... 05 2023 15 06 2023 17 07 2023 solar tower power plant direct steam generation thermal performance external receiver longitudinal rectangular fins computational fluid dynamics Solar Central Tower Power Plants (SCTPP) present a high potential for producing electricity...

... ) . Senapati et al. [ 24 ] conducted a computational fluid dynamics study to evaluate the impact of circular fins on free convection from a upright cylinder. It is also recommended that to get better natural convection, the perfect spacing between fins ranges is between 7 and 7.7 mm for Rayleigh number 10...

... heat storage unit cells with random and ordered substructure topology were created using synthetic tomography data. Full 3D thermal computational fluid dynamics (CFD) simulations with phase change modeling was performed on 1000+ such structures using effective heat capacity method and temperature...

... 2021 18 10 2021 multiphase flow gas-solids flow particle-laden flow particle distribution heat transfer computational fluid dynamics Particle-laden gas flows play an important role in many industries including defense, energy/power, and pharmaceuticals. Understanding...

... magnetic refrigeration Weiss mean field theory magnetocaloric effect magnetic regenerator computational fluid dynamics Magnetic refrigeration is considered as one of the most promising cooling technologies alternative to the traditional systems [ 1 ]. It operates based on the principle...

..., 2018. Assoc. Editor: Sara Rainieri. 23 04 2018 30 07 2018 Computational fluid dynamics Forced convection Thermal management in the engine compartment of construction machinery, which is required to provide high power output via a compact body, is an important issue...

...: Guihua Tang. 27 04 2018 17 07 2018 Aerospace Computational fluid dynamics Heat transfer enhancement Heat transfer Regenerative cooling, which uses fuel as coolant, is the most common way to cool the thermal structure of advanced propulsion systems such as rocket engine...

..., 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...

...; 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...

... Transfer Division of ASME for publication in the J OURNAL OF H EAT T RANSFER . Manuscript received December 11, 2017; final manuscript received May 1, 2018; published online July 23, 2018. Assoc. Editor: Guihua Tang. 11 12 2017 01 05 2018 Computational fluid dynamics Forced...

... 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...

... 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...

...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...

... No.: NPRP 6-1304-2-525. *Corresponding author: jorge.alvarado@tamu.edu Experimental Angled View S = 0.65 mm S = 1.2 mm S = 2 mm Numerical Side View Experimental Side View Bubbles Computational fluid dynamics Electronic cooling Experimental techniques Jets Wakes Impingement Cooling Particles...

... in a partially porous cavity [ 6 ]. Their results show that the insertion of a vertical solid partition reduces significantly the net heat transfer rate through the layer. Computational fluid dynamics Conduction Electronic cooling Energy systems Heat exchangers Heat transfer enhancement Natural...

... Computational fluid dynamics Forced convection Heat and mass transfer The drying process consumes a great amount of energy; consequently, the energy consumption reduction in the drying process has received much attention in recent years. The simulation of the process is vital to predict and optimize...

... 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...

...; 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...

... T RANSFER . Manuscript received August 4, 2017; final manuscript received March 22, 2018; published online May 25, 2018. Assoc. Editor: Zhixiong Guo. 04 08 2017 22 03 2018 Computational fluid dynamics Evaporation Experimental techniques Heat transfer enhancement Nuclear heat...

... 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...