Te: Operative temperature estimate.
In gtatters/Thermimage: Thermal Image Analysis

Description Usage Arguments Details Author(s) References See Also Examples

Operative temperature (degrees Celsius) is a measure of the effective temperature an object/animal will be given a specific radiative and convective environment. Basal heat production and evaporative heat loss are assumed to balance each other out.

1 2	Te(Ts=30, Ta=25, Tg=NULL, RH=0.5, E=0.96, rho=0.1, cloud=0, SE=0, V=1, L=0.1, c=NULL, n=NULL, a=NULL, b=NULL, m=NULL, type="forced", shape="hcylinder")

`Ts`	Surface temperature (degrees Celsius). Default value is 30. Used in free convection calculation.
`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.
`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.
`c`	coefficient used in forced convection (see Blaxter, 1986, default value is 0.24)
`n`	coefficient used in forced convection (see Blaxter, 1986, default value is 0.6)
`a`	coefficient used in free convection (see Gates, 2003, default value is 1)
`b`	coefficient used in free convection (0.58 upright cylinder, 0.48 flat cylinder, default value is 0.58)
`m`	coefficient used in free convection (0.25 laminar flow, default value is 0.25)
`type`	"forced" or "free" - to calculate convection coefficient for either forced or free convection. Default value is "forced"
`shape`	"sphere", "hplate", "vplate", "hcylinder", "vcylinder" to denote shape and orientation. h=horizontal, v=vertical. Default shape is "hcylinder"

Estimates operative temperature according to calculations in Gates (2003) and Angiletta ()

Glenn J Tattersall

Angiletta, M. J. 2009. Thermal Adaptation: A Theoretical and Empirical Synthesis. Oxford University Press, Oxford, UK, 304 pp. Gates, D.M. 2003. Biophysical Ecology. Courier Corporation, 656 pp.

qabs hconv

# Example

Ts<-40
Ta<-30
SE<-seq(0,1500,100)
Toperative<-NULL
for(rho in seq(0, 1, 0.1)){
  temp<-Te(Ts=Ts, Ta=Ta, Tg=NULL, RH=0.5, E=0.96, rho=rho, cloud=1, SE=SE, V=0.1, 
           L=0.1, type="free", shape="hcylinder")
  Toperative<-cbind(Toperative, temp)
}
Toperative<-data.frame(SE=seq(0,1500,100), Toperative)
colnames(Toperative)<-c("SE", seq(0,1,0.1))
matplot(Toperative$SE, Toperative[,-1], ylim=c(30, 50), type="l", xlim=c(0,1000),
        ylab="Operative Temperature (C)", xlab="Solar Radiation (W/m2)", lty=1,
        col=flirpal[rev(seq(1,380,35))])

# For detailed examples and explanations, see:
# https://github.com/gtatters/Thermimage/blob/master/HeatTransferCalculations.md