1 |
Tube-side heat transfer enhancement in flat-plate liquid solar collectors with wire coil inserts Huertas A, Solano JP, Garcia A, Herrero-Martin R, Perez-Garcia J Experimental Heat Transfer, 30(1), 1, 2017 |
2 |
Experimental heat transfer, friction factor and effectiveness analysis of Fe3O4 nanofluid flow in a horizontal plain tube with return bend and wire coil inserts Sundar LS, Bhramara P, Kumar NTR, Singh MK, Sousa ACM International Journal of Heat and Mass Transfer, 109, 440, 2017 |
3 |
Thermo-Hydraulic Behavior Modeling of Passive Heat Transfer Enhancement Techniques Using a Soft Computing Approach Khalaj AH, Chaibakhsh A, Sayyaadi H, Nasr MRJ Chemical Engineering Communications, 201(1), 53, 2014 |
4 |
Heat transfer enhancement of laminar and transitional Newtonian and non-Newtonian flows in tubes with wire coil inserts Martinez DS, Garcia A, Solano JP, Viedma A International Journal of Heat and Mass Transfer, 76, 540, 2014 |
5 |
Simulation of an enhanced flat-plate solar liquid collector with wire-coil insert devices Martin RH, Perez-Garcia J, Garcia A, Garcia-Soto FJ, Lopez-Galiana E Solar Energy, 85(3), 455, 2011 |
6 |
Enhancement of laminar and transitional flow heat transfer in tubes by means of wire coil inserts Garcia A, Solano JP, Vicente PG, Viedma A International Journal of Heat and Mass Transfer, 50(15-16), 3176, 2007 |
7 |
Experimental study of heat transfer enhancement with wire coil inserts in laminar-transition-turbulent regimes at different Prandtl numbers Garcia A, Vicente PG, Viedma A International Journal of Heat and Mass Transfer, 48(21-22), 4640, 2005 |