REDUCING CLIMATE CHANGE BY INSTALLING A NEW PHOTOVOLTAIC POWER PLANT IN BULGARIA

Plamen Tsenkov Tsankov
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Abstract

Three new roof-mounted 10 kWp grid-connected photovoltaic (PV) power plants have been constructed in the Technology Park at the Technical University of Gabrovo, Bulgaria, as part of a project "Competence Center – Intelligent Mechatronic, Eco, and Energy Saving Systems and Technologies". Three different PV modules types have been used: monocrystalline silicon (mono-Si), cadmium telluride (CdTe), and copper indium gallium selenide (CIGS). New three power plants, together with the existing amorphous silicon and poly-crystalline silicon photovoltaic power plants at the TU-Gabrovo enhanced simultaneous testing of five different photovoltaic materials. A small 500 Wp mono-Si photovoltaic thermal hybrid solar collectors (PVT) PV system has also been constructed. The power plants feature a monitoring system for the meteorological and electrical operating parameters, which measures, displays, and stores data on solar radiation, temperature, wind speed, currents, voltages, and electrical power of each power plant. PV plants components' technical characteristics are given in the paper. The schemes describing the basic wiring diagram, disposition of the three PV subsystems on the roof of the building at the technology center have also been presented. The initial comparative software data for monitoring of meteorological and electrical operating characteristics of the three different types of PV subsystems are shown as well. According to the specific ecological equivalent of energy resources and energy for the region of Bulgaria, the data are presented on the saved CO2 emissions from the avoided production and transmission of electricity owing to the operation of photovoltaic power plants.
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通过在保加利亚安装新的光伏发电厂来减少气候变化
作为“智能机电、生态和节能系统与技术能力中心”项目的一部分,在保加利亚Gabrovo技术大学的科技园新建了三座10千瓦时的屋顶光伏(PV)并网发电厂。目前已经使用了三种不同类型的光伏组件:单晶硅(mono-Si)、碲化镉(CdTe)和硒化铜铟镓(CIGS)。新的三个发电厂,加上TU-Gabrovo现有的非晶硅和多晶硅光伏发电厂,加强了对五种不同光伏材料的同时测试。小型500 Wp单硅光伏热混合太阳能集热器(PVT)光伏系统也已建成。电厂设有气象和电气运行参数监测系统,测量、显示和存储各电厂的太阳辐射、温度、风速、电流、电压和电力等数据。介绍了光伏电站组件的技术特点。给出了技术中心建筑屋面三个光伏分系统的基本接线图和布置方案。并给出了三种不同类型光伏子系统气象和电气运行特性监测的初步对比软件数据。根据保加利亚地区的能源资源和能源的具体生态当量,介绍了由于光伏发电厂的运行而避免的电力生产和传输所节省的二氧化碳排放的数据。
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