Development of Hybrid District Heating Systems

Q3 Energy

Energetika. Proceedings of CIS Higher Education Institutions and Power Engineering Associations Pub Date : 2024-04-08 DOI:10.21122/1029-7448-2024-67-2-173-188

A. Sednin, K. M. Dyussenov

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引用次数: 0

Abstract

The article discusses the current problems of transformation of existing district heating systems for the CIS countries within the framework of the development of trends in the integration of energy sectors, increasing the consumption of renewable energy resources, “decarbonizing” industry and digitalization of the economy. The experience of Western European countries in terms of the transition to “4th and 5th generation” district heating systems is considered. The technical aspects of the creation of hybrid control systems are analyzed, generalized structural technological schemes of hybrid district heating systems and the main measures, the implementation of which is necessary during their transition to the state of a new generation of district heating systems, are introduced. It is noted that the hybridity of the district heating system implies the presence of regenerative properties in terms of the production of energy carriers for use in adjacent systems, in particular hydrogen. In turn, the flexibility of the district heating system is largely realized via the development of accumulative properties, which leads to the invariance of the use of available energy storage technologies. It is argued that, despite the constantly decreasing costs of creating and operating an electric power storage system, thermal energy storage systems remain a priority in heat supply, especially when using renewable energy sources. The issue of using electricity in district heating systems as an excess resource of integrated energy systems within the framework of equalizing the daily and seasonal schedule of energy consumption is also considered. Also, a diagram is presented reflecting the technical solutions in terms of the equipment used to implement the “electricity – heat” technology. The problem of management of heat supply systems of a new generation is discussed. It is indicated that in order to ensure the required maneuverable properties of heat supply systems, it is necessary to develop and apply new methods of planning and managing heat supply systems, excluding a single-purpose approach in the organization of hybrid systems, which manifests a synergistic effect with new possibilities for finding optimal solutions aimed at reducing fuel consumption. The need to create an intersystem information space, which would include the creation of intelligent process control systems based on the analysis of large amounts of data, is demonstrated. It is noted that the main goal of operational management of hybrid thermal networks is to achieve a dynamic balance between the required value of the thermal load of consumers, the production of thermal energy and the volume of accumulation. The use of hybrid systems in heat supply makes it possible to solve the multifunctional task of increasing the reliability of energy supply and the stability of the functioning of the energy system, which is primarily achieved by solving the problem of balancing production and energy consumption capacities from the point of alignment of generation and energy consumption schedules. A separate consideration of the prospects for the use of hybrid district heating systems in the conditions of the Republic of Belarus is highlighted. The need for additional research to adapt known and develop new technical solutions within the framework of the transition of district heating systems to a new quality is shown.

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开发混合式区域供热系统

文章讨论了独联体国家在能源部门一体化、增加可再生能源消费、工业 "去碳化 "和经济数字化趋势发展框架下现有区域供热系统改造的当前问题。西欧国家在向 "第四代和第五代 "区域供热系统过渡方面的经验值得借鉴。对创建混合控制系统的技术方面进行了分析，介绍了混合区域供热系统的通用结构技术方案和主要措施，在向新一代区域供热系统过渡的过程中必须实施这些措施。值得注意的是，区域供热系统的混合性意味着在生产供邻近系统使用的能源载体（尤其是氢）方面存在再生特性。反过来，区域供热系统的灵活性在很大程度上是通过累积特性的发展实现的，这导致了可用储能技术使用的不变性。有观点认为，尽管创建和运行电力存储系统的成本不断降低，但热能存储系统仍然是供热的优先选择，尤其是在使用可再生能源的情况下。此外，还考虑了在均衡日常和季节性能源消耗的框架内，将区域供热系统中的电力作为综合能源系统的过剩资源的问题。此外，还提供了一张图表，反映了用于实施 "电-热 "技术的设备方面的技术解决方案。讨论了新一代供热系统的管理问题。报告指出，为了确保供热系统所需的可操作性，有必要开发和应用规划和管理供热系统的新方法，在混合系统的组织中排除单一用途的方法，这体现了协同效应，为找到旨在减少燃料消耗的最佳解决方案提供了新的可能性。需要创建一个系统间信息空间，其中包括在分析大量数据的基础上创建智能过程控制系统。据指出，混合热网运行管理的主要目标是实现用户热负荷所需数值、热能生产和累积量之间的动态平衡。在供热中使用混合系统可以解决提高能源供应可靠性和能源系统运行稳定性的多功能任务，这主要是通过从发电和能源消耗计划协调的角度解决平衡生产和能源消耗能力的问题来实现的。对在白俄罗斯共和国条件下使用混合区域供热系统的前景进行了单独审议。在地区供热系统向新质量过渡的框架内，需要进行更多的研究，以调整已知的技术解决方案并开发新的技术解决方案。

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来源期刊

Energetika. Proceedings of CIS Higher Education Institutions and Power Engineering Associations Energy-Nuclear Energy and Engineering

CiteScore

1.60

自引率

0.00%

发文量

审稿时长

8 weeks

期刊介绍： The most important objectives of the journal are the generalization of scientific and practical achievements in the field of power engineering, increase scientific and practical skills as researchers and industry representatives. Scientific concept publications include the publication of a modern national and international research and achievements in areas such as general energetic, electricity, thermal energy, construction, environmental issues energy, energy economy, etc. The journal publishes the results of basic research and the advanced achievements of practices aimed at improving the efficiency of the functioning of the energy sector, reduction of losses in electricity and heat networks, improving the reliability of electrical protection systems, the stability of the energetic complex, literature reviews on a wide range of energy issues.