Page 52 - 《中国电力》2026年第3期
P. 52
第 59 卷 第 3 期 Vol. 59, No. 3
2026 年 3 月 ELECTRIC POWER Mar. 2026
引用格式:覃育茗, 祝云. 考虑富氧燃烧技术与需求响应的工业园区综合能源系统优化调度[J]. 中国电力, 2026, 59(3): 48−63.
Citation: QIN Yuming, ZHU Yun. Optimal scheduling of integrated energy system in industrial parks considering oxy-fuel combustion technology
and demand response[J]. Electric Power, 2026, 59(3): 48−63.
考虑富氧燃烧技术与需求响应的工业园区
综合能源系统优化调度
覃育茗 ,祝云 1,2
1,2
(1. 广西大学 电气工程学院,广西壮族自治区 南宁 530004;2. 广西电力系统最优化与节能技术
重点实验室(广西大学),广西壮族自治区 南宁 530004)
Optimal scheduling of integrated energy system in industrial parks considering
oxy-fuel combustion technology and demand response
1,2
QIN Yuming , ZHU Yun 1,2
(1. School of Electrical Engineering, Guangxi University, Nanning 530004, China; 2. Guangxi Key Laboratory of Power System
Optimization and Energy Technology (Guangxi University), Nanning 530004, China)
Abstract: Under the background of carbon peaking and carbon carbon emissions are 29.60% lower than the carbon quota,
neutrality, the integrated energy system (IES) in industrial parks verifying the effectiveness of the proposed model. Sensitivity
has attracted widespread attention due to its high flexibility and analysis is conducted to examine the impact of key variables on
low carbon emissions. To further reduce carbon emissions of the industrial park IES.
the industrial park IES and improve its economic benefits, we This work is supported by Guangxi Special Fund for
develops an optimal scheduling model for the industrial park Innovation-driven Development (No.AA19254034).
IES, considering the cooperation between oxy-fuel combustion Keywords: integrated energy system; oxy-fuel combustion
capture technology and power-to-hydrogen (P2H) technology, power plant; incentive-based demand response; thermal eff-
and the demand response mechanism. Firstly, the model iciency variation; power-to-hydrogen cooperation mechanism
improves system flexibility and reduces carbon emissions of
摘 要:在碳达峰和碳中和背景下,工业园区综合能源
thermal power units by retrofitting them with oxy-fuel
系统(integrated energy system,IES)因其较高的灵活性和
combustion. Secondly, the introduction of cooperation between
较低的碳排放受到了广泛关注。为降低工业园区 IES 的碳
P2H and oxy-fuel combustion power plants not only increases
排放,并提高工业园区 IES 的经济效益,构建了考虑富氧
the absorption capacity of wind and solar energy but also
燃烧捕集技术与电转氢(power-to-hydrogen,P2H)技术合
reduces the oxygen supply pressure of oxy-fuel combustion
作以及需求响应机制的工业园区 IES 系统优化调度模型。
power plants. Then, the hydrogen blending equipment reduces 首先,该模型通过对火电机组进行富氧燃烧改造来提高
energy loss during the energy conversion process, realizing the 系 统 灵 活 性 , 降 低 火 电 机 组 碳 排 放 ; 其 次 , 通 过 引 入
high-value utilization of hydrogen. Finally, the introduction of P2H 与富氧燃烧电厂合作,不仅提高了风光消纳量,也降
demand response further improves the flexibility of the IES and 低了富氧燃烧电厂供氧压力;然后,通过掺氢设备降低
reduces carbon emissions, based on which a minimum-cost 了 能 量 转 化 过 程 中 的 损 耗 , 实 现 了 氢 气 高 位 利 用 ; 最
optimal scheduling model for the industrial park IES is 后,通过引入需求响应,进一步提高 IES 的灵活性,降低
established. Through a case study, it is found that the actual 碳排放,并基于此建立了该工业园区 IES 的最小成本优化
调 度 模 型 。 通 过 案 例 研 究 发 现 实 际 碳 排 放 较 碳 配 额 低
29.60%,验证了该模型的有效性,并分析了部分关键变量
收稿日期:2025−07−09; 修回日期:2026−01−10。
对工业园区 IES 的影响。
基金项目:广西创新驱动发展专项资金资助项目(AA 关键词:综合能源系统;富氧燃烧电厂;激励型需求响
19254034)。 应;热效率变化;P2H 合作机制
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