考虑多重不确定性的高海拔施工园区综合能源系统低碳经济鲁棒优化调度

杨旭东; 尹继娇; 刘志坚; 虞忠明; 韩一瑞; 汤奕; 武少聪

引用本文:	杨旭东,尹继娇,刘志坚,等.考虑多重不确定性的高海拔施工园区综合能源系统低碳经济鲁棒优化调度[J].电力系统保护与控制,2026,54(10):115-126.
	YANG Xudong,YIN Jijiao,LIU Zhijian,et al.Robust low-carbon economic scheduling of integrated energy systems for high-altitude construction parks considering multiple uncertainties[J].Power System Protection and Control,2026,54(10):115-126

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考虑多重不确定性的高海拔施工园区综合能源系统低碳经济鲁棒优化调度
杨旭东^1,2，尹继娇³，刘志坚^1,2，虞忠明²，韩一瑞²，汤奕⁴，武少聪⁵
1. 昆明理工大学交通工程学院，云南昆明 650093；2. 昆明理工大学电力工程学院，云南昆明 650093；3. 广西警察学院，广西南宁 530023；4. 东南大学电气工程学院，江苏南京 210096；5. 山东大学电气工程学院，山东济南 250061

摘要:

构建高海拔施工园区综合能源系统能够提高施工用能效率，但园区内部特有的稀氧环境与强风光波动条件，为其低碳高效运行带来了挑战。为此，提出一种考虑风光出力与氧负荷多重不确定性的高海拔施工园区综合能源系统低碳经济鲁棒优化调度方法。首先，构建考虑风光出力和氧负荷不确定性的低碳鲁棒调度模型，以降低系统源荷不确定性影响。其次，引入废料富氧燃烧热电联产机组与掺氢燃气锅炉改造模型，以提升系统经济性并降低供能碳排放。在此基础上，基于多能需求响应和考虑交易供需关系的精细化碳交易机制，优化施工园区的用能与供能行为。最后，构建以运行成本最低为目标函数的优化模型，并进行多场景算例验证。结果表明，所提方法在有效应对风光出力与氧负荷多重不确定性的同时，能够显著降低高海拔施工园区的运行成本与碳排放量。

关键词: 多重不确定性高海拔施工园区富氧燃烧碳交易机制低碳经济

DOI：10.19783/j.cnki.pspc.260061

分类号:

基金项目:国家自然科学基金项目资助 (52307204)；云南省基础研究计划项目资助 (202303AA080002，202301AS070055)

Robust low-carbon economic scheduling of integrated energy systems for high-altitude construction parks considering multiple uncertainties

YANG Xudong^1,2, YIN Jijiao³, LIU Zhijian^1,2, YU Zhongming², HAN Yirui², TANG Yi⁴, WU Shaocong⁵

1. Faculty of Transportation Engineering, Kunming University of Science and Technology, Kunming 650093, China; 2. Faculty of Electric Power Engineering, Kunming University of Science and Technology, Kunming 650093, China; 3. Guangxi Police College, Nanning 530023, China; 4. School of Electrical Engineering, Southeast University, Nanjing 210096, China; 5. School of Electrical Engineering, Shandong University, Jinan 250061, China

Abstract:

Building integrated energy systems for high-altitude construction parks can improve energy utilization efficiency during construction. However, the unique low-oxygen environment and strong fluctuations in wind and solar resources within such parks pose significant challenges to low-carbon and efficient operation of the integrated energy system. To address this, a robust low-carbon economic dispatch method for integrated energy systems in high-altitude construction parks is proposed, considering multiple uncertainties in wind and solar output as well as oxygen load demand. First, a low-carbon robust dispatch model incorporating uncertainties in renewable generation and oxygen load is constructed to mitigate the impact of source and load uncertainties. Second, models of the waste-fueled oxy-combustion CHP unit and hydrogen-enriched gas boiler are established to enhance system economic efficiency while reducing carbon emissions. Subsequently, based on multi-energy demand response and a refined carbon trading mechanism considering the supply-demand relationship, the energy consumption and supply behaviors of the construction park are optimized. Finally, an optimization model with the objective of minimizing the total operating costs is established and validated through multi-scenario case studies. The results demonstrate that the proposed method can effectively reduce both operating costs and carbon emissions in high-altitude construction parks while accounting for multiple uncertainties.

Key words: multiple uncertainties high-altitude construction park oxy-combustion carbon trading mechanism low-carbon economy

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