光-风电协同的低碳综合能源生产单元优化模型
Optimization model of low-carbon integrated energy production unit based on light-wind power collaboration
杨莹 1曾小雨 1耿光辉 1钟懿文 1李爱辉1
作者信息
- 1. 黑龙江科技大学 电气与控制工程学院,哈尔滨 150022
- 折叠
摘要
为提升可再生能源发电并网消纳水平,协助传统燃煤电厂低碳化改造,推动电力系统低碳能源转型,以周孝信院士提出的综合能源生产单元架构为基础,建立光-风电协同的低碳综合能源生产单元优化模型,利用光热电站和风力发电为碳捕集系统稳定供能,减少碳捕集过程中消耗的燃煤资源.结果表明,与传统模型相比,光-风电协同的低碳综合能源生产单元优化模型将系统运行成本降低了9.6%,碳排放量降低了11.7%,产品收益提高了80.4%,具有良好的经济性与低碳性.
Abstract
This paper aims to improve the level of grid-connected consumption of renewable energy power generation,assist in the low-carbon transformation in traditional coal-fired power plants,and pro-mote the low-carbon energy transition of the power system.Based on the integrated energy production unit architecture proposed by Academician Zhou Xiaoxin,the study involves establishing a low-carbon inte-grated energy production unit optimization model with light-wind power synergy;utilizing the solar thermal power plant and wind power generation to provide stable energy supply for the carbon capture system;and reducing the consumption of coal-fired resources in the process of carbon capture.The results show that,compared with the traditional model,the optimized model of low-carbon integrated energy production unit with light-wind power synergy reduces the system operation cost by 9.6%,and the carbon emission by 11.7%,and improves the product revenue by 80.4%,which is of good economy and low-carbon per-formance.
关键词
综合能源生产单元/光热电站/碳捕集技术/电制氢/甲烷化Key words
integrated energy production unit/solar thermal power plant/carbon capture technolo-gy/electric hydrogen production/methanation引用本文复制引用
基金项目
黑龙江省省属高校基本科研业务费项目(2019-KYYWF-0731)
出版年
2024
国家科技期刊平台
NSTL
万方数据