基于PSS / E和PVSyst。这项研究的预期结果是开发一种LSS电网集成解决方案，使系统中的损失降至最低，并符合马来西亚电网法规的电力标准。此外，还测试了集成功率电子设备以进行无功功率补偿的协调性。可以说这项工作可以作为具有类似网络和电网配置的其他国家/地区的公用事业提供商的参考模型。