Solar Radiation and Heat flow through glazing
Numerical studies with CFD approach of the heat and air flow transfers combined with solar radiation in double skin facades
6
Efficient Energy Use in Buildings by Means of Water Flow Glazing and Ground Source Heat Pump
5
PERFORMANCE EVALUATION OF WATER-FLOW WINDOW GLAZING
21
Efficiency Enhancement of a Dual-axis Solar PV Panel Tracker Using Water-Flow Double Glazing Technique
16
Empirical Validation of Parameter Studies on Heat Transfer through Glazing System Using Window 6.3 Software
7
Heat transfer in an unsteady MHD flow through an infinite annulus with radiation
17
ELECTRICITY GENERATION THROUGH SOLAR RADIATION
9
EFFECT OF MASS TRANSFER ON UNSTEADY MHD OSCILLATORY FLOW THROUGH A POROUS MEDIUM WITH SLIP FLOW REGION AND HEAT RADIATION
15
Effect of Radiation on Free Convection Heat and Mass Transfer Flow through Porous Medium in a Vertical Channel with Heat Absorption/ Generation
9
Heat Flow Analysis Of Solar Assisted Drying Machine
24
Temperature and Heat Flux Distributions through Single and Double Window Glazing Nongray Calculation
6
Influence of Heat Generation and Radiation on MHD Flow of Natural Convection
6
Research on high-temperature heat receiver in concentrated solar radiation system
8
Hydromagnetic Oscillatory Flow and Heat Transfer in Dusty Viscoelastic Fluid Through Porous Medium in an Inclined Channel in The Presence of Thermal Radiation and Heat Sink
12
Enhance of heat transfer on unsteady Hiemenz flow of nanofluid over a porous wedge with heat source/sink due to solar energy radiation with variable stream condition
9
Heat and mass transfer analysis for the MHD flow of nanofluid with radiation absorption
13
Free Convective Visco Elastic MHD Flow and Heat Transfer with Radiation
9
STUDY ON VISCO-ELASTIC FLUID AND HEAT RADIATION ON THE FLOW OF WALTER’S LIQUID
8
The radiation heat flow field analysis of water medium in Heating Furnace
7
Thermal Radiation of Hydromagnetic Stagnation Gravity Driven Flow through a Porous Confined Cylinder with Non Uniform Heat Source
17