New indices to evaluate volatile organic compound sorption capacity of building materials (RP-1321).(Report): An article from: HVAC & R Research

Name: New indices to evaluate volatile organic compound sorption capacity of building materials (RP-1321).(Report): An article from: HVAC & R Research
Author: Qinqin Deng, Xudong Yang, Jianshun S. Zhang
ISBN: 978B003UKYZ23

Author Qinqin Deng, Xudong Yang, Jianshun S. Zhang

Publisher Taylor & Francis Ltd.

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Book Details

Author(s)Qinqin Deng, Xudong Yang, Jianshun S. Zhang

PublisherTaylor & Francis Ltd.

ISBN / ASINB003UKYZ2Q

ISBN-13978B003UKYZ23

MarketplaceIndia 🇮🇳

Description ▲

This digital document is an article from HVAC & R Research, published by Taylor & Francis Ltd. on January 1, 2010. The length of the article is 4103 words. The page length shown above is based on a typical 300-word page. The article is delivered in HTML format and is available immediately after purchase. You can view it with any web browser.

From the author: The material to air equilibrium partition coefficient ([K.sub.e] ) is often used to represent sorption capacity of building materials. However, it does not represent the sorption dynamics (i.e., the sink effect) of volatile organic compounds (VOCs) inside a porous material, which depends not only on the partition, but also on the in-material diffusion rate and convective mass transfer rate through the boundary layer. Based on fundamental mass transfer theory for VOC sorption by building materials, this paper proposes VOC sorption mass (M(t)) and sorption saturation degree (SSD) as new evaluation indices for sorption capacity and dynamics of building materials under given constant inlet concentration. It is found that SSD can be characterized by dimensionless sorption mass (m*), which is a function of dimensionless air change rate (N*), dimensionless mass capacity ([THETA]), and Fourier number for mass transfer ([Fo.sub.m]). Two cases, one with constant inlet VOC concentration and the other a hypothetical case under a no-ventilation condition, are simulated to illustrate material sorption capacity. This evaluation method can clarify the difference between air saturation state and material saturation state and would be useful for modeling the impact of material sorption on indoor air quality.

Citation Details
Title: New indices to evaluate volatile organic compound sorption capacity of building materials (RP-1321).(Report)
Author: Qinqin Deng
Publication:HVAC & R Research (Magazine/Journal)
Date: January 1, 2010
Publisher: Taylor & Francis Ltd.
Volume: 16 Issue: 1 Page: 95(11)

Article Type: Report

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