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Numerical Heat Transfer, Part A: Applications
An International Journal of Computation and Methodology
Volume 46, 2004 - Issue 8
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Original Articles

A CRITICAL INVESTIGATION INTO THE HEAT AND MASS TRANSFER ANALYSIS OF CROSSFLOW WET-COOLING TOWERS

J. C. Kloppers Sasol Technology (Pty) Ltd, Secunda, South Africa
&
D. G. Kröger Department of Mechanical Engineering, Stellenbosch, South Africa
Pages 785-806 | Received 01 Dec 2003, Accepted 01 Jun 2004, Published online: 17 Aug 2010

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Tien-Mo Shih, Chandrasekhar Thamire, Chao-Ho Sung & An-Lu Ren. (2010) Literature Survey of Numerical Heat Transfer (2000–2009): Part I. Numerical Heat Transfer, Part A: Applications 57:3-4, pages 159-296.
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Jorge Facão & ArmandoC. Oliveira. (2008) Heat and Mass Transfer in an Indirect Contact Cooling Tower: CFD Simulation and Experiment. Numerical Heat Transfer, Part A: Applications 54:10, pages 933-944.
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Articles from other publishers (30)

Parnab Saha, Xu Tan, James Klausner, Bahman Abbasi & Andre Benard. (2024) Comparative investigation on direct contact crossflow and direct contact counterflow packed beds condensers: Experimental and modeling analyses. Applied Thermal Engineering 236, pages 121777.
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Amanda F. da Silva, Heloísa L. S. Fernandes & Fernando L. P. Pessoa. (2022) An equilibrium model for simulating the deposition of calcium carbonate in cooling towers. Brazilian Journal of Chemical Engineering 40:4, pages 1133-1157.
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Mustafa F. Kaddoura & Natasha C. Wright. (2023) Design comparative analysis of convection-enhanced evaporation systems. Applied Thermal Engineering 225, pages 120188.
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M.A. Hassab, M. Khamis Mansour, L.A. Sadek & M.A. Qassem. (2023) Thermal and experimental analysis of cross-flow closed cooling tower. Alexandria Engineering Journal 69, pages 739-746.
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A. Zargar, A. Kodkani, B. Vickers, M.R. Flynn & M. Secanell. (2023) A hybrid cooling tower model for plume abatement and performance analysis. Applied Thermal Engineering 219, pages 119593.
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Reza Javadpour, Saeed Zeinali Heris & Josua P. Meyer. (2022) Experimental study of the effect of filled bed type on the performance of a cross-flow cooling tower with the approach of using water-based nanofluids (MWCNTs and TiO2). Energy Reports 8, pages 8346-8360.
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Reza Javadpour, Saeed Zeinali Heris, Yaghoub Mohammadfam & Seyed Borhan Mousavi. (2022) Optimizing the heat transfer characteristics of MWCNTs and TiO2 water-based nanofluids through a novel designed pilot-scale setup. Scientific Reports 12:1.
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A. Zargar, A. Kodkani, A. Peris, E. Clare, J. Cook, P. Karupothula, B. Vickers, M.R. Flynn & M. Secanell. (2022) Numerical analysis of a counter-flow wet cooling tower and its plume. International Journal of Thermofluids 14, pages 100139.
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Mustafa F. Kaddoura, Matthew Chosa, Prakash Bhalekar & Natasha C. Wright. (2021) Mathematical modeling of a modular convection-enhanced evaporation system. Desalination 510, pages 115057.
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Omar M. Hamdoon & Burhan M. Al-Ali. (2019) Modeling and Simulation of a Desiccant Evaporative Cooling System. Tikrit Journal of Engineering Sciences 26:3, pages 10-18.
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Yanqiang Kong, Weijia Wang, Zhitao Zuo, Lijun Yang, Xiaoze Du, Chao Xu & Yongping Yang. (2019) Influencing Mechanisms of a Crosswind on the Thermo-Hydraulic Characteristics of a Large-Scale Air-Cooled Heat Exchanger. Energies 12:6, pages 1128.
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Paul J. Erens & Hanno C Reuter. 2017. Handbuch Vakuumtechnik. Handbuch Vakuumtechnik 1 23 .
Paul J. Erens & Hanno C Reuter. 2019. VDI-Wärmeatlas. VDI-Wärmeatlas 1937 1958 .
A. Dhorat, M. A. Al-Obaidi & I.M. Mujtaba. (2018) Numerical Modelling and Sensitivity Analysis of Natural Draft Cooling Towers. Chemical Product and Process Modeling 13:4.
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Robert Zinni & Mostafa H. Sharqawy. (2018) Modified Effectiveness Model for Crossflow Packed-Bed Humidifiers. Journal of Advanced Thermal Science Research 5, pages 27-33.
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Mostafa H. Sharqawy, Ibrahim Al-Shalawi, Mohamed A. Antar & Syed M. Zubair. (2017) Experimental investigation of packed-bed cross-flow humidifier. Applied Thermal Engineering 117, pages 584-590.
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Ming-yin Chan & Roger Tsz-ho Ng. (2015) An experimental study of heat pipe heat exchanger for cooling and dehumidification in an indirect evaporative way. Building Services Engineering Research and Technology 36:5, pages 596-613.
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Suoying He, Hal Gurgenci, Zhiqiang Guan, Xiang Huang & Manuel Lucas. (2015) A review of wetted media with potential application in the pre-cooling of natural draft dry cooling towers. Renewable and Sustainable Energy Reviews 44, pages 407-422.
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Kannan Aravamudan, Varun Harikumar, Bhuvanesh Kumar, Ligy Philip, S. Murty Bhallamudi & K. Srinivasa Reddy. (2014) Simulation of a cross flow wind aided evaporator. Desalination 340, pages 18-29.
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M. M. Hemmasian Kashani & K. V. Dobrego. (2013) Heat and mass transfer in natural draft cooling towers. Journal of Engineering Physics and Thermophysics 86:5, pages 1072-1082.
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Adam Klimanek. (2013) Numerical Modelling of Natural Draft Wet-Cooling Towers. Archives of Computational Methods in Engineering 20:1, pages 61-109.
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Paul J. Erens & Hanno C. R. Reuter. 2013. VDI-Wärmeatlas. VDI-Wärmeatlas 1655 1674 .
H. C. R. Reuter & D. G. Kröger. (2012) Computational Models for Predicting Cooling Tower Fill Performance in Cross-Counterflow Configuration. Journal of Thermal Science and Engineering Applications 4:2.
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Rui Hai Wang, Li Jun Wang, Yu Wang, Wei Hua Li, Lu Yan Sui, Yong Li, Bo Wang, Feng Jiang & Xing Bin Xu. (2012) The Study of the Evaporative Condensation Heat Processing Schema Based on Utilization of the Exhaust Air. Applied Mechanics and Materials 170-173, pages 2639-2643.
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R.J. Goldstein, W.E. Ibele, S.V. Patankar, T.W. Simon, T.H. Kuehn, P.J. Strykowski, K.K. Tamma, J.V.R. Heberlein, J.H. Davidson, J. Bischof, F.A. Kulacki, U. Kortshagen, S. Garrick, V. Srinivasan, K. Ghosh & R. Mittal. (2010) Heat transfer—A review of 2004 literature. International Journal of Heat and Mass Transfer 53:21-22, pages 4343-4396.
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Paul J. Erens. 2010. VDI Heat Atlas. VDI Heat Atlas 1485 1502 .
A. Klimanek & R.A. Białecki. (2009) Solution of heat and mass transfer in counterflow wet-cooling tower fills. International Communications in Heat and Mass Transfer 36:6, pages 547-553.
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M. H. Panjeshahi & A. Ataei. (2008) Application of an environmentally optimum cooling water system design in water and energy conservation. International Journal of Environmental Science & Technology 5:2, pages 251-262.
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Johannes C. Kloppers & Detlev G. Kröger. (2005) The Lewis factor and its influence on the performance prediction of wet-cooling towers. International Journal of Thermal Sciences 44:9, pages 879-884.
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Mustafa F. Kaddoura & Natasha C. Wright. (2022) Assessment of Convection-Enhanced Evaporation (CEE) Design: A Comparison of Flow Configurations. SSRN Electronic Journal.
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