文化大學機構典藏 CCUR:Item 987654321/32101
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    Please use this identifier to cite or link to this item: https://irlib.pccu.edu.tw/handle/987654321/32101


    Title: Application of silica gel fluidised bed for air-conditioning systems
    Authors: Chen, Chih-Hao
    Schmid, Gerd
    Chan, Chi-Tong
    Chiang, Yuan-Ching
    Chen, Sih-Li
    Contributors: 機械系
    Keywords: Fluidised bed
    Minimum fluidisation velocity
    Silica gel
    Adsorption
    Pressure drop
    Date: 2015-10
    Issue Date: 2016-02-26 16:08:17 (UTC+8)
    Abstract: This paper theoretically and experimentally investigates a periodic operating silica gel fluidised bed system to adsorb/desorb moisture in air-conditioning systems. First, the theoretical model of a fluidised bed system is utilised to predict the minimum fluidisation velocity, pressure drop, and adsorption/desorption performance of a silica gel fluidised bed. Subsequently, the paper experimentally compares the adsorption/desorption performance of the silica gel fluidised bed with a packed bed at the regeneration temperature of 40 degrees C, inlet temperature of 30 degrees C, inlet relative humidity of 60%, and wind velocity of 2 m/s periodically operating for 40 min. Then it applies two kinds of average diameter (3 mm and 5 mm) silica gel particles to the fluidised bed dehumidification system with various filling heights and differing wind velocities. The results show that the fluidised bed system, compared with the packed bed, increases the total amount of adsorption and desorption by 20.8% and 19.8%. It also reduces the pressure drop and outlet temperature by 30% and 36%. Moreover, the adsorption/desorption performance of fluidised bed systems increases with higher filling height and faster wind velocity. The availability of the theoretical modal is verified by 8% relative error between the theoretical and experimental values of the adsorption/desorption performance. (C) 2015 Elsevier Ltd. All rights reserved,
    Relation: APPLIED THERMAL ENGINEERING 卷: 89 頁碼: 229-238
    Appears in Collections:[Department of Mechanical Engineering ] journal articles

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