Considering carbon emissions in economic dispatch planning for isolated power systems

2017 IEEE/IAS 53rd Industrial and Commercial Power Systems Technical Conference (I&CPS) Pub Date : 2017-05-01 DOI:10.1109/ICPS.2017.7945099

Ming-Tse Kuo, Shiue‐Der Lu, Ming-Chang Tsou

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引用次数: 2

Abstract

By integrating simulated annealing and the interactive best-compromise approach, a method to determine economic dispatch in power systems, while accounting for carbon emissions, is proposed in this study. To satisfy load demands and operational constraints, traditional economic dispatches are determined by minimizing total power generation costs based on the power output of the generating units in a system. In the proposed method, carbon emissions are taken into consideration. A carbon dioxide (CO2) equivalent model that accounted for the various fuel types (e.g., coal, oil, and natural gas) used in power generation was created. The correlation between power generation costs and carbon emission was determined according to CO2 emission equivalent tradeoff and incremental cost CO2 reduction curves. The proposed method was applied to the Taiwan Power Company system. The results indicated that the method was effective at determining the influence of CO2 emissions on power generation costs during off-peak, semi-peak, and peak hours, as well as daily load demands. The system allows economic and environmental benefits to be considered simultaneously.

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考虑碳排放的孤立电力系统经济调度规划

结合模拟退火和交互最佳折衷方法，提出了一种考虑碳排放的电力系统经济调度方法。为了满足负荷需求和运行约束，传统的经济调度是根据发电机组的输出功率来确定发电总成本的最小化。在提出的方法中，考虑了碳排放。建立了一个二氧化碳当量模型，该模型考虑了发电中使用的各种燃料类型(如煤、石油和天然气)。根据CO2排放当量权衡曲线和增量成本CO2减排曲线确定发电成本与碳排放的相关性。该方法已应用于台湾电力公司系统。结果表明，该方法可有效确定非峰、半峰、高峰时段CO2排放对发电成本以及日负荷需求的影响。该系统可以同时考虑经济效益和环境效益。

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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来源期刊

2017 IEEE/IAS 53rd Industrial and Commercial Power Systems Technical Conference (I&CPS)

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