采暖、通风、空调转低温供热的程序分析

S. Chicherin
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引用次数: 1

摘要

介绍。现有住房的改造需要建造新的建筑物,其中消耗热能的主要公用事业将是供暖和热水供应系统。在这种情况下,通过转移到低温和使用相关程序来减少热消耗的任务是相关的。材料与方法。研究是在整个俄罗斯设计的住宅和行政建筑的基础上进行的,这些设施是根据投入运营的年份和目的来选择的。有关建筑物的数据来源成为包含在设计范围内的文件和详细文件:计划,图纸和解释性说明。由于满足供热需求是造成日常热能消耗不均匀性的主要原因,供热系统的设备已引起人们的重视。计算采用Microsoft Office Excel 2010商用软件。在选择屋顶锅炉房作为供热源的过程中,相对于连接使用固体燃料的热电厂的变体,等效燃料的消耗可能增加187,314吨燃料油当量。热电联产的普遍拒绝使大型区域供热系统的运行复杂化。建筑供暖系统中冷却剂的设计参数因项目而异:从95/70°С,直到21世纪初到处使用,到90/65°С,对应于现有的设计实践或80/60°С,如塞瓦斯托波尔的设施。将设计温度降低5%不足以降低建筑物的总热消耗。通过选用先进的管道保温材料来降低热耗。在调节器ECL Comfort 310的基础上使用热点自动化图有助于改善加热系统的液压控制,然而,隐蔽的自动化导致违反热网控制的高质量模式,并降低了相邻(通常是非自动化)用户的冷却剂参数。在单个热机上通过局部恒温/可变流量控制来补充中央高质量控制,并在带有机械恒温头的加热散热器上安装温度控制器,有可能减少无效使用的热能体积。供热系统可控性水平的提高,以及价格低廉、反应灵敏的自动化系统,是今后提高供热质量的基本条件。
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Analysis of procedures for heating, ventilation and air conditioning for transfer to low-temperature heat supply
Introduction. Renovation of housing stock supposes construction of new buildings, where the main utilities consuming heat energy will be heating and hot water supply (HWS) systems. Under such conditions the task of heat consumption reduction by transfer to low-temperature and use of the associated procedures is relevant. Materials and Methods. Research was performed on the basis of residential and administration buildings designed within the whole Russia, the facilities were selected based on the year of putting into operation and their purpose. The source of data concerning buildings became documents included into the scope of the design and detailed documentation: plans, drawings and explanatory notes. As meeting the demands of hot water supply makes the main contribution to daily nonuniformities of heat energy consumption, the attention was paid to equipment of hot water supply systems. For calculations, the commercial product of Microsoft Office Excel 2010 was used. Results. During selection of roof boiler house as a source of heat supply increase in consumption of equivalent fuel in relation to the variant of connection to heat power plant operating on solid fuel by 187,314 tons of fuel oil equivalent is possible. General refusal from power-and-heat generation complicates operation of large district heat supply systems. The design parameters of coolant in building heating system differ from project to project: from 95/70 °С, used everywhere till the beginning of the XXI century, up to 90/65 °С corresponding to existing practice of designing or 80/60 °С as at the facility in Sevastopol. Reduction of design temperatures by 5 % is insufficient to decrease general heat consumption of the building. Reduction of heat consumption is explained by selection of advanced materials for pipeline heat insulation. Use of automation diagrams for heat points on the basis of regulator ECL Comfort 310 contributes to improvement of hydraulic control for heating systems, however, concealed automation results in violation of high-quality mode for heat network control and decrease of coolant parameters on adjacent (often non-automated) consumers. Conclusions. Supplement of central high-quality control by local constant temperature/variable flow control at individual heat unit and installation of temperature controllers on heating radiators with mechanical thermostatic head have potential for reduction of the heat energy volume used ineffectively. Increase in level of controllability for heating system together with cheaper and responsive automation systems are basic conditions for increase in quality of heat supply in future.
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