IMPACTS OF INTEGRATING SOLAR AND WIND PLANTS INTO THE POWER NETWORK OF BHUTAN

Q4 Engineering

Journal of Technology, Management, and Applied Engineering Pub Date : 2022-06-10 DOI:10.54417/jaetm.v2i1.58

Amir Subba, Dr. Tshewang Lhendup, R. Chhetri

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Abstract

Hydropower has been the primary source of electricity in Bhutan, and to achieve power security and sustainability, alternative renewable energy sources (RES) such as solar and wind are being explored. However, the literature reviews present that bus voltage is the most affected parameter during integration. Therefore, this paper presents the impact on the bus voltage due integration of RES into the power network of Bhutan. The measured weather and power grid parameters were used as inputs to the solar and wind farm models developed in MATLAB/Simulink. The output from Simulink was then used as input to the solar and wind model in DIgSILENT Power Factory. The existing Bhutan power grid from 33kV and above has been developed in DIgSILENT to study power flow and results were validated against relevant standards. The voltage profile at the individual bus was maintained at 0.95 to 1.05 p.u. The varying hourly load for 24 hours at the different substations was considered. A quasi-dynamic simulation was performed to study the impact on voltage stability of buses at different penetration levels with every 5% increment. It was observed that at a 25% penetration level, the voltage falls below the accepted limit of 0.95 p.u. The Levelised Cost of Energy for the wind was calculated to be Nu. 13.37/ kWh and Nu. 6.02/ kWh and Nu. 6.51/ kWh from Shingkhar and Yongtru solar, respectively.

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将太阳能和风力发电厂纳入不丹电网的影响

水电一直是不丹的主要电力来源，为了实现电力安全和可持续性，正在探索太阳能和风能等替代可再生能源(RES)。然而，文献综述表明，母线电压是集成过程中受影响最大的参数。因此，本文介绍了由于RES并入不丹电网对母线电压的影响。测量的天气和电网参数被用作在MATLAB/Simulink中开发的太阳能和风力发电场模型的输入。然后，Simulink的输出被用作DIgSILENT发电厂的太阳能和风能模型的输入。不丹现有的33kV及以上电网已在DIgSILENT中开发，用于研究潮流，并根据相关标准验证了结果。单个母线的电压分布保持在0.95至1.05 p.u.。考虑到不同变电站24小时内每小时负荷的变化。采用准动态仿真的方法，研究了每增加5%插针对不同插针水平母线电压稳定性的影响。观察到，在25%的渗透水平下，电压降至可接受的0.95 p.u限值以下。计算出的风的平准化能源成本分别为13.37纽/ kWh和6.02纽/ kWh和6.51纽/ kWh。

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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来源期刊

Journal of Technology, Management, and Applied Engineering Engineering-Engineering (all)

CiteScore

0.60

自引率

0.00%

发文量