民防防护结构的通风布置特点

Viacheslav Dzhedzhula
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引用次数: 0

摘要

鉴于武装侵略的紧迫性,确保平民的安全至关重要。为此,需要使用各种类型的建筑,包括简易掩体、防辐射掩体、储存设施和两用建筑。这些设施的建设必须配备多样化的内部工程系统,以确保人民的生活。随着《乌克兰国家建筑规范》(DBN)B 2.2.-5:2023 [1]的更新,对这些结构的工程支持要求大幅提高。本文旨在分析这些设施中工程系统(尤其是通风系统)的布置特点,并针对通风和空调系统安装的具体情况提出建议。 文章研究了目前最常见的民防结构--防辐射掩体和具有核生化(NBC)特性的两用结构--中通风系统安装的规范要求。利用微分方程的解法,根据通风模式(正常、备用和应急)计算出有人居住的房间内的二氧化碳浓度。结果表明,在所有情况下,浓度都不会超过临界值。对这些建筑物的通风系统设计提出了建议,并讨论了柴油发电站备用电源通风和冷却房间的具体情况。 结果表明,当柴油发电站的发电量很大时,用于冷却的通风安排在结构上会变得复杂。针对这一问题提出了解决方案。建议大型 NBC 结构和两用结构有两个通风室,并有独立的进气口。这将有助于降低流入空气受污染的风险,并防止在民防建筑附近发生火灾时二氧化碳浓度升高。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
VENTILATION ARRANGEMENT FEATURES IN CIVIL DEFENSE PROTECTIVE STRUCTURES
Given the urgency of armed aggression, ensuring the safety of the civilian population is of utmost importance. Various types of structures are used for this purpose, including simple shelters, anti-radiation shelters, storage facilities, and dual-purpose structures. The construction of these facilities must be equipped with diverse internal engineering systems to ensure the livelihood of people. With the introduction of the updated State Building Code of Ukraine (DBN) B 2.2.-5:2023 [1], the requirements for the engineering support of these structures have significantly increased. This article aims to analyze the features of arranging engineering systems in these facilities, particularly ventilation systems, and provide recommendations for specific cases of ventilation and conditioning system installation. The article examines regulatory requirements for the installation of ventilation systems in the most common civil defense structures at present - anti-radiation shelters and dual-purpose structures with NBC (nuclear, biological, chemical) properties. Using the solution to a differential equation, the concentrations of carbon dioxide in rooms with people present are calculated depending on the ventilation mode: normal, reserve, and emergency. It is determined that in all cases, the concentration will not exceed the critical value. Recommendations are given for the design of ventilation systems for these buildings, and the specifics of ventilating and cooling rooms in diesel power stations for backup power supply are discussed. It is revealed that, at significant capacities of diesel power stations, the arrangement of ventilation for cooling becomes structurally complex. Solutions to this problem are proposed. It is recommended for large NBC structures and dual-purpose structures to have two ventilation chambers with separate air intakes. This will help reduce the risks of contaminating the inflow air and prevent an increase in carbon dioxide concentration during fires near civil defense structures.
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