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主办单位:煤炭科学研究总院有限公司、中国煤炭学会学术期刊工作委员会
“双碳”目标下赋煤区新能源开发—未来煤矿转型升级新路径
  • Title

    New energy exploitation in coal-endowed areas under the target of “double carbon”: a new path for transformation and upgrading of coal mines in the future

  • 作者

    王双明刘浪赵玉娇张波王晶钰朱梦博王美张小艳

  • Author

    WANG Shuangming, LIU Lang1 ZHAO Yujiao, ZHANG Bo, WANG Jingyu, ZHU Mengbo, WANG Mei, ZHANG Xiaoyan

  • 单位

    西安科技大学 煤炭绿色开采地质研究院陕西省煤炭绿色开发地质保障重点实验室西安科技大学 能源学院

  • Organization
    Geological Research Institute for Coal Green Mining, Xi’an University of Science and Technology
    Shaanxi Provincial Key Laboratory of Geological Support for Coal Green Exploitation
    College of Energy, Xi’an University of Science and Technology
  • 摘要

    “双碳”目标下我国能源结构正加速转型升级,以太阳能、风能、地热能等为代表的新能源正逐步替代传统煤、油、气等化石能源。推动煤炭和新能源优化组合是实现“双碳”目标提出的新要求,也是未来煤矿绿色低碳转型的重要路径。分析我国赋煤区能源分布特点,发现以煤为主的化石能源分布区域,往往也是太阳能、风能、热能等新能源富集区,适宜于在赋煤区大规模开发新能源。研究结果如下:① 提出了赋煤区全生周期能源开发理念,将赋煤区能源发展历程划分为煤炭、煤炭与新能源优化组合、新能源三个阶段,并搭建了赋煤区新能源开发总体架;② 在太阳能开发方面,基于赋煤区与太阳能资源富集区的重叠关系对赋煤区太阳能理论储量与开发潜力进行评估,提出了分布式/集中式光伏发电、太阳能热利用和太阳能制氢等光化利用耦合的太阳能分级综合利用方案,实现太阳能多元高效转化与利用以及与煤炭资源的协同开采;③ 在地热能开发方面,基于赋煤区与地热能资源富集区的重叠关系对赋煤区地热能开发潜力进行评估,结合矿井地热形成机理、分布规律和矿井采掘情况,构建深部矿产资源与地热资源协同开发系统,形成包含矿井热水型、岩温型、混合型的矿井地热能分级开采与热用户梯级利用的综合应用方案,实现矿井地热化“害”为“利”的战略转移;④ 在风能开发方面,基于赋煤区与风能资源富集区的重叠关系对赋煤区风能开发潜力进行评估,提出赋煤区风力发电、风力提水、风力致热技术的应用途径,构建了井上井下设施电力供应、水循环动力、供暖自足,及并网发电的风能利用框架;⑤ 考虑到目前煤炭地下开采普遍以垮落法管理顶板,垮落空间无法有效用于地下储能,提出“储能库超前规划→功能性储能库构筑→储释能运行管控”的矿井采空区储能技术路径;⑥ 针对赋煤区多能互补综合能源系统(MCIES)复杂多变特征,建立了赋煤区能源生产、供给单元的异质能量流耦合模型,统一了MCIES内部不同能源集线器的数学表达式,提出了赋煤区MCIES能源管理与优化逻辑方法以及运营模式。本论文旨在探讨煤炭和新能源的组合路径,论证赋煤区规模化开发新能源可行性,赋予赋煤区全生命周期能源供给的功能,形成集“矿-风-光-热-储”一体化的煤炭企业能源产业发展新模式。


  • Abstract

    Under the “dual carbon” goal, China's energy structure is accelerating transformation and upgrading, and new energy represented by solar energy, wind energy, geothermal energy is gradually replacing traditional coal, oil, gas and other fossil energy. Promoting the optimal combination of coal and new energy is a new requirement for achieving the “double carbon” goal, and also an important path for the green and low-carbon transformation of coal mines in the future. Based on the analysis of the energy distribution characteristics of coalendowed areas in China, it is found that the fossil energy distribution areas dominated by coal are often also areas rich in solar energy, wind energy, thermal energy and other new energy, which are suitable for large-scale development of new energy in in coal-endowed areas. The research results are as follows: ① Put forward the concept of full life cycle energy development in coal-endowed areas, divide the energy development process in coal-endowed areas into three stages: coal, coal and new energy optimization combination, and new energy, and build a general framework for new energy development in coal-endowed areas; ② In terms of solar energy development, the theoretical reserves and development potential of solar energy in the mining area are evaluated based on the overlapping relationship between the coal occurrence and the solar energy resource rich area, and a hierarchical comprehensive utilization scheme of solar energy coupled with photochemical utilization, such as distributed/centralized photovoltaic power generation, solar thermal utilization and solar hydrogen production, is proposed to achieve diversified and efficient conversion and utilization of solar energy and collaborative mining with coal resources; ③ In terms of geothermal energy development, the potential of geothermal energy development in coal-endowed areas is evaluated based on the overlapping relationship between the coal bearing area and the geothermal energy resource rich area. In combination with the formation mechanism, distribution law and mining situation of the mine geothermal, a collaborative development system of deep mineral resources and geothermal resources is established to form a comprehensive application scheme for the graded mining of mine geothermal energy and the cascade utilization of thermal users, including the hot water type, rock temperature type and mixed type of the mine, realizing the strategic transfer of “harm” to “benefit” of mine geothermal; ④ In terms of wind energy development, the potential of wind energy development in the mining area is evaluated based on the overlapping relationship between the coal occurrence and the wind energy resource rich area, and the application approaches of wind power generation, wind water lifting, and wind heating technologies in the coal bearing area are proposed, and the wind energy utilization framework for power supply, water cycle power, heating self-sufficiency, and grid connected power generation of underground and underground facilities is constructed; ⑤ Considering that the roof is generally managed by the caving method in the current underground coal mining, and the caving space cannot be effectively used for underground energy storage, a technical path of energy storage in the goaf of the mine is proposed, which is “advanced planning of energy storage reservoir → construction of energy storage reservoir using functional backfilling→ Energy storage and release operation control”;⑥ In view of the complex and changeable characteristics of multi energy complementary integrated energy system (MCIES) in coal-endowed areas, a heterogeneous energy flow coupling model of energy production and supply units in coal-endowed areas is established, the mathematical expressions of different energy hubs in MCIES are unified, and the energy management and optimization logic method and operation mode of MCIES in coal-endowed areas are proposed. This paper aims to explore the combination path of coal and new energy, demonstrate the feasibility of large-scale development of new energy in coal-endowed areas, endow coal bearing areas with the function of energy supply in the whole life cycle, and form a new mode of energy industry development of coal enterprises integrating “mine-windlight-heat-storage”.


  • 关键词

    “双碳”目标全生命周期新能源开发采空区储能多能源互补

  • KeyWords

    “double carbon” target; full-life-cycle; new energy development; energy storage in goaf; multi-energy complementation

  • 基金项目(Foundation)
    国家自然科学基金资助项目(52222404, 52074212); 陕西省自然科学基金陕煤联合基金重点资助项目(2019JL-01)
  • DOI
  • 引用格式
    王双明,刘 浪,赵玉娇,等. “双碳”目标下赋煤区新能源开发−未来煤矿转型升级新路径[J]. 煤炭科学技术,2023,51(1):59−79
  • Citation
    WANG Shuangming,LIU Lang,ZHAO Yujiao,et al. New energy exploitation in coal-endowed areas under the target of “double carbon”: a new path for transformation and upgrading of coal mines in the future[J]. Coal Science and Technology,2023,51(1):59−79
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