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Enhanced Heat Transfer Volume 9, 2002 - Issue 5-6
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Original Articles

Effect of the Electrode Arrangements in a Tube Bank on the Characteristic of Electrohydrodynamic Heat Transfer Enhancement: Low Reynolds Number

N. Kasayapanand School of Energy and Materials, King Mongkut's University of Technology, Thonburi, Bangkok, Thailand
,
J. Tiansuwan School of Energy and Materials, King Mongkut's University of Technology, Thonburi, Bangkok, Thailand
,
W. Asvapoositkul Department of Mechanical Engineering, King Mongkut's University of Technology, Thonburi, Bangkok, Thailand
,
N. Vorayos Department of Mechanical Engineering, Chiang Mai University, Chiang Mai, Thailand
&
T. Kiatsiriroat Department of Mechanical Engineering, Chiang Mai University, Chiang Mai, Thailand
Pages 229-242 | Published online: 17 Sep 2010

Citations (31)

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Milad Amiri & Dariusz Mikielewicz. (2023) Three-dimensional numerical investigation of hybrid nanofluids in chain microchannel under electrohydrodynamic actuator. Numerical Heat Transfer, Part A: Applications 83:10, pages 1146-1173.
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Alireza Rafiei-Siahestalkhi, Nima Amanifard, Hamed Mohaddes Deylami & Farid Dolati. (2022) Numerical Investigation of Electrohydrodynamic Forced Convection Heat Transfer from a Circular Cylinder. Heat Transfer Engineering 43:7, pages 638-654.
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Mohsen Sheikholeslami & Ali J. Chamkha. (2016) Electrohydrodynamic free convection heat transfer of a nanofluid in a semi-annulus enclosure with a sinusoidal wall. Numerical Heat Transfer, Part A: Applications 69:7, pages 781-793.
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T. Kiatsiriroat, W. Jiatrakul & A. Nuntaphan. (2007) Experimental Study on Heat Transfer Enhancement in Solar Air Heater by Electric Field. Heat Transfer Engineering 28:1, pages 38-41.
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Majid Molki, Tannaz Harirchian & Vijaya Lakshmi Chitta. (2006) An Improved Solution of Electrodynamics Equations for Corona Discharge Using Explicit Artificial Viscosity. Numerical Heat Transfer, Part B: Fundamentals 50:4, pages 315-332.
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Articles from other publishers (26)

R. Vishnu, R. Deepak Selvakumar & S. Vengadesan. (2023) Effect of electrode configuration on minichannel heat sink with EHD vortex generators. Applied Thermal Engineering, pages 122138.
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Mehran Shahbazi, Nima Amanifard & Hamed Mohaddes Deylami. (2023) Evaluating the optimum electric power consumption for forced convection of an EHD induced circulating flow through a circular tube: A numerical study. International Journal of Thermal Sciences 187, pages 108173.
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Sujoy Kumar Saha, Hrishiraj Ranjan, Madhu Sruthi Emani & Anand Kumar BhartiSujoy Kumar Saha, Hrishiraj Ranjan, Madhu Sruthi Emani & Anand Kumar Bharti. 2020. Electric Fields, Additives and Simultaneous Heat and Mass Transfer in Heat Transfer Enhancement. Electric Fields, Additives and Simultaneous Heat and Mass Transfer in Heat Transfer Enhancement 1 4 .
Mohsen Sheikholeslami. 2019. Applications of Nanofluid Transportation and Heat Transfer Simulation. Applications of Nanofluid Transportation and Heat Transfer Simulation 389 455 .
Mohsen Sheikholeslami. 2019. Application of Control Volume Based Finite Element Method (CVFEM) for Nanofluid Flow and Heat Transfer. Application of Control Volume Based Finite Element Method (CVFEM) for Nanofluid Flow and Heat Transfer 399 440 .
Mohsen Sheikholeslami & Davood Domairry Ganji. 2018. Applications of Semi Analytical Methods for Nanofluid Flow and Heat Transfer. Applications of Semi Analytical Methods for Nanofluid Flow and Heat Transfer 335 360 .
M. Sheikholeslami & K. Vajravelu. (2017) Forced convection heat transfer in Fe 3 O 4 -ethylene glycol nanofluid under the influence of Coulomb force. Journal of Molecular Liquids 233, pages 203-210.
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M. Sheikholeslami, T. Hayat, A. Alsaedi & S. Abelman. (2017) Numerical analysis of EHD nanofluid force convective heat transfer considering electric field dependent viscosity. International Journal of Heat and Mass Transfer 108, pages 2558-2565.
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M. Sheikholeslami & Houman B. Rokni. (2017) Influence of EFD viscosity on nanofluid forced convection in a cavity with sinusoidal wall. Journal of Molecular Liquids 232, pages 390-395.
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M. Sheikholeslami & Davood Domiri Ganji. (2017) Impact of electric field on nanofluid forced convection heat transfer with considering variable properties. Journal of Molecular Liquids 229, pages 566-573.
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M. Sheikholeslami. (2017) Influence of Coulomb forces on Fe3O4–H2O nanofluid thermal improvement. International Journal of Hydrogen Energy 42:2, pages 821-829.
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Amin Alami nia & Antonio Campo. (2016) Experimental study on EHD heat transfer enhancement from flush-mounted ribbons with different arrangements of wire electrodes in a channel. Heat and Mass Transfer 52:12, pages 2823-2831.
Crossref
H. Safarnia, M. Sheikholeslami & D. D. Ganji. (2016) Electrohydrodynamic nanofluid flow and forced convective heat transfer in a channel. The European Physical Journal Plus 131:4.
Crossref
M. Sheikholeslami, Soheil Soleimani & D.D. Ganji. (2016) Effect of electric field on hydrothermal behavior of nanofluid in a complex geometry. Journal of Molecular Liquids 213, pages 153-161.
Crossref
Mohsen Sheikholeslami & Rahmat Ellahi. (2015) Electrohydrodynamic Nanofluid Hydrothermal Treatment in an Enclosure with Sinusoidal Upper Wall. Applied Sciences 5:3, pages 294-306.
Crossref
Miad Yazdani & Jamal S. Yagoobi. (2014) Heat transfer enhancement of backstep flow by means of EHD conduction pumping. International Journal of Heat and Mass Transfer 73, pages 819-825.
Crossref
Milad Nahavandi & Arjomand Mehrabani‐Zeinabad. (2013) Numerical simulation of electrohydrodynamic effect on natural convection through a vertical enclosure channel. Asia-Pacific Journal of Chemical Engineering 8:5, pages 756-766.
Crossref
A. Alamgholilou & E. Esmaeilzadeh. (2012) Experimental investigation on hydrodynamics and heat transfer of fluid flow into channel for cooling of rectangular ribs by passive and EHD active enhancement methods. Experimental Thermal and Fluid Science 38, pages 61-73.
Crossref
Miad Yazdani & Jamal Seyed-Yagoobi. (2010) Heat Transfer Augmentation of Parallel Flows by Means of Electric Conduction Phenomenon in Macro- and Microscales. Journal of Heat Transfer 132:6.
Crossref
N. Kasayapanand & T. Kiatsiriroat. (2007) Optimized mass flux ratio of double-flow solar air heater with EHD. Energy 32:8, pages 1343-1351.
Crossref
Nat Kasayapanand. (2007) Numerical modeling of the effect of number of electrodes on natural convection in an EHD fluid. Journal of Electrostatics 65:7, pages 465-474.
Crossref
Nat Kasayapanand. (2007) Electrode arrangement effect on natural convection. Energy Conversion and Management 48:4, pages 1323-1330.
Crossref
N. Kasayapanand. (2006) Numerical study of electrode bank enhanced heat transfer. Applied Thermal Engineering 26:14-15, pages 1471-1480.
Crossref
N. Kasayapanand & T. Kiatsiriroat. (2006) Optimized electrode arrangement in solar air heater. Renewable Energy 31:4, pages 439-455.
Crossref
N. Kasayapanand & T. Kiatsiriroat. (2005) EHD enhanced heat transfer in wavy channel. International Communications in Heat and Mass Transfer 32:6, pages 809-821.
Crossref
Majid Molki & Kanthi Latha Bhamidipati. (2004) Enhancement of convective heat transfer in the developing region of circular tubes using corona wind. International Journal of Heat and Mass Transfer 47:19-20, pages 4301-4314.
Crossref

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