Top Buy Now References
Home
>
Section
>
Chapter

Convective heat transfer studies on helically corrugated tubes with spiraled rod inserts using Ti O2/di water nanofluids

Anbu, S.; Venkatachalapathy, S.; Suresh, S.

Journal of Thermal Analysis and Calorimetry 137(3): 849-864

2019

ISSN/ISBN: 1388-6150
DOI: 10.1007/s10973-019-08008-y
Accession: 082697983

Full-Text Article emailed within 0-6 h
Payments are secure & encrypted
Powered by Stripe
Powered by PayPal

References

Naphon, P.; Wiriyasart, S. 2018: Pulsating flow and magnetic field effects on the convective heat transfer of Ti O2-water nanofluids in helically corrugated tube International Journal of Heat and Mass Transfer 125: 1054-1060
Rainieri, S.; Bozzoli, F.; Cattani, L.; Pagliarini, G. 2013: Compound convective heat transfer enhancement in helically coiled wall corrugated tubes International Journal of Heat and Mass Transfer 59: 353-362
Khairul, M.A.; Hossain, A.; Saidur, R.; Alim, M.A. 2014: Prediction of heat transfer performance of CuO/water nanofluids flow in spirally corrugated helically coiled heat exchanger using fuzzy logic technique Computers and Fluids 100: 123-129
Ardekani, A.M.; Kalantar, V.; Heyhat, M.M. 2019: Experimental study on the flow and heat transfer characteristics of Ag/water and Si O2/water nanofluids flows in helically coiled tubes Journal of Thermal Analysis and Calorimetry 137(3): 779-790
Ahmad Ali Rabienataj, D.A.R.Z.I.; Farhadi, M.; Sedighi, K. 2014: Experimental investigation of convective heat transfer and friction factor of Al2O3/water nanofluid in helically corrugated tube Experimental Thermal and Fluid Science 57: 188-199
Rabienataj Darzi, A.A.; Farhadi, M.; Sedighi, K.; Aallahyari, S.; Mojtaba Aghajani, D.E.L.A.V.A.R. 2013: Turbulent heat transfer of Al2O3―water nanofluid inside helically corrugated tubes: Numerical study International Communications in Heat and Mass Transfer 41: 68-75
Anbu, S.; Arunprasad, J.; Kalidoss, P.; Sivakumar, C. 2023: Comparative studies on convective heat transfer behaviour of nanofluids under turbulent flow with inserts International Journal of Ambient Energy 44(1): 892-903
Rabienataj Darzi, A.A.; Farhadi, M.; Sedighi, K.; Shafaghat, R.; Zabihi, K. 2012: Experimental investigation of turbulent heat transfer and flow characteristics of SiO2/water nanofluid within helically corrugated tubes International Communications in Heat and Mass Transfer 39(9): 1425-1434
Suresh, S.; Selvakumar, P.; Chandrasekar, M.; Srinivasa Raman, V. 2012: Experimental studies on heat transfer and friction factor characteristics of Al2O3/water nanofluid under turbulent flow with spiraled rod inserts Chemical Engineering and Processing 53: 24-30
Davarnejad, R.; Kheiri, M. 2015: Numerical comparison of turbulent heat transfer and flow characteristics of SiO2/water nanofluid within helically corrugated tubes and plain tube International Journal of Engineering, Transactions A: Basics 28(10): 1148-1155
Akbarzadeh, S.; Valipour, M.S. 2020: Experimental study on the heat transfer enhancement in helically corrugated tubes under the non-uniform heat flux Journal of Thermal Analysis and Calorimetry 140(3): 1611-1623
Van Cauwenberge, D.J.; Dedeyne, J.N.; Van Geem, K.M.; Marin, G.B.; Floré, J. 2017: Numerical and experimental evaluation of heat transfer in helically corrugated tubes AIChE Journal 64(5): 1702-1713
Liu, H.; Hu, Q.; Peng, W.; Sokolova, E.A.; Sadeghi, K.; Sun, Q.; Wang, J. 2026: Experimental study on heat transfer and flow characteristics inside helically corrugated tubes in intermediate heat exchangers Progress in Nuclear Energy 191: 106019
Wang, W.; Zhang, Y.; Li, Y.; Han, H.; Li, B. 2018: Multi-objective optimization of turbulent heat transfer flow in novel outward helically corrugated tubes Applied Thermal Engineering 138: 795-806
Wang, W.; Zhang, Y.; Liu, J.; Li, B.; Sundén, B. 2019: Large eddy simulation of turbulent flow and heat transfer in outward transverse and helically corrugated tubes Numerical Heat Transfer, Part A: Applications 75(7): 456-468
Wang, W.; Zhang, Y.; Liu, J.; Wu, Z.; Li, B.; Sundén, B. 2018: Entropy generation analysis of fully-developed turbulent heat transfer flow in inward helically corrugated tubes Numerical Heat Transfer, Part A: Applications 73(11): 788-805
Safikhani, H.; Eiamsa-ard, S. 2016: Pareto based multi-objective optimization of turbulent heat transfer flow in helically corrugated tubes Applied Thermal Engineering 95: 275-280
Zheng, Z.-Q.; Huang, X.-Z.; Jiang, Z.-Y.; Miao, X.-L. 2024: Flow and Heat Transfer Characteristics and Structure Optimization of Helically Corrugated Tubes Based on Kriging Model Dongbei Daxue Xuebao/Journal of Northeastern University 45(7): 992-1001
Wang, W.; Zhang, Y.; Li, B.; Han, H.; Gao, X. 2017: Influence of geometrical parameters on turbulent flow and heat transfer characteristics in outward helically corrugated tubes Energy Conversion and Management 136: 294-306
Zimparov, V. 2004: Prediction of friction factors and heat transfer coefficients for turbulent flow in corrugated tubes combined with twisted tape inserts. Part 2: Heat transfer coefficients International Journal of Heat and Mass Transfer 47(2): 385-393