Impact of Renewable Energy Sources on the Electricity Generation Cost

Q3 Energy

Energetika. Proceedings of CIS Higher Education Institutions and Power Engineering Associations Pub Date : 2023-12-08 DOI:10.21122/1029-7448-2023-66-6-567-581

V. A. Liubchyk

{"title":"Impact of Renewable Energy Sources on the Electricity Generation Cost","authors":"V. A. Liubchyk","doi":"10.21122/1029-7448-2023-66-6-567-581","DOIUrl":null,"url":null,"abstract":"The study involves scenario modeling based on the construction of energy chains that determine the flow of energy from the extraction and import of energy resources through technologies for transforming energy forms, transmission and distribution to the final consumer. A fundamental model of the energy system of the Republic of Belarus was also built. The principle of minimizing total system costs is chosen as the objective function for modeling, provided that a number of restrictions imposed on the power system are met. For the purpose of energy system balancing, it was proposed to use the potential of hydropower, viz. existing hydroelectric power plants for scenario 1 and technically possible potential for scenario 2. As a result of the modeling, the structure of electricity production was obtained according to two scenarios. Based on the resulting structure, the cost of producing electrical energy was determined. Two approaches were considered: approach 1 that took into account the cost of electricity production at nuclear power plants which can be classified as new, and approach 2 that took into account the cost of electricity production at nuclear power plants, which can be attributed to the existing generation. The production cost of electricity by 2030 is predicted. When approach 1 is used its level is of 63.3 US dollars/(MW·h) under scenario 2 versus 65.3 US dollars/(MW·h) under scenario 1; when approach 2 is used, its level is of 37.5 US dollars/(MW·h) versus 39.4 US dollars/(MW·h), respectively. Also, the economically feasible potential for using solar energy was determined, which by 2025 will amount to 0.91–1.45 billion kW·h/year, and by 2030 – 2.15–3.46 billion kWh/year; the same for wind energy is 1.55–2.39 billion kW·h/year and 3.69–5.67 billion kWh/year, respectively; the same for hydropower is 1.11–1.45 billion kW·h/year throughout the entire period under review until 2030. Based on the study, it became possible to find out that in the Republic of Belarus it is economically feasible and technically possible to replace up to 20.0 % of electrical energy generation by 2030 with energy produced from renewable energy sources.","PeriodicalId":52141,"journal":{"name":"Energetika. Proceedings of CIS Higher Education Institutions and Power Engineering Associations","volume":"161 ","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2023-12-08","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Energetika. Proceedings of CIS Higher Education Institutions and Power Engineering Associations","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.21122/1029-7448-2023-66-6-567-581","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q3","JCRName":"Energy","Score":null,"Total":0}

引用次数: 0

Abstract

The study involves scenario modeling based on the construction of energy chains that determine the flow of energy from the extraction and import of energy resources through technologies for transforming energy forms, transmission and distribution to the final consumer. A fundamental model of the energy system of the Republic of Belarus was also built. The principle of minimizing total system costs is chosen as the objective function for modeling, provided that a number of restrictions imposed on the power system are met. For the purpose of energy system balancing, it was proposed to use the potential of hydropower, viz. existing hydroelectric power plants for scenario 1 and technically possible potential for scenario 2. As a result of the modeling, the structure of electricity production was obtained according to two scenarios. Based on the resulting structure, the cost of producing electrical energy was determined. Two approaches were considered: approach 1 that took into account the cost of electricity production at nuclear power plants which can be classified as new, and approach 2 that took into account the cost of electricity production at nuclear power plants, which can be attributed to the existing generation. The production cost of electricity by 2030 is predicted. When approach 1 is used its level is of 63.3 US dollars/(MW·h) under scenario 2 versus 65.3 US dollars/(MW·h) under scenario 1; when approach 2 is used, its level is of 37.5 US dollars/(MW·h) versus 39.4 US dollars/(MW·h), respectively. Also, the economically feasible potential for using solar energy was determined, which by 2025 will amount to 0.91–1.45 billion kW·h/year, and by 2030 – 2.15–3.46 billion kWh/year; the same for wind energy is 1.55–2.39 billion kW·h/year and 3.69–5.67 billion kWh/year, respectively; the same for hydropower is 1.11–1.45 billion kW·h/year throughout the entire period under review until 2030. Based on the study, it became possible to find out that in the Republic of Belarus it is economically feasible and technically possible to replace up to 20.0 % of electrical energy generation by 2030 with energy produced from renewable energy sources.

查看原文本刊更多论文

可再生能源对发电成本的影响

该研究涉及基于能源链构建的情景建模，能源链决定了从能源资源的开采和进口到能源形式转换技术、传输和分配再到最终消费者的能源流。还建立了白俄罗斯共和国能源系统的基本模型。在满足对电力系统施加的一系列限制条件的前提下，选择了系统总成本最小化原则作为建模的目标函数。为了平衡能源系统，建议使用水力发电的潜力，即在方案 1 中使用现有的水力发电厂，在方案 2 中使用技术上可能的潜力。建模的结果是，根据两个方案得出了电力生产结构。根据得出的结构，确定了生产电能的成本。考虑了两种方法：方法 1 考虑了可归类为新建核电站的电力生产成本；方法 2 考虑了可归类为现有发电量的核电站的电力生产成本。预测了 2030 年的电力生产成本。采用方法 1 时，方案 2 的成本水平为 63.3 美元/（兆瓦-小时），而方案 1 为 65.3 美元/（兆瓦-小时）；采用方法 2 时，成本水平分别为 37.5 美元/（兆瓦-小时）和 39.4 美元/（兆瓦-小时）。此外，还确定了使用太阳能的经济可行性潜力，到 2025 年将达到 9.1-14.5 亿千瓦-时/年，到 2030 年将达到 21.5-34.6 亿千瓦-时/年；风能的经济可行性潜力分别为 15.5-23.9 亿千瓦-时/年和 36.9-56.7 亿千瓦-时/年；水电的经济可行性潜力在 2030 年之前的整个审查期间为 11.1-14.5 亿千瓦-时/年。研究结果表明，在白俄罗斯共和国，到 2030 年用可再生能源替代 20.0%的发电量在经济上和技术上都是可行的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

求助全文

约1分钟内获得全文求助全文

来源期刊

Energetika. Proceedings of CIS Higher Education Institutions and Power Engineering Associations Energy-Nuclear Energy and Engineering

CiteScore

1.60

自引率

0.00%

发文量

审稿时长

8 weeks

期刊介绍： The most important objectives of the journal are the generalization of scientific and practical achievements in the field of power engineering, increase scientific and practical skills as researchers and industry representatives. Scientific concept publications include the publication of a modern national and international research and achievements in areas such as general energetic, electricity, thermal energy, construction, environmental issues energy, energy economy, etc. The journal publishes the results of basic research and the advanced achievements of practices aimed at improving the efficiency of the functioning of the energy sector, reduction of losses in electricity and heat networks, improving the reliability of electrical protection systems, the stability of the energetic complex, literature reviews on a wide range of energy issues.