Teq: Estimates equivalent temperature.
In gtatters/Thermimage: Thermal Image Analysis
Description
Usage
Arguments
Author(s)
References
Examples
Description
Estimates equivalent black-body temperature of an object. Analagous to other measures of operative temperature
Usage
1
2
Arguments
Ts
Surface temperature (degrees Celsius). Default value is 30. Not used in this calculation but kept for similar structure to other functions in package.
Ta
Air temperature (degrees Celsius). Default value is 20. Used to estimate ground temperature if Tg is unavailable.
Tg
Ground temperature (degrees Celsius). Default value is NULL, but a measured Tg can be substituted or estimated with other functions. Used in estimating long wave radiation from the ground.
RH
Relative humidity (fraction 0 to 1). Default value is 0.5. Used in call to Ld() to determine incoming radiation.
E
Emissivity (fraction 0 to 1) of the object absorbing longwave radiation. According to Kirschoff's law, emissivity = absorptivity. Absorptivity is multiplied by the average of the incoming longwave radiation to estimate absorbed radiation.
rho
Reflectivity (fraction 0 to 1) of the object absorbing solar radiation. Used to modify absorbed solar energy. Default is 0.1.
cloud
Fractional cloud cover (fraction from 0 to 1). Used in call to Ld() to determine incoming radiation. Default is 0.
SE
Solar energy (W/m2), usually measured. Default is 100.
V
Air velocity (m/s). Default value is 1.
L
Characteristic dimension (m) of object. Usually the vertical dimension (i.e. height). Default value is 1.
type
"forced" or "free" - to calculate convection coefficient for either forced or free convection. Default value is "forced"
Author(s)
Glenn J Tattersall
References
Mahoney, S.A. and King, J. R. (1977). The use of the equivalent black-body temperautre in the thermal energetics of small birds. J Thermal Biol. 2: 115-120
Examples
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## The function is currently defined as
function (Ts = 30, Ta = 25, Tg = NULL, RH = 0.5, E = 0.96, rho = 0.1,
cloud = 0, SE = 0, V = 1, L = 0.1, type = "forced")
{
if (type == "forced")
k <- 0.7 * 310
if (type == "free")
k <- 310
rr <- airdensity(Ta) * airspecificheat(Ta)/(4 * E * StephBoltz() *
(Ta + 273.15)^3)
ra <- k * (L/V)^0.5
re <- 1/(1/ra + 1/rr)
Rni <- qabs(Ta = Ta, Tg = Tg, RH = RH, E = E, rho = rho,
cloud = cloud, SE = SE) - StephBoltz() * E * (Ta + 273.15)^4
Teq <- Ta + Rni * re/(airdensity(Ta) * airspecificheat(Ta))
Teq
}
# For detailed examples and explanations, see:
# https://github.com/gtatters/Thermimage/blob/master/HeatTransferCalculations.md
gtatters/Thermimage documentation built on Sept. 28, 2021, 2:02 p.m.
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Description Usage Arguments Author(s) References Examples
Description
Estimates equivalent black-body temperature of an object. Analagous to other measures of operative temperature
Usage
1 2 |
Arguments
Ts |
Surface temperature (degrees Celsius). Default value is 30. Not used in this calculation but kept for similar structure to other functions in package. |
Ta |
Air temperature (degrees Celsius). Default value is 20. Used to estimate ground temperature if Tg is unavailable. |
Tg |
Ground temperature (degrees Celsius). Default value is NULL, but a measured Tg can be substituted or estimated with other functions. Used in estimating long wave radiation from the ground. |
RH |
Relative humidity (fraction 0 to 1). Default value is 0.5. Used in call to Ld() to determine incoming radiation. |
E |
Emissivity (fraction 0 to 1) of the object absorbing longwave radiation. According to Kirschoff's law, emissivity = absorptivity. Absorptivity is multiplied by the average of the incoming longwave radiation to estimate absorbed radiation. |
rho |
Reflectivity (fraction 0 to 1) of the object absorbing solar radiation. Used to modify absorbed solar energy. Default is 0.1. |
cloud |
Fractional cloud cover (fraction from 0 to 1). Used in call to Ld() to determine incoming radiation. Default is 0. |
SE |
Solar energy (W/m2), usually measured. Default is 100. |
V |
Air velocity (m/s). Default value is 1. |
L |
Characteristic dimension (m) of object. Usually the vertical dimension (i.e. height). Default value is 1. |
type |
"forced" or "free" - to calculate convection coefficient for either forced or free convection. Default value is "forced" |
Author(s)
Glenn J Tattersall
References
Mahoney, S.A. and King, J. R. (1977). The use of the equivalent black-body temperautre in the thermal energetics of small birds. J Thermal Biol. 2: 115-120
Examples
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 | ## The function is currently defined as
function (Ts = 30, Ta = 25, Tg = NULL, RH = 0.5, E = 0.96, rho = 0.1,
cloud = 0, SE = 0, V = 1, L = 0.1, type = "forced")
{
if (type == "forced")
k <- 0.7 * 310
if (type == "free")
k <- 310
rr <- airdensity(Ta) * airspecificheat(Ta)/(4 * E * StephBoltz() *
(Ta + 273.15)^3)
ra <- k * (L/V)^0.5
re <- 1/(1/ra + 1/rr)
Rni <- qabs(Ta = Ta, Tg = Tg, RH = RH, E = E, rho = rho,
cloud = cloud, SE = SE) - StephBoltz() * E * (Ta + 273.15)^4
Teq <- Ta + Rni * re/(airdensity(Ta) * airspecificheat(Ta))
Teq
}
# For detailed examples and explanations, see:
# https://github.com/gtatters/Thermimage/blob/master/HeatTransferCalculations.md
|
R Package Documentation
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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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