Thermodynamic based environmental and sustainability assessments of gas flow in a curved annular channel
Author:
Publisher
Elsevier BV
Subject
Energy Engineering and Power Technology,Condensed Matter Physics,Fuel Technology,Renewable Energy, Sustainability and the Environment
Reference39 articles.
1. Environmental and sustainability aspects of hydrogen and fuel cell systems;Dincer;Int J Energy Res,2007
2. An investigation on exergetic performance of hydrogen gas flowing through the annular curved duct;Midilli,2017
3. Exergetic performance comparison of air and hydrogen gas flowing through the annular curved duct;Midilli;Int J Hydrogen Energy,2018
4. A numerical study on heat and fluid flow in concentric curved annular square ducts;Kucuk;Heat Tran Eng,2009
5. Laminar entrance flow in curved annular ducts;Choi;Int J Heat Fluid Flow,1992
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