Numerical Simulation and Experimental Research on Indoor Environment Separated with Down-Feed Air Curtain

Indoor environment separated with down-feed air curtain was numerically simulated and experimentally researched. Indoor airflow and temperature fields separated with air curtain were numerically simulated. Results show that both polluted airflow and thermal air current can be separated with a down-f...

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Published in	Transactions of Tianjin University Vol. 15; no. 1; pp. 65 - 69
Main Author	郭春梅张于峰常茹王晓东
Format	Journal Article
Language	English
Published	Heidelberg Tianjin University 01.02.2009 School ofEnvironmental Science and Engineering,Tianjin University,Tianjin 300072,China Energy and Mechanical Engineering Department,Tianjin Urban Construction Institute,Tianjin 300384,China%School ofEnvironmental Science and Engineering,Tianjin University,Tianjin 300072,China%Energy and Mechanical Engineering Department,Tianjin Urban Construction Institute,Tianjin 300384,China%Tianjin Urban Design Institute,Tianjin 300201,China
Subjects	AFFM Engineering Humanities and Social Sciences Mechanical Engineering multidisciplinary Science 空气流场空气清洁风幕机 test chamber particle concentration air curtain numerical simulation airflow field temperature field
Online Access	Get full text
ISSN	1006-4982 1995-8196
DOI	10.1007/s12209-009-0013-6

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Abstract	Indoor environment separated with down-feed air curtain was numerically simulated and experimentally researched. Indoor airflow and temperature fields separated with air curtain were numerically simulated. Results show that both polluted airflow and thermal air current can be separated with a down-feed air curtain to prevent contaminants from spreading in the room space. In a test chamber, the smoke of burning Tibetan incense served as the source of contaminants, and the probe test shows that 1.0 μm is the prevailing diameter of the smoke particles. During the release of the smoke, the particle concentration of the indoor air was tested with a laser particle counter at the points of three different heights from the floor when the air curtain was running or not. Experimental results show that the higher the test point is located, the lower the particle concentration is, implying that the separating or isolating effect decreases as the air velocity of the curtain reduces along with the height descends. According to both simulation and experimental results, down-feed air curtain can separate indoor environment effectively when the supply air velocity of air curtain is not less than 3 m/s. In order to strengthen separation effect, it is suggested that the supply air velocity be speeded up to 5 m/s.
AbstractList	Indoor environment separated with down-feed air curtain was numerically simulated and experimentally researched. Indoor airflow and temperature fields separated with air curtain were numerically simulated. Results show that both polluted airflow and thermal air current can be separated with a down-feed air curtain to prevent contaminants from spreading in the room space. In a test chamber, the smoke of burning Tibetan incense served as the source of contaminants, and the probe test shows that 1.0 μm is the prevailing diameter of the smoke particles. During the release of the smoke, the particle concentration of the indoor air was tested with a laser particle counter at the points of three different heights from the floor when the air curtain was running or not. Experimental results show that the higher the test point is located, the lower the particle concentration is, implying that the separating or isolating effect decreases as the air velocity of the curtain reduces along with the height descends. According to both simulation and experimental results, down-feed air curtain can separate indoor environment effectively when the supply air velocity of air curtain is not less than 3 m/s. In order to strengthen separation effect, it is suggested that the supply air velocity be speeded up to 5 m/s. Indoor environment separated with down-feed air curtain was numerically simulated and experimentally researched. Indoor airflow and temperature fields separated with air curtain were numerically simulated. Results show that both polluted airflow and thermal air current can be separated with a down-feed air curtain to prevent contaminants from spreading in the room space. In a test chamber, the smoke of burning Tibetan incense served as the source of contaminants, and the probe test shows that 1.0 mum is the prevailing diameter of the smoke particles. During the release of the smoke, the particle concentration of the indoor air was tested with a laser particle counter at the points of three different heights from the floor when the air curtain was running or not. Experimental results show that the higher the test point is located, the lower the particle concentration is, implying that the separating or isolating effect decreases as the air velocity of the curtain reduces along with the height descends. According to both simulation and experimental results, down-feed air curtain can separate indoor environment effectively when the supply air velocity of air curtain is not less than 3 m/s. In order to strengthen separation effect, it is suggested that the supply air velocity be speeded up to 5 m/s. TP3; Indoor environment separated with down.feed air curtain was numerically simulated and experimentally researched.Indoor airflow and temperature fields separated with air curtain were numerically simulated.Resuits show that both polluted airflow and thermal air current can be separated with a down.feed air curtain to prevent contaminants from spreading in the room space.In a test chamber.the smoke of burning Tibetan incense served as the source of contaminants.and the probe test shows that 1.0 pm is the prevailing diameter of the smoke particles.During the release of the smoke.the particle concentration of the indoor air was tested with a laser particle counter at the points of three different heights from the floor when the air curtain was running or not.Experimental results show that the higher the test point is located,the lower the particle concentration is,implying that the separating or isolating eflfect decreases as the air velocity of the curtain reduces along with the height descends.According to both simulation and experimental results.down.feed air curtain can separate indoor environment effectively when the supply air velocity of air curtain is not less than 3 m/s.In order to strengthen separation effect,it is suggested that the supply air velocity be speeded up to 5 m/s.
Author	郭春梅张于峰常茹王晓东
AuthorAffiliation	School of Environmental Science and Engineering, Tianjin University, Tianjin 300072, China Energy and Mechanical Engineering Department, Tianjin Urban Construction Institute, Tianjin 300384, China Tianjin Urban Design Institute, Tianjin 300201, China
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SubjectTerms	AFFM Engineering Humanities and Social Sciences Mechanical Engineering multidisciplinary Science 空气流场空气清洁风幕机
Title	Numerical Simulation and Experimental Research on Indoor Environment Separated with Down-Feed Air Curtain
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