Research on the evaluation index system of “new energy cloud” operation mode based on CRITIC weighting method and AHP method

Author:

Wang Xingang,Zhou Zhuan,Sun Licheng,Xie Guohui,Lou Qihe

Abstract

Abstract Accelerating the development of new energy is an inevitable trend of the energy low-carbon transition. Information technology means and new energy and new energy business management are combined by most energy enterprises, so as to further improve the coordination of source, network and storage load in the development of new energy, solve the problem of new energy consumption, and improve the management efficiency. This study takes the “new energy cloud” platform of State Grid Corporation of China as the research object. Firstly, the basic architecture and operation mode of the cloud platform is analyzed; secondly, according to the characteristics of the operation mode, the evaluation index system of the “new energy cloud” operation mode is constructed from four dimensions of business, capital, learning and growth, and data. At the same time, the actual data of nine provinces that have deployed the “new energy cloud” platform are selected, and the weight of the evaluation index is determined by using the CRITIC—AHP method. This study can provide a model reference for related energy enterprises to build new energy business management platforms, and provide a practical reference for the evaluation of new energy business operation mode.

Publisher

IOP Publishing

Subject

General Engineering

Reference43 articles.

1. Better out than in

2. Uncertainties around reductions in China’s coal use and CO2 emissions;Korsbakken;Nat. Clim. Change,2016

3. Defifining the anthropocene;Lewis;Nature,2015

4. Study on China’s future energy development strategy: to consturct a safe, green and efficient energy system;Li,2014

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