Qevaporation | R Documentation |
The function estimates heat loss associated with evaporative water loss for an amphibian \insertCiteSpotila1992TrenchR or lizard. The lizard estimation is based on empirical measurements in \insertCitePorter1973;textualTrenchR).
Qevaporation(A, T_b, taxon, e_s = NA, e_a = NA, hp = NA, H = NA, r_i = NA)
A |
|
T_b |
|
taxon |
|
e_s |
|
e_a |
|
hp |
|
H |
|
r_i |
|
numeric
evaporative heat loss (W).
Other biophysical models:
Grashof_number_Gates()
,
Grashof_number()
,
Nusselt_from_Grashof()
,
Nusselt_from_Reynolds()
,
Nusselt_number()
,
Prandtl_number()
,
Qconduction_animal()
,
Qconduction_substrate()
,
Qconvection()
,
Qemitted_thermal_radiation()
,
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()
Qevaporation(A = 0.1,
T_b = 293,
taxon = "amphibian",
e_s = 0.003,
e_a = 0.002,
hp = 0.5,
H = 20,
r_i = 50)
Qevaporation(A = 0.1,
T_b = 293,
taxon = "lizard")
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