Results report

The Results report provides the output related to boundary conditions applied and shows results for coldest surface points of each respective space and includes their temperatures, coordinates and temperature weighting factors also.

Calculation of evaluation results dependant on boundary conditions is requested by applying these values from the Boundary Conditions window.

The results offered by this report are used for the assessment of fulfilling (or failing) the condensation and mould growth avoidance criteria (see EN ISO 13788).

For each space the application automatically locates points of lowest surface temperature and outputs its coordinates. Also g-values (the weighting factors) are calculated and output.

Along temperatures of coldest surface points the application outputs respective dew point values (maximum non-condensing air humidity) also [1]. Respective values are calculated according to formulas of partial pressure as defined in EN ISO 13788:2002.

The evaluation is executed on top of base solutions solved and superposed with respective boundary conditions (reported by the number of equations or cells solved) then further refined to the super fine solution (reported by the number of nodes evaluated).

Boundary conditions and critical results

For each space connected to the model following results information is offered:

• name of the space
• air temperature (the boundary condition of that space as entered within the Boundary Conditions window and applied)
• the lowest surface temperature θ^*_Rsi at the surface of that space (at the coldest surface point)
• the highest surface temperature at the surface of that space (at the hottest surface point)
• highest allowed relative air humidity with respect to the coldest surface point of that space to avoid surface condensation (condensing humidity, Condens. RH)
• the temperature factor f^*_Rsi with respect to the coldest surface point θ^*_Rsi (see remarks below)

The temperature factor f^*_Rsi will be evaluated against the space with the lowest temperature  Θ_e (i.e. that space will be assumed to be "exterior") and calculated according to standard by the definition f^*_Rsi = (θ^*_Rsi − θ_e)/(θ_i − θ_e) .

Remark: In a two space case temperature factors f^*_Rsi will be output in addition to temperature weighting factors g - calculated for points of lowest temperatures of surface of each space. The temperature factor f^*_Rsi can be used as construction characteristic indicator only when two boundary conditions are applied. When three or more boundary conditions (spaces, power sources) are involved then the standard requires using of temperature weighting factors g because f^*_Rsi is not suitable in such cases!.

Remark: The output of temperature factors f^*_Rsi will be suppressed if the application setting "f_Rsi - Two-Space only evaluation" is turned on and there are more than exactly two temperature boundary conditions involved in the model.
If there are more then exactly two temperature boundary conditions and the application setting "f_Rsi - Two-Space only evaluation" is kept turned off, then the appropriate warning message is displayed within the report: "Warning: fRsi evaluation with more then two temperature boundary conditions!".

If heat sources are also modelled:

• the overall power of the heat source (calculated from the boundary condition entered and its volume)
• the power density (the boundary condition of that heat source as entered within the Boundary Conditions window and applied)
• the effective volume of that heat source

Remark: The assessment of further extreme values (e.g. temperatures) at all surfaces and within interiors of all power sources is provided within the probe points report too.

Weighting Factors (g-values) of coldest space points

The weighting factors (g-values) will be output as a matrix for the coldest point of every space. Every column of the matrix displays g-values for the coldest point of the space surface named in the column heading.

Weighting factors g are characteristic for respective points of the construction and their value is independent from any boundary conditions. The summation of g-values of a point multiplied by the respective boundary condition results in the temperature of that point. Under the assumption that the location of extreme poles will not change under different boundary conditions one can easily calculate the resulting temperature at these varied boundary conditions.

Remark: The sum over all g-values belonging to temperature boundary conditions at specific point (sum of values in one column without those belonging to heat sources) is always 1.

Remark: If the number of matrix columns output shall overrun the page width then the output of overrunning matrix columns is continued in groups one below the other.

Coordinates of coldest surface points

The listing of points of lowest space surface temperatures for each space shows point coordinates, the respective surface temperature, the dew point and the temperature factor f^*_Rsi also.

Condensation and Mould Growth Assessment Criteria

If requested by the application setting "f_Rsi,min design factors - Warn if undercut" (on by default) AnTherm will automatically evaluate the assessment of the f^*_Rsi values by comparing actual values of f^*_Rsi to their design values for condensation free and mould-growth free constructions (also set within application settings).

• shall the actual value of f^*_Rsi undercut the design value for mould-growth free construction, the indicator (*) is shown
• shall the actual value of f^*_Rsi undercut the design value for condensation free construction (and eventually mould-growth criteria too), the indicator (**) is shown

In addition, if either of the design values are undercut at any space surface there will be warning message displayed at the end of this report:

• (*) Warning: f^*_Rsi < XXXX - Mould growth assessment criterion not fulfilled.
• (**) Warning: f^*_Rsi < XXXX - Condensation assessment criterion not fulfilled.

Remark: The output of temperature factors f^*_Rsi will be suppressed if the application setting "f_Rsi - Two-Space only evaluation" is turned on and there are more than exactly two temperature boundary conditions involved in the model.
If there are more then exactly two temperature boundary conditions and the application setting "f_Rsi - Two-Space only evaluation" is kept turned off, then the appropriate warning message is displayed within the report: "Warning: fRsi evaluation with more then two temperature boundary conditions!".

Remark: Shall partial solution be only available to the report (e.g. some base solution yet not calculated finally, spaces without thermal connection with the model, etc.) the respective result fields will be left empty. Please consider  checking the input data or rerunning the solver and checking the output shown within the solver window in such situation.

A report can be:

• viewed on the screen
• saved as PDF, XLS, DOC or RTF file
• printed onto a printer
• searched by keywords

See Toolbar of a Report window

See also: Coupling Coefficients and Precision report, Toolbar of a Report window, Evaluation windows, Evaluation and Results, Results 3D window, Please Wait window, Temperature Factor fRsi, Probe Points report, EN ISO 10211, EN ISO 13788, Mould growth assessment criterion, Condensation assessment criterion