A Novel Heat and Mass Transfer Model for Membrane-based Ionic Liquid Desiccant Air Dehumidifier

Xiaoli Liu; Ming Qu; Xiaobing Liu; Joseph Warner

A Novel Heat and Mass Transfer Model for Membrane-based Ionic Liquid Desiccant Air Dehumidifier

Xiaoli Liu, Ming Qu, Xiaobing Liu, Joseph Warner

Thermal Energy Storage

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

A numerical model is developed to predict and analyze the heat and mass transfer process of the membrane-based dehumidifier using liquid Several mass transfer mechanisms of water vapor across the membrane are accounted for in this model to calculate the amount of permeated under various operating conditions based on the physical properties of the membrane and the liquid desiccant. This model is validated against experimental data available from the literature. The maximum discrepancy between the model-predicted results and the experimental data temperature, solution outlet temperature, air outlet humidity ratio, and latent effectiveness are 3.38%, 2.7%, 4.3% and 6.5%, respectively. It indicates that this model can be used to guide the design of the membrane-based dehumidifier to improve its performance.

Original language	English
Title of host publication	ASHRAE Transactions - 2019 ASHRAE Winter Conference
Publisher	ASHRAE
Pages	392-400
Number of pages	9
ISBN (Electronic)	9781947192256
State	Published - 2019
Event	2019 ASHRAE Winter Conference - Atlanta, United States Duration: Jan 12 2019 → Jan 16 2019

Publication series

Name	ASHRAE Transactions
Volume	125
ISSN (Print)	0001-2505

Conference

Conference	2019 ASHRAE Winter Conference
Country/Territory	United States
City	Atlanta
Period	01/12/19 → 01/16/19

Cite this

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title = "A Novel Heat and Mass Transfer Model for Membrane-based Ionic Liquid Desiccant Air Dehumidifier",

abstract = "A numerical model is developed to predict and analyze the heat and mass transfer process of the membrane-based dehumidifier using liquid Several mass transfer mechanisms of water vapor across the membrane are accounted for in this model to calculate the amount of permeated under various operating conditions based on the physical properties of the membrane and the liquid desiccant. This model is validated against experimental data available from the literature. The maximum discrepancy between the model-predicted results and the experimental data temperature, solution outlet temperature, air outlet humidity ratio, and latent effectiveness are 3.38%, 2.7%, 4.3% and 6.5%, respectively. It indicates that this model can be used to guide the design of the membrane-based dehumidifier to improve its performance.",

author = "Xiaoli Liu and Ming Qu and Xiaobing Liu and Joseph Warner",

note = "Publisher Copyright: {\textcopyright} 2019 ASHRAE; 2019 ASHRAE Winter Conference ; Conference date: 12-01-2019 Through 16-01-2019",

year = "2019",

language = "English",

series = "ASHRAE Transactions",

publisher = "ASHRAE",

pages = "392--400",

booktitle = "ASHRAE Transactions - 2019 ASHRAE Winter Conference",

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T1 - A Novel Heat and Mass Transfer Model for Membrane-based Ionic Liquid Desiccant Air Dehumidifier

AU - Liu, Xiaoli

AU - Qu, Ming

AU - Liu, Xiaobing

AU - Warner, Joseph

PY - 2019

Y1 - 2019

N2 - A numerical model is developed to predict and analyze the heat and mass transfer process of the membrane-based dehumidifier using liquid Several mass transfer mechanisms of water vapor across the membrane are accounted for in this model to calculate the amount of permeated under various operating conditions based on the physical properties of the membrane and the liquid desiccant. This model is validated against experimental data available from the literature. The maximum discrepancy between the model-predicted results and the experimental data temperature, solution outlet temperature, air outlet humidity ratio, and latent effectiveness are 3.38%, 2.7%, 4.3% and 6.5%, respectively. It indicates that this model can be used to guide the design of the membrane-based dehumidifier to improve its performance.

AB - A numerical model is developed to predict and analyze the heat and mass transfer process of the membrane-based dehumidifier using liquid Several mass transfer mechanisms of water vapor across the membrane are accounted for in this model to calculate the amount of permeated under various operating conditions based on the physical properties of the membrane and the liquid desiccant. This model is validated against experimental data available from the literature. The maximum discrepancy between the model-predicted results and the experimental data temperature, solution outlet temperature, air outlet humidity ratio, and latent effectiveness are 3.38%, 2.7%, 4.3% and 6.5%, respectively. It indicates that this model can be used to guide the design of the membrane-based dehumidifier to improve its performance.

UR - http://www.scopus.com/inward/record.url?scp=85071949842&partnerID=8YFLogxK

M3 - Conference contribution

AN - SCOPUS:85071949842

T3 - ASHRAE Transactions

SP - 392

EP - 400

BT - ASHRAE Transactions - 2019 ASHRAE Winter Conference

PB - ASHRAE

T2 - 2019 ASHRAE Winter Conference

Y2 - 12 January 2019 through 16 January 2019

ER -

A Novel Heat and Mass Transfer Model for Membrane-based Ionic Liquid Desiccant Air Dehumidifier

Abstract

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