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Separation Science and Technology Volume 30, 1995 - Issue 7-9
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Original Articles

Dehumidification of Moist Air with Simultaneous Removal of Selected Indoor Pollutants by Triethylene Glycol Solutions in a Packed-Bed Absorber

Tsair-Wang Chung Nuclear Engineering and Particulate Systems Research Center, University of Missouri-Columbia, Columbia, MO, 65211
,
Tushar K. Ghosh Nuclear Engineering and Particulate Systems Research Center, University of Missouri-Columbia, Columbia, MO, 65211
,
Anthony L. Hines Honda of America Mfg. Inc., Honda Parkway, Marysville, OH, 43040
&
Davor Novosel Gas Research Institute, Chicago, IL, 60631
Pages 1807-1832 | Published online: 23 Sep 2006

Citations (43)

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Read on this site (6)

Hung-Ta Wu, Yu-Chieh Lan & Tsair-Wang Chung. (2022) Optimization of operating conditions for energy conservation in a packed-bed absorber. Chemical Engineering Communications 209:12, pages 1626-1641.
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Chuanshuai Dong, Ronghui Qi, Lin Lu, Yalin Wang & Lingshi Wang. (2017) Comparative performance study on liquid desiccant dehumidification with different packing types for built environment. Science and Technology for the Built Environment 23:1, pages 116-126.
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M. K. Abu‐Arabi, S. A. Abdul‐Wahab & M.F. A. Goosen. (2006) Study of Desiccant Regeneration in a Structured Packed Tower. Separation Science and Technology 41:8, pages 1679-1695.
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Esam Elsarrag, Elsheikh Elmagzoub M. Ali & Sanjeev Jain. (2005) Design Guidelines and Performance Study on a Structured Packed Liquid Desiccant Air-Conditioning System. HVAC&R Research 11:2, pages 319-337.
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Viktoria Martin & D. Yogi Goswami. (2000) Effectiveness of Heat and Mass Transfer Processes in a Packed Bed Liquid Desiccant Dehumidifier/Regenerator. HVAC&R Research 6:1, pages 21-39.
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Tsair-Wang Chung & Honda Wu. (1998) Dehumidification of Air by Aqueous Triethylene Glycol Solution in a Spray Tower. Separation Science and Technology 33:8, pages 1213-1224.
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Articles from other publishers (37)

Rehan Khan, Daniel Neyer, Irina Kurzina & Ritunesh Kumar. (2024) Heat and mass transfer characteristics of vertical falling film cylindrical plastic surfaces under partial wetting conditions for liquid desiccant regeneration. Applied Thermal Engineering 242, pages 122462.
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Chuang-Yao Zhao, Peng Zhang, Qiang Guan, Di Qi, Yi Zhang & Jun-Min Jiang. (2024) Numerical study of falling film dehumidification performance on corrugated plates. International Journal of Heat and Mass Transfer 219, pages 124843.
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Jielin Luo & Hongxing Yang. (2022) A state-of-the-art review on the liquid properties regarding energy and environmental performance in liquid desiccant air-conditioning systems. Applied Energy 325, pages 119853.
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Richard Jayson Varela, Niccolo Giannetti, Kiyoshi Saito, Xinming Wang & Hiroshi Nakayama. (2022) Experimental performance of a three-fluid desiccant contactor using a novel ionic liquid. Applied Thermal Engineering 210, pages 118343.
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Rehan Khan, Ritunesh Kumar & Zhenjun Ma. (2021) Experimental assessment of mass transfer characteristics of polypropylene surfaces for low flow falling film liquid desiccant air- conditioning applications. Chemical Engineering and Processing - Process Intensification 169, pages 108605.
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Naef A.A. Qasem, M.A. Ahmed & Syed M. Zubair. (2019) The impact of thermodynamic balancing on performance of a desiccant-based humidification-dehumidification system to harvest freshwater from atmospheric air. Energy Conversion and Management 199, pages 112011.
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Tao Wen & Lin Lu. (2019) A review of correlations and enhancement approaches for heat and mass transfer in liquid desiccant dehumidification system. Applied Energy 239, pages 757-784.
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. (2019) Liquid Desiccants Applications in Cooling and Dehumidification – An Overview. Archives of Industrial Engineering, pages 1-17.
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. (2019) Liquid Desiccants Applications in Cooling and Dehumidification – An Overview. Archives of Industrial Engineering, pages 1-17.
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M.A. Ahmed, Syed M. Zubair, M.A. Abido & Haitham M. Bahaidarah. (2018) An innovative closed-air closed-desiccant HDH system to extract water from the air: A case for zero-brine discharge system. Desalination 445, pages 236-248.
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Shaobo Cao, Ping Liu, Liangliang Zhang, Baochang Sun, Haikui Zou, Guangwen Chu, Yong Luo & Jianfeng Chen. (2018) Mass Transfer Study of Dehydration by Triethylene Glycol in Rotating Packed Bed for Natural Gas Processing. Industrial & Engineering Chemistry Research 57:15, pages 5394-5400.
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Joon-Young Park, Dong-Seob Yoon, Shiying Li, Junseok Park, Jong-Il Bang, Minki Sung & Jae-Weon Jeong. (2017) Empirical analysis of indoor air quality enhancement potential in a liquid-desiccant assisted air conditioning system. Building and Environment 121, pages 11-25.
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Huang-Xi Fu & Xiao-Hua Liu. (2017) Review of the impact of liquid desiccant dehumidification on indoor air quality. Building and Environment 116, pages 158-172.
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Mohamed R.H. Abdel-Salam, Robert W. Besant & Carey J. Simonson. (2017) Performance testing of 2-fluid and 3-fluid liquid-to-air membrane energy exchangers for HVAC applications in cold–dry climates. International Journal of Heat and Mass Transfer 106, pages 558-569.
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Jun Lu, Meilin Wang, Yongcai Li & Lulu Yang. (2017) Numerical study on dehumidification performance of a cross-flow liquid desiccant air dehumidifier. Procedia Engineering 205, pages 3630-3637.
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Rakesh Kumar & A. K. Asati. (2015) Experimental study on performance of celdek packed liquid desiccant dehumidifier. Heat and Mass Transfer 52:9, pages 1821-1832.
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Min-Hwi Kim, Joon-Young Park & Jae-Weon Jeong. (2015) Simplified model for packed-bed tower regenerator in a liquid desiccant system. Applied Thermal Engineering 89, pages 717-726.
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Xiaochen Liu, Bowen Guan & Xiaohua Liu. (2015) Experimental Study on the Filtration Efficiency of Structured Packing Air Handling Processors. Procedia Engineering 121, pages 2037-2043.
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Mohamed R.H. Abdel-Salam, Melanie Fauchoux, Gaoming Ge, Robert W. Besant & Carey J. Simonson. (2014) Expected energy and economic benefits, and environmental impacts for liquid-to-air membrane energy exchangers (LAMEEs) in HVAC systems: A review. Applied Energy 127, pages 202-218.
Crossref
Yimo Luo, Hongxing Yang, Lin Lu & Ronghui Qi. (2014) A review of the mathematical models for predicting the heat and mass transfer process in the liquid desiccant dehumidifier. Renewable and Sustainable Energy Reviews 31, pages 587-599.
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D. Seenivasan, V. Selladurai & P. Senthil. (2015) Optimization of Liquid Desiccant Dehumidifier Performance Using Taguchi Method. Advances in Mechanical Engineering 6, pages 506487.
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Amir Rahimi & Davoud Babakhani. (2013) Mathematical modeling of a packed-bed air dehumidifier: The impact of empirical correlations. Journal of Petroleum Science and Engineering 108, pages 222-229.
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Ritunesh Kumar, P.L. Dhar & Sanjeev Jain. (2011) Development of new wire mesh packings for improving the performance of zero carryover spray tower. Energy 36:2, pages 1362-1374.
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Pradeep Bansal, Sanjeev Jain & Choon Moon. (2011) Performance comparison of an adiabatic and an internally cooled structured packed-bed dehumidifier. Applied Thermal Engineering 31:1, pages 14-19.
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Ritunesh Kumar, P.L. Dhar, Sanjeev Jain & A.K. Asati. (2009) Multi absorber stand alone liquid desiccant air-conditioning systems for higher performance. Solar Energy 83:5, pages 761-772.
Crossref
Xiao-Hua Liu, Yi Jiang & Kai-Yang Qu. (2008) Analytical solution of combined heat and mass transfer performance in a cross-flow packed bed liquid desiccant air dehumidifier. International Journal of Heat and Mass Transfer 51:17-18, pages 4563-4572.
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Toshiaki Yamamoto, Goichi Tanioka, Masaaki Okubo & Tomoyuki Kuroki. (2007) Water vapor desorption and adsorbent regeneration for air conditioning unit using pulsed corona plasma. Journal of Electrostatics 65:4, pages 221-227.
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Esam Elsarrag. (2007) Moisture removal rate for air dehumidification by triethylene glycol in a structured packed column. Energy Conversion and Management 48:1, pages 327-332.
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Honda WuTheng-Ching FengTsair-Wang Chung. (2006) Discussions of Mass Transfer Performance and Empirical Correlations for VOCs Absorbed by Triethylene Glycol Solution. Industrial & Engineering Chemistry Research 45:25, pages 8689-8696.
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X.H. Liu, K.Y. Qu & Y. Jiang. (2006) Empirical correlations to predict the performance of the dehumidifier using liquid desiccant in heat and mass transfer. Renewable Energy 31:10, pages 1627-1639.
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Esam Elsarrag, Elsheikh E. M. Magzoub & Sanjeev Jain. (2004) Mass-Transfer Correlations for Dehumidification of Air by Triethylene Glycol in a Structured Packed Column. Industrial & Engineering Chemistry Research 43:23, pages 7676-7681.
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S.A. Abdul-Wahab, M.K. Abu-Arabi & Y.H. Zurigat. (2004) Effect of structured packing density on performance of air dehumidifier. Energy Conversion and Management 45:15-16, pages 2539-2552.
Crossref
S.A. Abdul-Wahab, Y.H. Zurigat & M.K. Abu-Arabi. (2004) Predictions of moisture removal rate and dehumidification effectiveness for structured liquid desiccant air dehumidifier. Energy 29:1, pages 19-34.
Crossref
Y.H. Zurigat, M.K. Abu-Arabi & S.A. Abdul-Wahab. (2004) Air dehumidification by triethylene glycol desiccant in a packed column. Energy Conversion and Management 45:1, pages 141-155.
Crossref
Honda Wu, Tsair-Wang Chung & Ming-Hong Lai. (2001) Effects of Marangoni Convection on the Mass Transfer Performance in a Packed-Bed Absorber. Industrial & Engineering Chemistry Research 40:3, pages 885-891.
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Tsair-Wang Chung & Chung-Ming Luo. (1999) Vapor Pressures of the Aqueous Desiccants. Journal of Chemical & Engineering Data 44:5, pages 1024-1027.
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V. O¨berg & D. Y. Goswami. (1998) Experimental Study of the Heat and Mass Transfer in a Packed Bed Liquid Desiccant Air Dehumidifier. Journal of Solar Energy Engineering 120:4, pages 289-297.
Crossref

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