Özet:

This article offers the Archaeological Optimization Algorithm (AOA) to solve the problem with the target function of minimizing toxic/sera gas emissions in power systems containing the Distributed Production System (DUS). In this study, AOA, IEEE 30-bar and 13-bar samples were tested in Nevşehir distribution system. The effectiveness of the recommended AOA is first tested in the IEEE 30-bara test system and the simulation results are compared with the different techniques published in literature in recent years. The 13-bara test system modeled in this study is integrated with the Organic Rank Network (ORC) geothermal plant, DUS. In this context, in the province of Nevsehir, which has a significant medium geothermal resource potential in Turkey and has no geothermal power plant, the installation stages of an ORÇ geothermal power plant have been analyzed. First of all, the geothermal sources found in Nevşehir province have been examined, and the ORÇ plant has been established. Then the geothermal source in this field (heat, etc.) According to its characteristics, the producable heat and electric potential of this field are determined by the Monte Carlo simulation, compared to the visible capacity calculated in this study. The result of this comparison later was predicted that a 2,351 MW ORC plant could be built in the area concerned. It was continually modeled using the digital model DigSilent software of the regional distribution network with the ORÇ plant. In this virtual model, by the operation of the OECD, the load flow analysis according to the Newton Raphson and AOA methods, the reduction of greenhouse gas emissions was interpreted.

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