对公共建筑局部降温通风功能的分析研究

Vadym Korbut, T. Tkachenko, V. Mileikovskyi, V. Vakhula, V. Konovaliuk
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引用次数: 0

摘要

如今,创造最佳的微气候条件已成为绝大多数公共建筑场所的必修课。一年中制冷期的主要问题是最大限度地降低能耗。传统的再循环系统需要将排出的空气送回通风装置,这显然需要额外的能源消耗。此外,这还会扩大空气处理装置、通风管道和其他设备。带局部冷却功能的通风系统则不存在这个问题。这种通风系统由一个提供最小室外空气流量的通风系统和一个从上层或中层区域抽取空气、冷却并送入室内的局部封闭器组成。这项工作考虑了同时运行通风和局部冷却系统的房间内过程的分析描述原则。在此基础上创建了计算算法和软件。分析描述的基础是,首先将送风和关闭后的空气进行混合,然后混合物参与吸收室内多余的热量和水分。分析了各种因素对导轨的生产率和冷性能的影响。结果表明,为了以最小的成本获得最大的能源效率,有必要进行计算,而不是使用综合指标。结果表明,闭门器的性能可以超过外部空气的消耗量。封闭器会将排出的空气送回工作区,从而导致工作区的二氧化碳含量增加,病原微生物和病毒也有可能返回工作区。图中展示了如何通过生物技术措施--补救性植物设计--来解决这两个问题。文中给出了推荐的植物种类。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Analytical studies of the functioning of ventilation with local cooling in public buildings
Today, the creation of optimal microclimatic conditions is mandatory for the vast majority of premises in public buildings. The main problem in the cooling period of the year is the minimization of energy consumption. Traditional systems with recirculation require the return of exhaust air to the ventilation unit, which is obviously accompanied by additional energy costs for its movement. In addition, this enlarges air handling units, airducts and other equipment. This problem is not present in ventilation systems with local cooling. They consist of a ventilation system that provides a minimum flow of outdoor air and local closers that take air from the upper or middle zone, cool it and supply it to the room. The work considers the principles of analytical description of processes in a room with the simultaneous operation of ventilation and local cooling. A calculation algorithm and a software based on it have been created. The basis of the analytical description is the simplification that the supply air and the air after the closers are first mixed, and then the mixture participates in the assimilation of excess heat and moisture in the room. The influence of various factors on the productivity and cold performance of the guides is analyzed. It is shown that for maximum energy efficiency with minimum costs, it is necessary to perform the calculation, and not to use aggregated indicators. It is shown that the performance of the closers can exceed the consumption of outside air. The closers return the exhausted air to the working area, which leads to an increase in the carbon dioxide content in it and the possibility of the return of pathogenic microorganisms and viruses to it. It is shown how both problems are solved by a biotechnological measure - remedial phytodesign. The recommended assortment of plants is given.
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