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Profundizar en los temas de investigación en los que Jesús Fernando Hinojosa Palafox está activo. Estas etiquetas de temas provienen de las obras de esta persona. Juntos, forma una huella digital única.
Ingeniería y ciencia de los materiales
Natural convection
Heat transfer
Heat radiation
Temperature
Solar control films
Heat transfer coefficients
Heat flux
Turbulence models
Computational fluid dynamics
Nusselt number
Hot Temperature
Mixed convection
Finite volume method
Flow patterns
Solar radiation
Fluids
Air
Thermoanalysis
Concrete blocks
Temperature distribution
Enclosures
Towers
Air intakes
Solar concentrators
Steam
Fluxes
Photodegradation
Laminar flow
Parabolic antennas
Conservation
Thermocouples
Radiative transfer
Numerical models
Dyes
Enthalpy
Flow of water
Ventilation
Thermal gradients
Convection
Degradation
Composite materials
Solar system
Forced convection
Heat generation
Computer simulation
Aluminum
Glass
Heat losses
Momentum
Impurities
Física y astronomía
free convection
cavities
thermal radiation
heat transfer
Rayleigh number
heat transfer coefficients
turbulence models
heat flux
Nusselt number
computational fluid dynamics
temperature profiles
finite volume method
fluids
air
temperature gradients
emissivity
convection
inclination
turbulent heat transfer
temperature
towers
enclosure
turbogenerators
solar radiation
rooms
fins
heliostats
Boussinesq approximation
temperature distribution
receivers
heat sources
computer programs
steam
solar system
flat plates
radiative transfer
simulation
conservation equations
continuity equation
outlets
laminar flow
parallelepipeds
flow distribution
entropy
SAS
tubes
Compuestos químicos
Natural convection
Heat transfer
Heat flux
Heat transfer coefficients
Temperature
Turbulence models
clinoptilolite
Mixed convection
Heat radiation
Nusselt number
Steam
Air
Computational fluid dynamics
Fluids
Solar radiation
Finite volume method
Photodegradation
Temperature distribution
Hot Temperature
Flow patterns
Concrete blocks
Solar concentrators
Degradation
Composite materials
Air intakes
Enthalpy
Heat generation
Towers
Laminar flow
Ventilation
Convection
Conservation
Coloring Agents
Impurities
Mathematical models
Thermocouples
Characterization (materials science)
Numerical models
Entropy
Reynolds number
Air conditioning
Ducts
Fluxes
Solar control films
Thermal gradients
Pipe
Coatings
Turbulent flow
