Adsorption Beds: The Significance of Thermodynamic Properties and Particle Size on System-Level Heat Pump Performance

Fil, Bachir El; Raymond, Alexander; Garimella, Srinivas

Source: Journal of Energy Resources Technology:;2022:;volume( 144 ):;issue: 009::page 92103-1

Author:

Fil, Bachir El

Raymond, Alexander

Garimella, Srinivas

DOI: 10.1115/1.4053072

Publisher: The American Society of Mechanical Engineers (ASME)

Abstract: The performance of an adsorption heat pump is a function of the equilibrium uptake and diffusion resistances of a particular system, which determines the refrigerant throughput during a cycle. Previous studies have sought improved sorption bed performance by increasing heat transfer

however, some of the proposed heat exchanger enhancements represent costly alterations to the system. This work instead investigates a method for optimizing sorption bed mass transfer, which can be implemented as a low-cost alternative to heat transfer enhancement or in addition to it. The objective is to balance the intra-particle diffusion resistance, which increases with adsorbent particle diameter, with the inter-particle pressure drop, which decreases with adsorbent particle diameter. A silica gel–water system model is used to show that the optimal particle geometry in a packed bed yields a 48% improvement in cooling duty and over 50% increase in coefficient of performance compared with larger particles (dp = 1.42 mm).

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Adsorption Beds: The Significance of Thermodynamic Properties and Particle Size on System-Level Heat Pump Performance

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Journal of Energy Resources Technology

contributor author	Fil, Bachir El
contributor author	Raymond, Alexander
contributor author	Garimella, Srinivas
date accessioned	2022-05-08T09:40:41Z
date available	2022-05-08T09:40:41Z
date copyright	2/4/2022 12:00:00 AM
date issued	2022
identifier issn	0195-0738
identifier other	jert_144_9_092103.pdf
identifier uri	http://yetl.yabesh.ir/yetl1/handle/yetl/4285443
description abstract	The performance of an adsorption heat pump is a function of the equilibrium uptake and diffusion resistances of a particular system, which determines the refrigerant throughput during a cycle. Previous studies have sought improved sorption bed performance by increasing heat transfer
description abstract	however, some of the proposed heat exchanger enhancements represent costly alterations to the system. This work instead investigates a method for optimizing sorption bed mass transfer, which can be implemented as a low-cost alternative to heat transfer enhancement or in addition to it. The objective is to balance the intra-particle diffusion resistance, which increases with adsorbent particle diameter, with the inter-particle pressure drop, which decreases with adsorbent particle diameter. A silica gel–water system model is used to show that the optimal particle geometry in a packed bed yields a 48% improvement in cooling duty and over 50% increase in coefficient of performance compared with larger particles (dp = 1.42 mm).
publisher	The American Society of Mechanical Engineers (ASME)
title	Adsorption Beds: The Significance of Thermodynamic Properties and Particle Size on System-Level Heat Pump Performance
type	Journal Paper
journal volume	144
journal issue	9
journal title	Journal of Energy Resources Technology
identifier doi	10.1115/1.4053072
journal fristpage	92103-1
journal lastpage	92103-14
page	14
tree	Journal of Energy Resources Technology:;2022:;volume( 144 ):;issue: 009
contenttype	Fulltext

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