Modeling of atmospheric dispersion of sodium fire aerosols for environmental impact analysis during accidental leaks-Reference-Cited by-同舟云学术

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Modeling of atmospheric dispersion of sodium fire aerosols for environmental impact analysis during accidental leaks

Published:2019-11 Issue: Volume:137 Page:105432
ISSN:0021-8502
Container-title:Journal of Aerosol Science
language:en
Short-container-title:Journal of Aerosol Science

Author:

Srinivas C.V.,Subramanian V.,Kumar Amit,Usha P.,Sujatha N.,Bagavath Singh A.,Rakesh P.T.,Baskaran R.,Venkatraman B.

Publisher

Elsevier BV

Subject

Pollution,Atmospheric Science,Fluid Flow and Transfer Processes,Mechanical Engineering,Environmental Engineering

Reference43 articles.

1. Response surface modeling of aerosol release fraction in sodium pool combustion;Akira Yamaguchi;Journal of Nuclear Science and Technology,2003

2. Air dispersion modeling: Foundations and applications;Alex,2014

3. Size Evolution of sodium combustion aerosol with various RH%;Amit;Aerosol and Air Quality Research,2015

4. Experimental investigation on carbonation of sodium aerosol generate from sodium fire in the contest of Fast Reactor Safety;Ananthanarayanan;Annals of Nuclear Energy,2015

5. Experimental investigations on carbonation of sodium aerosol generated from sodium fire in the context of fast reactor safety;Anantha Narayanan;Annals of Nuclear Energy,2015

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1. Spatio-temporal evolution of sodium aerosol and temperature distribution during sodium pool fire in a confined environment;Nuclear Engineering and Design;2023-09

2. Droplet size distribution in a swirl airstream using in-line holography technique;Journal of Fluid Mechanics;2023-01-06

3. Deep Learning-Based Indoor Air Quality Forecasting Framework for Indoor Subway Station Platforms;Toxics;2022-09-23

4. Semi-Empirical Model of Droplet Size Distribution From the Maximum Entropy Principle in Sodium Spray;Frontiers in Energy Research;2022-05-10

5. A WRF-FLEXPART simulation study of oil-fire plume dispersion- sensitivity to turbulent diffusion schemes;Meteorology and Atmospheric Physics;2022-02-25

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