Grashof_number_Gates: Grashof Number as in Gates (1980)
In trenchproject/TrenchR: Tools for Microclimate and Biophysical Ecology
Grashof_number_Gates R Documentation
Grashof Number as in Gates (1980)
Description
The function estimates the Grashof Number, which describes the ability of a parcel of fluid warmer or colder than the surrounding fluid to rise against or fall with the attractive force of gravity \insertCiteGates1980TrenchR. The Grashof Number is estimated as the ratio of a buoyant force times an inertial force to the square of a viscous force.
Usage
Grashof_number_Gates(T_a, T_g, beta, D, nu)
Arguments
T_a
numeric Air temperature (C).
T_g
numeric Ground (surface) temperature (C).
beta
numeric coefficient of volumetric thermal expansion, beta = 3.67 x 10-3 C-1 in air and 41.9 x 10-4 C-1 in water.
D
numeric is characteristic dimension (e.g., body diameter) (m)
nu
numeric is the kinematic viscosity, the ratio of dynamic viscosity to density of the fluid (m2 s-1); can calculate from DRYAIR or WETAIR.
Value
numeric Grashof number.
References
\insertAllCited
See Also
Other biophysical models:
Grashof_number(),
Nusselt_from_Grashof(),
Nusselt_from_Reynolds(),
Nusselt_number(),
Prandtl_number(),
Qconduction_animal(),
Qconduction_substrate(),
Qconvection(),
Qemitted_thermal_radiation(),
Qevaporation(),
Qmetabolism_from_mass_temp(),
Qmetabolism_from_mass(),
Qnet_Gates(),
Qradiation_absorbed(),
Qthermal_radiation_absorbed(),
Reynolds_number(),
T_sky(),
Tb_CampbellNorman(),
Tb_Gates2(),
Tb_Gates(),
Tb_butterfly(),
Tb_grasshopper(),
Tb_limpetBH(),
Tb_limpet(),
Tb_lizard_Fei(),
Tb_lizard(),
Tb_mussel(),
Tb_salamander_humid(),
Tb_snail(),
Tbed_mussel(),
Tsoil(),
actual_vapor_pressure(),
boundary_layer_resistance(),
external_resistance_to_water_vapor_transfer(),
free_or_forced_convection(),
heat_transfer_coefficient_approximation(),
heat_transfer_coefficient_simple(),
heat_transfer_coefficient(),
saturation_vapor_pressure(),
saturation_water_vapor_pressure()
Examples
Grashof_number_Gates(T_a = 30,
T_g = 35,
beta = 0.00367,
D = 0.001,
nu = 1.2)
trenchproject/TrenchR documentation built on Oct. 10, 2023, 10:12 p.m.
R Package Documentation
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| Grashof_number_Gates | R Documentation |
Grashof Number as in Gates (1980)
Description
The function estimates the Grashof Number, which describes the ability of a parcel of fluid warmer or colder than the surrounding fluid to rise against or fall with the attractive force of gravity \insertCiteGates1980TrenchR. The Grashof Number is estimated as the ratio of a buoyant force times an inertial force to the square of a viscous force.
Usage
Grashof_number_Gates(T_a, T_g, beta, D, nu)
Arguments
T_a |
|
T_g |
|
beta |
|
D |
|
nu |
|
Value
numeric Grashof number.
References
\insertAllCitedSee Also
Other biophysical models:
Grashof_number(),
Nusselt_from_Grashof(),
Nusselt_from_Reynolds(),
Nusselt_number(),
Prandtl_number(),
Qconduction_animal(),
Qconduction_substrate(),
Qconvection(),
Qemitted_thermal_radiation(),
Qevaporation(),
Qmetabolism_from_mass_temp(),
Qmetabolism_from_mass(),
Qnet_Gates(),
Qradiation_absorbed(),
Qthermal_radiation_absorbed(),
Reynolds_number(),
T_sky(),
Tb_CampbellNorman(),
Tb_Gates2(),
Tb_Gates(),
Tb_butterfly(),
Tb_grasshopper(),
Tb_limpetBH(),
Tb_limpet(),
Tb_lizard_Fei(),
Tb_lizard(),
Tb_mussel(),
Tb_salamander_humid(),
Tb_snail(),
Tbed_mussel(),
Tsoil(),
actual_vapor_pressure(),
boundary_layer_resistance(),
external_resistance_to_water_vapor_transfer(),
free_or_forced_convection(),
heat_transfer_coefficient_approximation(),
heat_transfer_coefficient_simple(),
heat_transfer_coefficient(),
saturation_vapor_pressure(),
saturation_water_vapor_pressure()
Examples
Grashof_number_Gates(T_a = 30,
T_g = 35,
beta = 0.00367,
D = 0.001,
nu = 1.2)
R Package Documentation
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Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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