Reliability constrained planning and sensitivity analysis for Solar-Wind-Battery based Isolated Power System

Q1 Social Sciences
P. Paliwal
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引用次数: 17

Abstract

Isolated power systems have emerged as a practical substitute to grid extension for electrification of remote areas. The environmental hazards associated with conventional sources of energy like diesel and coal has forced system planners to resort to renewable energy sources(RES) based technologies such as solar and wind. Increased penetration of RES can effectively cut down system operating costs but can create reliability issues owing to their unpredictable nature. The risk of lower reliability standards can significantly hamper utilization of these sources on large scale. Thus an effective backup system is needed in order to ensure reliability standards. The backup is provided either by diesel generators or energy storage systems. The intermittent nature and cost intensive structure of RES based DGs makes it essential to perform sensitivity analyses for optimal system planning. In this paper, reliability and cost based sizing of solar-wind-battery storage system has been carried out for an Isolated hybrid power system(IHPS). Sensitivity analyses are performed by studying the effect of addition/removal of RES based DGs and storage units on system reliability. Considering variable nature of solar and wind sources, modelling of solar irradiance, wind speed and generator availability has been done using appropriate probability density functions. Dual reliability indices have been used for determining system reliability. For solving optimal sizing problem, a stochastic optimization technique Particle Swarm Optimization(PSO) has been employed. A new index termed as Incremental cost of reliability has been utilized in order to assess the additional investment required to improve reliability standards. Optimal sizing study in conjunction with sensitivity analyses facilitates a deeper insight into system planning.
基于太阳能-风能电池的隔离型电力系统可靠性约束规划及灵敏度分析
孤立电力系统已成为偏远地区电气化电网扩展的一种实用替代品。与柴油和煤炭等传统能源相关的环境危害迫使系统规划者求助于太阳能和风能等基于可再生能源的技术。RES渗透率的提高可以有效降低系统运营成本,但由于其不可预测性,可能会产生可靠性问题。可靠性标准降低的风险可能会严重阻碍这些来源的大规模利用。因此,需要一个有效的备份系统来确保可靠性标准。备份由柴油发电机或储能系统提供。基于可再生能源的DG的间歇性和成本密集型结构使得进行灵敏度分析以进行最佳系统规划至关重要。本文针对一个独立混合动力系统(IHPS)进行了基于可靠性和成本的太阳能-风电电池存储系统选型。通过研究添加/移除基于RES的DG和存储单元对系统可靠性的影响来进行灵敏度分析。考虑到太阳能和风能的可变性质,使用适当的概率密度函数对太阳能辐照度、风速和发电机可用性进行了建模。双重可靠性指标已被用于确定系统可靠性。为了解决最优尺寸问题,采用了随机优化技术粒子群优化(PSO)。为了评估提高可靠性标准所需的额外投资,采用了一种称为“可靠性增量成本”的新指数。优化规模研究与敏感性分析相结合,有助于深入了解系统规划。
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来源期刊
International Journal of Sustainable Energy Planning and Management
International Journal of Sustainable Energy Planning and Management Social Sciences-Geography, Planning and Development
CiteScore
7.60
自引率
0.00%
发文量
18
审稿时长
30 weeks
期刊介绍: The journal is an international interdisciplinary journal in Sustainable Energy Planning and Management combining engineering and social science within Energy System Analysis, Feasibility Studies and Public Regulation. The journal especially welcomes papers within the following three focus areas: Energy System analysis including theories, methodologies, data handling and software tools as well as specific models and analyses at local, regional, country and/or global level. Economics, Socio economics and Feasibility studies including theories and methodologies of institutional economics as well as specific feasibility studies and analyses. Public Regulation and management including theories and methodologies as well as specific analyses and proposals in the light of the implementation and transition into sustainable energy systems.
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