Grashof_number: Grashof Number
In trenchproject/TrenchR: Tools for Microclimate and Biophysical Ecology
Grashof_number R Documentation
Grashof Number
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. The Grashof Number is estimated as the ratio of a buoyant force times an inertial force to the square of a viscous force \insertCiteCampbell1998TrenchR.
Usage
Grashof_number(T_a, T_g, D, nu)
Arguments
T_a
numeric Air temperature (C).
T_g
numeric ground (surface) temperature (C).
D
numeric characteristic dimension (e.g., body diameter) (meters).
nu
numeric the kinematic viscosity, 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_Gates(),
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(T_a = 30,
T_g = 35,
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 | R Documentation |
Grashof Number
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. The Grashof Number is estimated as the ratio of a buoyant force times an inertial force to the square of a viscous force \insertCiteCampbell1998TrenchR.
Usage
Grashof_number(T_a, T_g, D, nu)
Arguments
T_a |
|
T_g |
|
D |
|
nu |
|
Value
numeric Grashof number.
References
\insertAllCitedSee Also
Other biophysical models:
Grashof_number_Gates(),
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(T_a = 30,
T_g = 35,
D = 0.001,
nu = 1.2)
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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