Analysis of double‐diffusive hydrothermal flow in a domestic stack: The effect of side walls patterns-Reference-Cited by-同舟云学术

Analysis of double‐diffusive hydrothermal flow in a domestic stack: The effect of side walls patterns

Published:2023-11-14 Issue:2 Volume:53 Page:707-732
ISSN:2688-4534
Container-title:Heat Transfer
language:en
Short-container-title:Heat Trans

Author:

Hamza Naseer H.¹^ORCID,Abdulkadhim Ammar¹,Mohsen Ali M.²,Abed Azher M.³

Affiliation:

1. Mechanical Engineering Department University of Al‐Qadisiyah Al Diwaniyah Al‐Qadisiyah Province Iraq

2. Mechanical Engineering Department, School of Engineering, Faculty of Innovation and Technology Taylor's University Subang Jaya Malaysia

3. Air Conditioning and Refrigeration Techniques Engineering Department, College of Engineering and Technologies Al‐Mustaqbal University Hillah Babylon Province Iraq

Abstract

AbstractDomestic stack is considered to investigate the double‐diffusive laminar natural convection. The working fluid is a gaseous mixture that has similar physical properties to carbon dioxide. Knowing the patterns of gaseous mixture distribution and determining the carbon deposit regions can help in carbon capture problems. The present study uses the finite element method to numerically examine the double ratio‐diffusive physical phenomena in a rectangular‐trapezoidal enclosure and to simulate the stack under a wide range of dimensionless parameters, such as buoyancy ratio , Lewis number , and Rayleigh number for different aspect ratios. Nine different cases of the geometrical ratio are selected to cover most possible design configurations. The results indicate that increasing the Lewis number leads to augmented solutal transport but reduces heat transfer. However, both heat and mass transfer are observed by increasing the buoyancy ratio. It is worth mentioning that increasing the ratio of upper side length to base length from to leads to a significant increase in mass transfer by 75% and heat transfer enhancement ratio by around 50%.

Publisher

Wiley

Subject

Fluid Flow and Transfer Processes,Condensed Matter Physics

Link

https://onlinelibrary.wiley.com/doi/pdf/10.1002/htj.22972

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