Dynamic Performance Analysis of a Compressor Driven Metal Hydride Cooling System

Mazumdar, Sagnik; Gopal, M. Ram; Bhattacharyya, Souvik

doi:10.1115/1.2126983

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Dynamic Performance Analysis of a Compressor Driven Metal Hydride Cooling System

Sagnik Mazumdar,

Sagnik Mazumdar

Department of Mechanical Engineering,

Indian Institute of Technology

, Kharagpur, India 721302

Mr. Sagnik Mazumdar is a MS student in the Department of Mechanical Engineering at IIT Kharagpur, India. He received his bachelor’s degree from the same institute in the year 1999. He is presently pursuing his MS research on development of compressor driven metal hydride systems under the guidance of Dr. M. Ram Gopal and Dr. Souvik Bhattacharyya.

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M. Ram Gopal,

M. Ram Gopal

Department of Mechanical Engineering,

Indian Institute of Technology

, Kharagpur, India 721302

Dr. M. Ram Gopal received his master’s and Ph.D. degrees from IIT Madras, India. He is at present working as Associate Professor in the Department of Mechanical Engineering, IIT Kharagpur, India. Before joining IIT Kharagpur he worked as Manager (R&D) in BPL Refrigeration systems, Bangalore, India. His research interests include domestic refrigerators, metal hydride based energy systems, carbon dioxide based refrigeration and heat pump systems and compression-absorption systems. He has published 20 papers in international journals and presented 15 papers at international conferences. He has two patents to his credit.

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Souvik Bhattacharyya

Department of Mechanical Engineering,

Indian Institute of Technology

, Kharagpur, India 721302

Dr. Souvik Bhattacharyya is a Professor of Mechanical Engineering at IIT Kharagpur, India. He obtained his bachelor’s degree from Jadavpur University, Calcutta, MS from University of Cincinnati, and Ph.D. from Texas A&M University. His research specialization is thermal sciences, energy and heat transfer. He is a member of the editorial Board of Energy Conversion and Management, an Elsevier journal. He has published 110 articles in journals and conference proceedings.

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Author and Article Information

Sagnik Mazumdar

Mr. Sagnik Mazumdar is a MS student in the Department of Mechanical Engineering at IIT Kharagpur, India. He received his bachelor’s degree from the same institute in the year 1999. He is presently pursuing his MS research on development of compressor driven metal hydride systems under the guidance of Dr. M. Ram Gopal and Dr. Souvik Bhattacharyya.

Department of Mechanical Engineering,

Indian Institute of Technology

, Kharagpur, India 721302

M. Ram Gopal

Dr. M. Ram Gopal received his master’s and Ph.D. degrees from IIT Madras, India. He is at present working as Associate Professor in the Department of Mechanical Engineering, IIT Kharagpur, India. Before joining IIT Kharagpur he worked as Manager (R&D) in BPL Refrigeration systems, Bangalore, India. His research interests include domestic refrigerators, metal hydride based energy systems, carbon dioxide based refrigeration and heat pump systems and compression-absorption systems. He has published 20 papers in international journals and presented 15 papers at international conferences. He has two patents to his credit.

Department of Mechanical Engineering,

Indian Institute of Technology

, Kharagpur, India 721302

Souvik Bhattacharyya

Dr. Souvik Bhattacharyya is a Professor of Mechanical Engineering at IIT Kharagpur, India. He obtained his bachelor’s degree from Jadavpur University, Calcutta, MS from University of Cincinnati, and Ph.D. from Texas A&M University. His research specialization is thermal sciences, energy and heat transfer. He is a member of the editorial Board of Energy Conversion and Management, an Elsevier journal. He has published 110 articles in journals and conference proceedings.

Department of Mechanical Engineering,

Indian Institute of Technology

, Kharagpur, India 721302

J. Energy Resour. Technol. Mar 2006, 128(1): 35-43 (9 pages)

https://doi.org/10.1115/1.2126983

Published Online: April 15, 2005

Though several studies have been reported to show that compressor driven metal hydride cooling systems are competitive with conventional vapor compression systems, an elaborate computational model that takes into account the transient nature of the compressor and the conditioned space is still unreported. The results presented here are obtained for a room air conditioner with ${Zr}_{0.9} {Ti}_{0.1} {Cr}_{0.55} {Fe}_{1.45}$ as the hydrogen absorbing material and employing standard heat exchanger configurations. Though previous thermodynamic and transient studies predicted attainment of significant coefficients of performance, the present results indicate that even with the optimal design the maximum coefficient of performance and specific power will be around 2.38 and $750 kJ ∕ kg$ -alloy.h, respectively. This indicates a need for better materials and effective control strategies so that these systems can become commercially viable.

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