Substation technology selection for environment efficient power distribution system in India: an integrated AHP-TOPSIS-based approach

IF 2.5 Q3 MANAGEMENT International Journal of Energy Sector Management Pub Date : 2023-06-02 DOI:10.1108/ijesm-09-2022-0002

A. Trivedi, A. Tyagi, Ouissal Chichi, Sanjeev Kumar, Vibha Trivedi

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Abstract

Purpose This study aims to provide a scientific framework for the selection of suitable substation technology in an electrical power distribution network. Design/methodology/approach The present paper focuses on adopting an integrated multi-criteria decision-making approach using the Delphi method, analytic hierarchy process (AHP) and technique for order preference by similarity to ideal solution (TOPSIS). The AHP is used to ascertain the criteria weights, and the TOPSIS is used for choosing the most fitting technology among choices of air-insulated substation, gas-insulated substation (GIS) and hybrid substation, to guarantee educated and supported choice. Findings The results reveal that the GIS is the most preferred technology by area experts, considering all the criteria and their relative preferences. Practical implications The current research has implications for public and private organizations responsible for the management of electricity in India, particularly the distribution system as the choice of substations is an essential component that has a strong impact on the smooth functioning and performance of the energy distribution in the country. The implementation of the chosen technology not only reduces economic losses but also contributes to the reduction of power outages, minimization of energy losses and improvement of the reliability, security, stability and quality of supply of the electrical networks. Social implications The study explores the impact of substation technology installation in terms of its economic and environmental challenges. It emphasizes the need for proper installation checks to avoid long-term environmental hazards. Further, it reports that the economic benefits should not come at the cost of ecological degradation. Originality/value The present study is the first to provide a decision support framework for the selection of substation technologies using the hybrid AHP-TOPSIS approach. It also provides a cost–benefit analysis with short-term and long-term horizons. It further pinpoints the environmental issues with the installation of substation technology.

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印度环保型配电系统变电站技术选择：基于AHP和TOPSIS的综合方法

目的本研究旨在为配电网中变电站技术的选择提供一个科学的框架。设计/方法/方法本论文着重于采用德尔菲法、层次分析法(AHP)和理想解相似性排序偏好技术(TOPSIS)的综合多准则决策方法。采用层次分析法确定各指标权重，采用TOPSIS法在空气绝缘变电站、气体绝缘变电站和混合式变电站的选择中选择最合适的技术，以保证有知识和支持的选择。结果表明，考虑到所有标准和他们的相对偏好，地理信息系统是区域专家最喜欢的技术。目前的研究对负责印度电力管理的公共和私人组织具有启示意义，特别是配电系统，因为变电站的选择是对该国能源分配的顺利运作和性能有重大影响的重要组成部分。所选技术的实施不仅减少了经济损失，而且有助于减少停电，最大限度地减少能源损失，提高电网供电的可靠性、安全性、稳定性和质量。社会影响本研究探讨了变电站技术安装在经济和环境挑战方面的影响。它强调需要进行适当的安装检查，以避免长期的环境危害。此外，报告还指出，经济效益不应以生态退化为代价。原创性/价值本研究首次使用混合AHP-TOPSIS方法为变电站技术的选择提供决策支持框架。它还提供了短期和长期的成本效益分析。进一步指出了变电站安装技术的环境问题。

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来源期刊

International Journal of Energy Sector Management MANAGEMENT-

CiteScore

6.80

自引率

22.60%

发文量

期刊介绍： The International Journal of Energy Sector Management aims to facilitate dissemination of research on issues relating to supply management (covering the entire supply chain of resource finding, extraction, production, treatment, conversion, transportation, distribution and retail supply), demand and usage management, waste management, customer and other stakeholder management, and solutions thereto. The journal covers all forms of energy (non-renewable and renewable), forms of supply (centralised or decentralised), ownership patterns (public or private, cooperative, joint, or any other), market structures (formal, informal, integrated, disintegrated, national, international, local, etc.) and degress of commoditisation (e.g. internationally traded, regionally traded, non-traded, etc.). The journal aims to cover a wide range of subjects relevant to the management of the energy sector, including but not limited to: Management of scarce resources (economic, financial, human and natural), projects, activities and concerns (e.g. regulatory, social and environmental aspects), technologies and knowledge Business strategy, policy and planning as well as decision support systems for energy sector management Business organisation, structure and environment, and changes thereto Globalisation and multi-cultural management Management of innovation, change and transition.