1-20 of 144
Keywords: computational fluid dynamics
Close
Follow your search
Access your saved searches in your account

Would you like to receive an alert when new items match your search?
Close Modal
Sort by
Journal Articles
Article Type: Research-Article
J. Heat Transfer. December 2021, 143(12): 121801.
Paper No: HT-21-1270
Published Online: October 18, 2021
... computationally feasible for these flows [ 22 – 27 ]. multiphase flow gas-solids flow particle-laden flow particle distribution heat transfer computational fluid dynamics 21 04 2021 04 09 2021 18 10 2021 This work is in part a work of the U.S. Government. ASME disclaims all...
Journal Articles
Article Type: Research-Article
J. Heat Transfer. September 2020, 142(9): 092103.
Paper No: HT-20-1036
Published Online: July 8, 2020
... durations of 1.2 s, 2.2 s, and 4.2 s, respectively. 13 01 2020 04 05 2020 08 07 2020 magnetic refrigeration Weiss mean field theory magnetocaloric effect magnetic regenerator computational fluid dynamics Magnetic refrigeration is considered as one of the most promising...
Journal Articles
Article Type: Research-Article
J. Heat Transfer. December 2018, 140(12): 122801.
Paper No: HT-18-1249
Published Online: September 5, 2018
... of ASME for publication in the J OURNAL OF H EAT T RANSFER . Manuscript received April 23, 2018; final manuscript received July 30, 2018; published online September 5, 2018. Assoc. Editor: Sara Rainieri. 23 04 2018 30 07 2018 Computational fluid dynamics Forced convection...
Journal Articles
Article Type: Research-Article
J. Heat Transfer. December 2018, 140(12): 122402.
Paper No: HT-18-1272
Published Online: September 5, 2018
Journal Articles
Article Type: Research-Article
J. Heat Transfer. December 2018, 140(12): 121701.
Paper No: HT-18-1048
Published Online: August 28, 2018
..., in comparison to model-1 at lower Reynolds number (i.e., 3600). Computational fluid dynamics Forced convection Heat exchangers Heat transfer enhancement The triangular shape flow passage is popular in many applications (both domestic and industrial) such as solar air heaters [ 1 , 2 ], compact...
Journal Articles
Article Type: Research-Article
J. Heat Transfer. November 2018, 140(11): 112501.
Paper No: HT-18-1075
Published Online: July 23, 2018
...Banjara Kotresha; N Gnanasekaran Two-dimensional computational fluid dynamics simulations of mixed convection heat transfer through aluminum metal foams partially filled in a vertical channel are carried out numerically. The objective of the present study is to quantify the effect of metal foam...
Journal Articles
Article Type: Discussions
J. Heat Transfer. November 2018, 140(11): 115501.
Paper No: HT-17-1662
Published Online: July 23, 2018
...; published online July 23, 2018. Assoc. Editor: George S. Dulikravich. 06 11 2017 04 06 2018 Computational fluid dynamics Heat and mass transfer In the discussed paper, the transformed momentum and energy equations that have been solved are Eqs. (16)–(18) in Ref. [ 1 ]. In addition...
Journal Articles
Article Type: Research-Article
J. Heat Transfer. November 2018, 140(11): 112001.
Paper No: HT-17-1641
Published Online: July 23, 2018
... in the J OURNAL OF H EAT T RANSFER . Manuscript received October 30, 2017; final manuscript received June 19, 2018; published online July 23, 2018. Assoc. Editor: Ali Khounsary. 30 10 2017 19 06 2018 Combustion Computational fluid dynamics Energy systems Heat and mass transfer...
Journal Articles
Article Type: Research-Article
J. Heat Transfer. November 2018, 140(11): 112002.
Paper No: HT-17-1746
Published Online: July 23, 2018
Journal Articles
Article Type: Research-Article
J. Heat Transfer. November 2018, 140(11): 111701.
Paper No: HT-17-1529
Published Online: July 23, 2018
... in electrical machines. Our analysis focuses on the local convective heat transfer over the internal surface of the vents under a turbulent mass flow rate. To model the cooling installation in this region, computational fluid dynamics simulations and an experiment using particle image velocimetry (PIV...
Journal Articles
Article Type: Photo Gallery
J. Heat Transfer. August 2018, 140(8): 080901.
Paper No: HT-18-1274
Published Online: July 2, 2018
... role in double droplet train impingement cooling. This work was supported by the National Priority Research Program of the Qatar National Research Fund, Grant No.: NPRP 6-1304-2-525. 1 Corresponding author. 27 04 2018 09 05 2018 Bubbles Computational fluid dynamics Electronic...
Journal Articles
Article Type: Research-Article
J. Heat Transfer. August 2018, 140(8): 082802.
Paper No: HT-17-1256
Published Online: June 29, 2018
... on the basis of dynamic fields (streamlines and velocity), isotherms, and the Nusselt number reflecting the rate of heat transfer in fluid and porous media. 08 05 2017 13 11 2017 Computational fluid dynamics Conduction Electronic cooling Energy systems Heat exchangers Heat transfer...
Journal Articles
Article Type: Research-Article
J. Heat Transfer. October 2018, 140(10): 101201.
Paper No: HT-17-1471
Published Online: June 18, 2018
... in risk analysis. In this paper, fire interaction of two high velocity (>10 m/s) jet fires is investigated using computational fluid dynamics (CFD) techniques. Different radiation models are analyzed and validated by experimental data from the literature. Based on the simulation result, the merging...
Journal Articles
Article Type: Research-Article
J. Heat Transfer. October 2018, 140(10): 102009.
Paper No: HT-17-1751
Published Online: June 18, 2018
... to the equilibrium temperature. These numerical researches focused on the drying of moist objects used in the computational fluid dynamics such as finite difference and finite element methods. Recently, the lattice Boltzmann method (LBM) was used to simulate transport phenomena in the drying process. Shokouhmand...
Journal Articles
Article Type: Discussions
J. Heat Transfer. October 2018, 140(10): 105501.
Paper No: HT-17-1661
Published Online: June 11, 2018
...; published online June 11, 2018. Assoc. Editor: George S. Dulikravich. 06 11 2017 22 05 2018 Computational fluid dynamics Heat and mass transfer In the discussed paper, the momentum, energy equation, and the concentration of the chemical species A and B equations are as follows...
Journal Articles
Article Type: Research-Article
J. Heat Transfer. September 2018, 140(9): 092502.
Paper No: HT-17-1448
Published Online: May 25, 2018
... 08 2017 22 03 2018 Computational fluid dynamics Evaporation Experimental techniques Heat transfer enhancement Nuclear heat transfer Thermophysical properties Boiling Condensation Boiling Condensation Supercritical fluid (SCF) is a substance normally associated with high...
Journal Articles
Article Type: Research-Article
J. Heat Transfer. September 2018, 140(9): 092501.
Paper No: HT-17-1485
Published Online: May 22, 2018
... Narain. 21 08 2017 14 03 2018 Computational fluid dynamics Heat transfer enhancement Natural convection Thermal systems Mixed convection References [1] Japikse , D. , 1973 , “ Advances in Thermo Syphon Technology ,” Advances in Heat Transfer , Vol. 9 , Academic...
Includes: Supplementary data
Journal Articles
Article Type: Technical Briefs
J. Heat Transfer. September 2018, 140(9): 094502.
Paper No: HT-17-1358
Published Online: May 22, 2018
... Khounsary. 20 06 2017 07 03 2018 Computational fluid dynamics Heat and mass transfer Recently, a growing interest in microchannel fluid mechanics and heat transfer has emerged because of possible cooling applications in space systems, manufacturing and material processing...
Journal Articles
Article Type: Research-Article
J. Heat Transfer. September 2018, 140(9): 092201.
Paper No: HT-17-1461
Published Online: May 22, 2018
... = constant CFD = computational fluid dynamics CFL = Courant–Friedrichs–Lewy ( U Δ t / Δ x ) D = hole diameter, m D c 1 = diameter of the coolant inlet, m DDES = delayed detached eddy simulation DES = detached eddy simulation DR = density...
Includes: Supplementary data
Journal Articles
Article Type: Research-Article
J. Heat Transfer. September 2018, 140(9): 092402.
Paper No: HT-17-1492
Published Online: May 22, 2018
...] Holland , D. M. , Matthew , K. , Borg , D. , Lockerby , A. , and Reese , J. M. , 2015 , “ Enhancing Nano-Scale Computational Fluid Dynamics With Molecular Pre-Simulations: Unsteady Problems and Design Optimisation ,” Comput. Fluids , 115 , pp. 46 – 53 . 10.1016/j.compfluid...