Design and Performance Analysis of a CD Nozzle for Evacuating Emissions from the Subway Tunnels

Journal of applied mechanical engineering Pub Date : 2017-01-01 DOI:10.4172/2168-9873.1000293

C. Nallode, C. Rakesh, J. Ahmed, Ganesha Prasad Ms

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引用次数: 2

Abstract

Tunnels have very severe air quality constraints that typically require good ventilation system. The process of removing air from any space by mechanical means is known as evacuation. Evacuation of exhaust and smoke in case of fire emergencies is very necessary to bring in fresh air as it leads to pressure and temperature build up which causes discomfort to the passengers travelling especially in long tunnels. Generally, in longitudinal ventilation, a jet blower fan enclosed in a cylindrical casing is used for ventilation. These jet fans accelerate the air by imparting it an impulse in the desired direction. The main aim is to optimize the design and replace the jet blower fan cylindrical enclosure by a CD Nozzle. The suction fan along with rotor is exactly placed at the throat of the nozzle. The modeling is done using CATIA V5 software and CFD flow and modal analysis is carried out using ANSYS V 15.0. Various parameters like pressure, temperature, density, humidity and mass flow rate of air are measured and compared with the conventional model by experimentation and the results are validated.

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用于地铁隧道排放物疏散的CD喷管设计与性能分析

隧道有非常严重的空气质量限制，通常需要良好的通风系统。用机械手段将空气从任何空间抽走的过程称为疏散。在火灾紧急情况下，废气和烟雾的疏散对于引入新鲜空气是非常必要的，因为它会导致压力和温度升高，给乘客带来不适，尤其是在长隧道中。在纵向通风中，一般采用封闭在圆柱形外壳内的射流风机进行通风。这些喷气风扇通过向期望的方向施加冲量来加速空气。其主要目的是优化设计，用CD喷嘴代替喷射风机圆柱外壳。吸风机与转子一起精确地放置在喷嘴的喉部。采用CATIA V5软件进行建模，ANSYS v15.0软件进行CFD流态和模态分析。对空气的压力、温度、密度、湿度、质量流量等参数进行了测量，并与常规模型进行了实验比较，验证了结果的正确性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of applied mechanical engineering

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