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[1]朱诗慧,张哲,赵珍仪,等.顶部通气方式对专用通气排水系统的影响[J].中国给水排水,2020,36(17):62-68.
　ZHU Shi-hui,ZHANG Zhe,ZHAO Zhen-yi,et al.Influence of Top Ventilation Mode on Special Ventilation and Drainage System[J].China Water & Wastewater,2020,36(17):62-68.

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顶部通气方式对专用通气排水系统的影响

中国给水排水[ISSN:1000-4062/CN:12-1073/TU] 卷: 第36卷期数: 2020年第17期页码: 62-68 栏目: 出版日期: 2020-09-01

Title:: Influence of Top Ventilation Mode on Special Ventilation and Drainage System

作者:: 朱诗慧¹，张哲²，赵珍仪²，张勤¹; (1.重庆大学环境与生态学院，重庆400030；2.国家住宅与居住环境工程技术研究中心，北京100044)

Author(s):: ZHU Shi-hui¹，ZHANG Zhe²，ZHAO Zhen-yi²，ZHANG Qin¹; (1. College of Environment and Ecology， Chongqing University， Chongqing 400030， China； 2. China National Engineering Research Center for Human Settlements, Beijing 100044， China)

关键词:: 专用通气排水系统; 顶部通气方式; 排水能力; 伸顶通气; 侧墙通气; 通气流量

Keywords:: special ventilation and drainage system; top ventilation mode; drainage capacity; extended top ventilation; side wall ventilation; ventilation flow

摘要:: 在122.9 m高的足尺实验塔上，采用定流量法，对H管件每层连接的专用通气排水系统在排水立管顶部通气方式不同时（伸顶通气或侧墙通气）进行比对实验，探究顶部通气方式对排水系统内压力、通气流量的影响，从而研究其对专用通气排水系统排水能力的影响。结果表明：相比伸顶通气，采用侧墙通气会导致系统最小压力Psmin减小，进入专用通气立管顶部的通气流量Q2减小，排水能力下降。

Abstract:: On a full scale experimental tower with height of 122.9 m, special ventilation and drainage system with H pipe connected each floor with different ventilation modes (extended top ventilation or side wall ventilation) at the top of the drainage pipe was compared. The influence of the top ventilation modes on pressure and ventilation flow in the drainage system was explored, so as to study its effect on the drainage capacity of the special ventilation and drainage system. Compared with extended top ventilation, side wall ventilation led to a reduction of the minimum pressure (Psmin), ventilation flow (Q2) into the top of the special vertical vent and drainage capacity of the system.

更新日期/Last Update: 2020-09-01