基于信息缺口状态理论的虚拟发电厂近零碳随机调度优化模型

IF 3.5 3区 社会学 Q2 ENVIRONMENTAL STUDIES
Liwei Ju, Zhenzhen Yin, Qingqing Zhou, Li Liu, Yushu Pan, Z. Tan
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引用次数: 2

摘要

目的本研究旨在形成一个新的基于电-气的虚拟发电厂(GVPP)概念,并提出一个考虑碳排放交易的GVPP低碳经济调度优化模型。设计/方法论/方法鉴于GVPP中风电和光伏发电的不确定性很强,采用信息差距决策理论(IGDT)来衡量决策者在不同预期目标偏差下的不确定性容忍阈值。为了验证该模型的可行性和有效性,选择九节点能源枢纽作为仿真系统。FindingsGVPP可以根据不同时间电力市场和天然气市场的天然气和电价差异,协调和优化燃气轮机和燃气轮机的电力输出。IGDT方法可用于描述GVPP中风能和太阳能不确定性的影响。碳排放权交易可以增加电改气(P2G)的运营空间,降低GVPP的运营成本。研究局限性/含义本研究考虑了P2G的电转换和时空平静特征,将其与VPP集成到GVPP中,并使用IGDT方法来描述风能和太阳能不确定性的影响,然后提出了一个基于IGDT的GVPP近零碳随机调度优化模型,并在最小化运营成本的优化目标下,提出了GVPP的基本近零碳调度优化模型。最后,本文构建了GVPP的随机调度优化模型。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Near-zero carbon stochastic dispatch optimization model for power-to-gas-based virtual power plant considering information gap status theory
Purpose This study aims to form a new concept of power-to-gas-based virtual power plant (GVPP) and propose a low-carbon economic scheduling optimization model for GVPP considering carbon emission trading. Design/methodology/approach In view of the strong uncertainty of wind power and photovoltaic power generation in GVPP, the information gap decision theory (IGDT) is used to measure the uncertainty tolerance threshold under different expected target deviations of the decision-makers. To verify the feasibility and effectiveness of the proposed model, nine-node energy hub was selected as the simulation system. Findings GVPP can coordinate and optimize the output of electricity-to-gas and gas turbines according to the difference in gas and electricity prices in the electricity market and the natural gas market at different times. The IGDT method can be used to describe the impact of wind and solar uncertainty in GVPP. Carbon emission rights trading can increase the operating space of power to gas (P2G) and reduce the operating cost of GVPP. Research limitations/implications This study considers the electrical conversion and spatio-temporal calming characteristics of P2G, integrates it with VPP into GVPP and uses the IGDT method to describe the impact of wind and solar uncertainty and then proposes a GVPP near-zero carbon random scheduling optimization model based on IGDT. Originality/value This study designed a novel structure of the GVPP integrating P2G, gas storage device into the VPP and proposed a basic near-zero carbon scheduling optimization model for GVPP under the optimization goal of minimizing operating costs. At last, this study constructed a stochastic scheduling optimization model for GVPP.
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来源期刊
CiteScore
8.10
自引率
8.30%
发文量
43
审稿时长
15 weeks
期刊介绍: Effective from volume 10 (2018), International Journal of Climate Change Strategies and Management is an open access journal. In the history of science there have been only a few issues which have mobilized the attention of scientists and policy-makers alike as the issue of climate change currently does. International Journal of Climate Change Strategies and Management is an international forum that addresses the need for disseminating scholarly research, projects and other initiatives aimed to facilitate a better understanding of the subject matter of climate change. The journal publishes papers dealing with policy-making on climate change, and methodological approaches to cope with the problems deriving from climate change. It disseminates experiences from projects and case studies where due consideration to environmental, economic, social and political aspects is given and especially the links and leverages that can be attained by this holistic approach. It regards climate change under the perspective of its wider implications: for economic growth, water and food security, and for people''s survival – especially those living in the poorest communities in developing countries.
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