可再生能源系统特征可靠性评估

Q3 Decision Sciences

Yugoslav Journal of Operations Research Pub Date : 2021-01-01 DOI:10.2298/YJOR200118039T

Subhi Tyagi, Akshay Kumar, Ashutosh Kumar Singh, M. Ram

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引用次数: 3

摘要

本文以一个实际的可再生能源系统为研究对象，利用通用生成函数技术对该系统的可靠性函数进行了评估。基于可再生能源的系统是从德国的风力涡轮机和水力发电厂相结合的项目中考虑的。在这个项目中，风力涡轮机就是整个世界。美国最高的风力涡轮机约584英尺，一个水库的容量为160万加仑。风力涡轮机设置在山顶上，水库可以被河水填满。本文提出了一种基于可再生能源的系统，其中风力涡轮机和水力发电厂结合在一起产生大量电力。采用通用生成函数技术得到了系统的可靠性函数。对尾签名、签名、预期成本率、预期寿命和Barlow-Proschan指数进行了估计。

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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Signature reliability evaluation of renewable energy system

In this paper, a real-life renewable energy-based system is considered and the reliability function of this system is evaluated with the help of Universal Generating Function technique.The renewable energy-based system is considered from the project in Germany where the wind turbine and hydro power plant are combined. In this project the wind turbines are the world?s tallest wind turbines of about 584 feet and one reservoir have the capacity of 1.6 million gallons of water. The wind turbines are set at the top of the hills and the reservoirs are allowed to be filled with river water. This paper presents a renewable energy-based system where the wind turbine and hydro power plant are combined together to produce electricity in bulk. Universal generating function technique is used to obtain the reliability function of the proposed system. Also tail signature, signature, expected cost rate, expected lifetime, and Barlow-Proschan Index are estimated.

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来源期刊

Yugoslav Journal of Operations Research Decision Sciences-Management Science and Operations Research

CiteScore

2.50

自引率

0.00%

发文量

审稿时长

24 weeks