CFD Analysis of Gas Leakage through Liquid Nitrogen Cylinders

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Abhay Chauhan, Deep Prakash Singh, Hemant Kumar Singh, Navin Chaurasiya, Sandip Kumar Singh , Aparna Singh Gaur

Abstract

In order to increase safety in industrial settings, the CFD Analysis of Gas Leakage via Liquid Nitrogen Cylinders aims to comprehend the intricate dynamics of gas leakage. Because of its low temperature and quick expansion in the presence of air, liquid nitrogen presents serious dangers, including asphyxiation and equipment failure during leaks. This study examines important factors such as pressure, temperature gradients, leakage rates, and gas dispersion patterns using intricate CFD models. The research examines how these factors influence leaking behaviour and finds that even little changes in pressure have a big effect on gas expansion and leak rate. The significance of environmental elements like wind speed and cylinder design in affecting gas dispersion is one of the main conclusions. These understandings are essential for creating more effective containment plans and enhancing LN2 cylinder real-time monitoring systems. The study's findings also emphasise the need of customised safety procedures based on the kinds and circumstances of leaks, offering workable ways to reduce the dangers connected to the use and storage of liquid nitrogen.In order to increase safety in industrial settings, the CFD Analysis of Gas Leakage via Liquid Nitrogen Cylinders aims to comprehend the intricate dynamics of gas leakage. Because of its low temperature and quick expansion in the presence of air, liquid nitrogen presents serious dangers, including asphyxiation and equipment failure during leaks. This study examines important factors such as pressure, temperature gradients, leakage rates, and gas dispersion patterns using intricate CFD models. The research examines how these factors influence leaking behaviour and finds that even little changes in pressure have a big effect on gas expansion and leak rate.

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