CFD Analysis of Hydrogen Gas Behaviour in a Multi-Zone Flow System: A Parametric Study DOI

R. Ramesh Kumar,

H. C. Yogeesha,

N. Channa Keshava Naik

et al.

CFD letters, Journal Year: 2025, Volume and Issue: 17(10), P. 76 - 105

Published: April 30, 2025

The ANSYS CFD analysis made use of hydrogen in this study. investigation aims at understanding the behaviour gas such interactions with inlet air and other fluid zones around it. Such research took advantage sophisticated simulation tools to offer useful insights into flow mixing patterns, thereby justifying why could possibly become an alternative fuel one day (hydrogen is future-oriented). In addition, a model was created establish interaction between combustion involving as well tanks air. This done on volumes for tanks. Many factors affect performance efficiency different operational conditions that were explored through elaborate simulations. These findings should improve our comprehension about physics involved which plays important role enhancement systems using power generation also help various industries' operations element their processes. It looks complicated structures behaviours arise domains uncover key parameters better designs more efficient systems. Consequently, it expected present study will future technology so they play part sustainable energy source.

Language: Английский

CFD Analysis of Hydrogen Gas Behaviour in a Multi-Zone Flow System: A Parametric Study DOI

R. Ramesh Kumar,

H. C. Yogeesha,

N. Channa Keshava Naik

et al.

CFD letters, Journal Year: 2025, Volume and Issue: 17(10), P. 76 - 105

Published: April 30, 2025

The ANSYS CFD analysis made use of hydrogen in this study. investigation aims at understanding the behaviour gas such interactions with inlet air and other fluid zones around it. Such research took advantage sophisticated simulation tools to offer useful insights into flow mixing patterns, thereby justifying why could possibly become an alternative fuel one day (hydrogen is future-oriented). In addition, a model was created establish interaction between combustion involving as well tanks air. This done on volumes for tanks. Many factors affect performance efficiency different operational conditions that were explored through elaborate simulations. These findings should improve our comprehension about physics involved which plays important role enhancement systems using power generation also help various industries' operations element their processes. It looks complicated structures behaviours arise domains uncover key parameters better designs more efficient systems. Consequently, it expected present study will future technology so they play part sustainable energy source.

Language: Английский

Citations

0