Buildings.Utilities.Psychrometrics.Functions.Internal

Solve f(x, data) for x with given f

Information

Function to compute the dew point temperature based on the partial water vapor concentration.

Extends from Modelica.Media.Common.OneNonLinearEquation (Determine solution of a non-linear algebraic equation in one unknown without derivatives in a reliable and efficient way).

Package Content

Name Description

f_nonlinear

Inherited

f_nonlinear_Data Data specific for function f_nonlinear

solve Solve f_nonlinear(x_zero)=y_zero; f_nonlinear(x_min) - y_zero and f_nonlinear(x_max)-y_zero must have different sign

Name	Description
f_nonlinear
Inherited
f_nonlinear_Data	Data specific for function f_nonlinear
solve	Solve f_nonlinear(x_zero)=y_zero; f_nonlinear(x_min) - y_zero and f_nonlinear(x_max)-y_zero must have different sign

Buildings.Utilities.Psychrometrics.Functions.Internal.f_nonlinear

Information

Extends from (Nonlinear algebraic equation in one unknown: y = f_nonlinear(x,p,X)).

Inputs

Type Name Default Description

Real x Independent variable of function

Real p 0.0 disregaded variables (here always used for pressure)

Real X[:] fill(0, 0) disregaded variables (her always used for composition)

f_nonlinear_Data f_nonlinear_data Additional data for the function

Type	Name	Default	Description
Real	x		Independent variable of function
Real	p	0.0	disregaded variables (here always used for pressure)
Real	X[:]	fill(0, 0)	disregaded variables (her always used for composition)
f_nonlinear_Data	f_nonlinear_data		Additional data for the function

Outputs

Type Name Description

Real y = f_nonlinear(x)

Type	Name	Description
Real	y	= f_nonlinear(x)

Modelica definition

redeclare function extends f_nonlinear
algorithm 
   y := pW_TDewPoi(x);
end f_nonlinear;

Automatically generated Thu Dec 8 16:36:33 2011.