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Numerical Heat Transfer, Part A: Applications
An International Journal of Computation and Methodology
Volume 54, 2008 - Issue 12
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Original Articles

Analysis of Laminar Mixed Convective Heat Transfer in Horizontal Triangular Ducts

Prabal Talukdar Department of Mechanical Engineering, Indian Institute of Technology Delhi, New Delhi, IndiaCorrespondence[email protected]
&
Mitesh Shah Department of Mechanical Engineering, Indian Institute of Technology Delhi, New Delhi, India
Pages 1148-1168 | Received 13 Jun 2008, Accepted 23 Sep 2008, Published online: 18 Nov 2008

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Sheetal Kumar Jain, Ghanshyam Das Agrawal & Rohit Misra. (2021) Heat transfer augmentation using multiple gaps in arc-shaped ribs roughened solar air heater: an experimental study. Energy Sources, Part A: Recovery, Utilization, and Environmental Effects 43:24, pages 3345-3356.
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Abhishek Banerjee, A. Haji-Sheikh & Seiichi Nomura. (2012) Heat Transfer with Axial Conduction in Triangular Ducts Filled with Saturated Porous Materials. Numerical Heat Transfer, Part A: Applications 62:1, pages 1-24.
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M.M. Rahman, M.M. Billah, M. Hasanuzzaman, R. Saidur & N.A. Rahim. (2012) Heat Transfer Enhancement of Nanofluids in a Lid-Driven Square Enclosure. Numerical Heat Transfer, Part A: Applications 62:12, pages 973-991.
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Tien-Mo Shih, Martinus Arie & Derrick Ko. (2011) Literature Survey of Numerical Heat Transfer (2000–2009): Part II. Numerical Heat Transfer, Part A: Applications 60:11-12, pages 883-1096.
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Prabal Talukdar. (2011) Mixed Convection and Non-Gray Radiation in a Horizontal Rectangular Duct. Numerical Heat Transfer, Part A: Applications 59:3, pages 185-208.
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Articles from other publishers (21)

Rajneesh Kumar, Palvai Srinivas Reddy, Manjeet Kharub & Gaurav Bharadwaj. (2023) Application of triangular duct in solar-assisted air-heating system with surface roughness: a numerical investigation. Environmental Science and Pollution Research.
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L.B. Bharath Raju, G.R.K. Sastry, S.K. Gugulothu, K. Kesava Reddy & B. Deepanraj. (2023) Numerical investigation on fully-developed heat transfer augmentation and friction factor with dimple shaped intrusion and different radius of curvatures on triangular ducts. Applied Thermal Engineering 221, pages 119661.
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M. Bardalai, B. K. Das, I. A. Chaudhury, S. Kumar & P. P. Dutta. 2022. Control and Measurement Applications for Smart Grid. Control and Measurement Applications for Smart Grid 115 128 .
Rimi Sinha & Basant Singh Sikarwar. 2021. Advances in Fluid and Thermal Engineering. Advances in Fluid and Thermal Engineering 283 292 .
Sheetal Kumar JainGhanshyam Das AgrawalRohit MisraPrateek VermaSanjay RathoreDoraj Kamal Jamuwa. (2019) Performance Investigation of a Triangular Solar Air Heater Duct Having Broken Inclined Roughness Using Computational Fluid Dynamics. Journal of Solar Energy Engineering 141:6.
Crossref
Rajneesh Kumar, Sourabh Khurana, Anoop Kumar & Varun Goel. (2019) Effect of Dimple Intrusions and Curvature Radius of Rounded Corner Triangular Duct on Fluid Flow and Heat Transfer. Journal of Thermal Science and Engineering Applications 11:3.
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Varun Goel, Pankaj Guleria & Rajneesh Kumar. (2017) Effect of apex angle variation on thermal and hydraulic performance of roughened triangular duct. International Communications in Heat and Mass Transfer 86, pages 239-244.
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Rajneesh Kumar, Anoop Kumar & Varun Goel. (2016) Numerical Simulation of Flow Through Equilateral Triangular Duct Under Constant Wall Heat Flux Boundary Condition. Journal of The Institution of Engineers (India): Series C 98:3, pages 313-323.
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Rajneesh Kumar, Varun & Anoop Kumar. (2016) Thermal and fluid dynamic characteristics of flow through triangular cross-sectional duct: A review. Renewable and Sustainable Energy Reviews 61, pages 123-140.
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M.M. Shahmardan, M.H. Sedaghat & M. Norouzi. (2015) An Analytical Solution for Fully Developed Forced Convection in Triangular Ducts. Heat Transfer-Asian Research 44:6, pages 489-498.
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Oronzio Manca, Sergio Nardini, Daniele Ricci & Salvatore Tamburrino. (2015) A Numerical Analysis on Nanofluid Mixed Convection in Triangular Cross-Sectioned Ducts Heated by a Uniform Heat Flux. Advances in Mechanical Engineering 7:1, pages 292973.
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Nur Irmawati Om & H.A. Mohammed. (2014) Three-Dimensional Numerical Simulation of Mixed Convective Heat Transfer in a Horizontal Rectangular Duct Utilizing Nanofluids. Advanced Materials Research 1016, pages 738-742.
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Ajit Kumar Parwani, Prabal Talukdar & P.M.V. Subbarao. (2014) Estimation of transient boundary flux for a developing flow in a parallel plate channel. International Journal of Numerical Methods for Heat & Fluid Flow 24:3, pages 522-544.
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M.M. Billah, M.M. Rahman, M.A. Razzak, R. Saidur & S. Mekhilef. (2013) Unsteady buoyancy-driven heat transfer enhancement of nanofluids in an inclined triangular enclosure. International Communications in Heat and Mass Transfer 49, pages 115-127.
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M. Hasanuzzaman, M.M. Rahman, Hakan F. Öztop, N.A. Rahim & R. Saidur. (2012) Effects of Lewis number on heat and mass transfer in a triangular cavity. International Communications in Heat and Mass Transfer 39:8, pages 1213-1219.
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Ajit K. Parwani, Prabal Talukdar & P.M.V. Subbarao. (2012) Estimation of inlet temperature of a developing fluid flow in a parallel plate channel. International Journal of Thermal Sciences 57, pages 126-134.
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Oronzio Manca, Sergio Nardini, Daniele Ricci & Salvatore Tamburrino. (2015) Numerical Investigation on Mixed Convection in Triangular Cross-Section Ducts with Nanofluids. Advances in Mechanical Engineering 4, pages 139370.
Crossref
M.M. Rahman, M.M. Billah, A.T.M.M. Rahman, M.A. Kalam & A. Ahsan. (2011) Numerical investigation of heat transfer enhancement of nanofluids in an inclined lid-driven triangular enclosure. International Communications in Heat and Mass Transfer 38:10, pages 1360-1367.
Crossref
X.L. Cao, Z.H. Rao & S.M. Liao. (2011) Laminar convective heat transfer of supercritical CO2 in horizontal miniature circular and triangular tubes. Applied Thermal Engineering 31:14-15, pages 2374-2384.
Crossref
H.A. Mohammed, Nur Irmawati Om, N.H. Shuaib & R. Saidur. (2011) Heat transfer enhancement for combined convection flow of nanofluids in a vertical rectangular duct considering radiation effects. Heat Transfer-Asian Research 40:5, pages 448-463.
Crossref
John P. McHale & Suresh V. Garimella. (2010) Heat transfer in trapezoidal microchannels of various aspect ratios. International Journal of Heat and Mass Transfer 53:1-3, pages 365-375.
Crossref

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