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|
(22 dazwischenliegende Versionen von 3 Benutzern werden nicht angezeigt) |
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| <P> | | <P> |
| At its surfaces the building component is exposed to the | | At its surfaces the building component is exposed to the |
| <B>climatic boundary conditions</B> which have a profound effect on its hygrothermic and inner climate behaviour. As discussed in the help topic [[Details:Climate | Climate data]], | | <B>climatic boundary conditions</B> which have a profound effect on its hygrothermic and inner climate behaviour. As discussed in the help topic [[Details:Climate|Climate data]], |
| WUFI needs for each time step data on the rain and radiation load, on the exterior | | WUFI needs for each time step data on the rain and radiation load, on the exterior |
| and interior temperature and on the exterior and interior relative humidity. | | and interior temperature and on the exterior and interior relative humidity. |
Zeile 12: |
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| == External Climate == | | == External Climate == |
|
| |
|
| [[Bild:DialogExteriorInteriorClimate_1.gif]] | | [[Bild:WUFI-Plus_Climate.jpg]] |
|
| |
|
| <P> | | <P> |
Zeile 22: |
Zeile 22: |
|
| |
|
| <P> | | <P> |
| The exterior and/or interior climates may be freely assigned to the left or right side | | The adjacently climates on the different components may be assigned only for the outside surface |
| of the component (so you might even have exterior climates on both sides or interior | | of the component. The boundary condition on the outside of the component have not to be an external climate. If the heated zone of the building is boardering to another flat or room the external climate can be change to an [[Plus:Dialog_Climate#Optional Climate | optional climate]]. |
| climates on both sides). The only <B>restriction</B> is: climate files that contain
| |
| <B>rain and solar radiation</B> must be assigned to the <B>left side</B>.<BR>
| |
| <FONT COLOR="#006699"><I>Version notice: this interchangeability only applies to
| |
| WUFI Pro. In WUFI light and WUFI ORNL/IBP the left side can only be assigned
| |
| climate files and the right side can only be assigned sine curves.</I></FONT> | |
| </P> | | </P> |
|
| |
|
| <P> | | <P> |
| <B>"Map/File":</B> | | <B>"Fom Map (Database)":</B> |
| </P> | | </P> |
|
| |
|
| [[Bild:WUFI-Plus_Climate.png]] | | [[Bild:WUFI-Plus_ExternalClimate.jpg]] |
|
| |
|
| <P> | | <P> |
Zeile 43: |
Zeile 38: |
| <P> | | <P> |
| The button <B>"Browse..."</B> | | The button <B>"Browse..."</B> |
| <FONT COLOR="#FF0000"><B>(1)</B></FONT> opens a dialog in which you can select the
| | opens a dialog in which you can select the |
| desired climate file | | desired climate file |
| [[1D:Dialog_SelectClimateFileFromMap | on a map]] or through a | | [[Plus:Dialog_SelectClimateFileFromMap | on a map]] from a map. |
| [[1D:Dialog_SelectClimateFileFromBrowser | open file dialog]].<BR>
| | |
| The button <B>"Details..."</B>
| |
| <FONT COLOR="#FF0000"><B>(2)</B></FONT> opens a subdialog which offers
| |
| [[1D:Dialog_ClimateFileDetails | additional options]], depending on
| |
| the [[Details:Climate | climate file format]] (e.g. to use measured surface
| |
| or ground temperatures etc.).
| |
| </P> | | </P> |
| <P> | | <P> |
Zeile 60: |
Zeile 50: |
| </P> | | </P> |
| <P> | | <P> |
| If you have assigned the climate file to the left side of the component (the one | | If you have assigned the climate file to the outside of the building you may also have a <B>climate analysis</B> |
| that can absorb rain and solar radiation) you may also have a <B>climate analysis</B>
| |
| performed. | | performed. |
| </P> | | </P> |
| [[Bild:DialogKlimaAussenInnen_b_03.gif]]
| | |
|
| |
|
| <P> | | <P> |
Zeile 74: |
Zeile 63: |
| with different orientations and inclinations, the driving rain rose shows the | | with different orientations and inclinations, the driving rain rose shows the |
| yearly sum of driving rain on free-standing vertical surfaces | | yearly sum of driving rain on free-standing vertical surfaces |
| ([[1D:Dialog_Orientation | R2]] = 0.2 s/m) with different orientations. | | ([[Plus:Dialog_Orientation | R2]] = 0.2 s/m) with different orientations. |
| </P> | | </P> |
| <P> | | <P> |
Zeile 85: |
Zeile 74: |
| already been converted for a fixed orientation and inclination.<BR> | | already been converted for a fixed orientation and inclination.<BR> |
| The analysis of <B>*.WET</B> files is independent of any options you may have selected | | The analysis of <B>*.WET</B> files is independent of any options you may have selected |
| in the [[1D:Dialog_ClimateFileDetails | "Details..."]] subdialog; | | in the [[Plus:Dialog_ClimateFileDetails | "Details..."]] subdialog; |
| that is, the temperature analysis always reads the air temperature from the file, | | that is, the temperature analysis always reads the air temperature from the file, |
| the radiation analysis always reads the global and diffuse radiation on a horizontal | | the radiation analysis always reads the global and diffuse radiation on a horizontal |
Zeile 94: |
Zeile 83: |
|
| |
|
| <P> | | <P> |
| If the boundary conditions assigned to the <B>left</B> side of the component are
| | <B>"Userdefined file":</B> |
| being read from a climate file of
| |
| [[Details:WET-File | *.WET]],
| |
| [[Details:TRY-File | *.TRY]],
| |
| [[Details:DAT-File | *.DAT]],
| |
| [[Details:WAC-File | *.WAC]],
| |
| [[Details:IWC-File | *.IWC]] or
| |
| [[Details:WBC-File | *.WBC]] type, you also need to specify the
| |
| [[1D:Dialog_Orientation | orientation and inclination of the facade]] so that
| |
| WUFI can convert rain and solar radiation for that direction. In all other cases
| |
| either rain and radiation are irrelevant, or they have already been converted for
| |
| the proper orientation and inclination
| |
| ([[Details:KLI-File | *.KLI]]).
| |
| </P>
| |
| <P>
| |
| Note: if a
| |
| [[Details:KLI-File |*.KLI]] file assigned to the right side of
| |
| the component has a time step which is different from the time step of the climate
| |
| on the left side (even if this is only due to rounding, e.g. 0.1667 h versus 0.167 h),
| |
| there may be synchronisation problem between the two sides. In such a case you should
| |
| let WUFI read the boundary conditions for both sides from <I>one</I> *.KLI file,
| |
| if possible.<BR>
| |
| <BR>
| |
| </P>
| |
| | |
| <P>
| |
| <B>"Sine Curves":</B>
| |
| </P>
| |
| | |
| [[Bild:DialogKlimaAussenInnen_c_03.gif]]
| |
| | |
| <P>
| |
| In some cases it is sufficient to ignore short-term fluctuations of the boundary
| |
| conditions and to consider only their long-term (e.g. yearly) trend (this is only
| |
| possible if the highly variable quantities rain and solar radiation play no role
| |
| anyway). Temperature and relative humidity may then be modelled by simple
| |
| <B>sine curves</B> with yearly period, or even by <B>constant</B>
| |
| values.<BR>
| |
| These conditions are usually met by the <B>interior climate</B>: the daily variations
| |
| of indoor temperature and humidity are strongly damped by the heat and sorption
| |
| capacities of the furnishings; the remaining fluctuations do not penetrate far
| |
| into the building components and only have a negligible effect on their hygrothermal
| |
| behaviour.<BR>
| |
| If the component is not affected by rain and solar radiation, and if its
| |
| hygrothermal capacity is large enough, even the <B>exterior climate</B> may be
| |
| modeled in this simplified way.
| |
| </P>
| |
| <P>
| |
| WUFI generates the <B>temperature</B> as a sine wave with one-year period from
| |
| the yearly <B>mean value</B>, the <B>amplitude</B> and the <B>day of maximum</B>
| |
| specified by the user.<BR>
| |
| The default values suggested for indoor conditions (mean temperature: 20°C,
| |
| amplitude: 1°C, maximum on June 3rd) correspond to typical temperatures in
| |
| residential homes, as determined by measurements [1].<BR>
| |
| The default values suggested for exterior conditions (mean temperature: 9°C,
| |
| amplitude: 9°C, maximum on July 15th) correspond to typical conditions in
| |
| Germany [1].<BR>
| |
| <FONT COLOR="#006699"><I>Version notice: default values for exterior conditions are
| |
| only available in WUFI Pro.</I></FONT>
| |
| </P>
| |
| <P>
| |
| WUFI generates the <B>relative humidity</B> as a sine wave with one-year period from
| |
| the yearly <B>mean value</B>, the <B>amplitude</B> and the <B>day of maximum</B>
| |
| specified by the user.<BR>
| |
| <BR>
| |
| The default values suggested for indoor conditions correspond to the average
| |
| humidities in residential homes under low, normal and high moisture
| |
| load [1].<br>
| |
| <BR>
| |
| The moisture load is the difference between the water vapor concentrations
| |
| of the indoor and the outdoor air. It depends on the indoor moisture
| |
| production and the air change rate:<br>
| |
| <BR>
| |
| moisture load [g/m³] = moisture production [g/m³h] /
| |
| air change rate [1/h].<br>
| |
| <BR>
| |
| | |
| The default values suggested for exterior conditions (mean value: 80%, amplitude: 8%,
| |
| day of maximum: December 15th) correspond to typical conditions in
| |
| Germany [1].
| |
| </P>
| |
| <P>
| |
| If you wish to use other values than the defaults, choose
| |
| <B>"User-Defined Sine Curve Parameters"</B> from the drop-down list
| |
| and enter your values in the text boxes which can now be edited. If you want to
| |
| simply use constant values, you may hide the text boxes for amplitude and day of
| |
| maximum by checking the option <B>"constant"</B>.<BR>
| |
| <FONT COLOR="#006699"><I>Version notice: only WUFI Pro accepts user-defined sine
| |
| parameters.</I></FONT>
| |
| </P>
| |
| <P>
| |
| If this option is used for the boundary conditions on the <B>left</B> side of
| |
| the component, no [[1D:Dialog_Orientation | orientation and inclination]]
| |
| need to be specified, since there is neither rain nor solar radiation.
| |
| </P>
| |
| <P>
| |
| <B>Literature:</B><BR>
| |
| [1] WTA-Merkblatt 6-2-01/D: Simulation wärme- und
| |
| feuchtetechnischer Prozesse.<BR>
| |
| <BR>
| |
| </P>
| |
| | |
| <P>
| |
| <B>"EN 13788":</B>
| |
| </P>
| |
| [[Bild:DialogKlimaAussenInnen_d_03.gif]]
| |
| <P>
| |
| With this option you can derive the interior climate from an exterior climate,
| |
| using the algorithm specified by <B>DIN EN ISO 13788</B>.
| |
| </P>
| |
| <P>
| |
| If this interior climate has been assigned to the right side of the component, and
| |
| a climate file has already been assigned to the left side as the exterior climate,
| |
| then you just need to check the option <B>"Use Left Climate"</B> to have the
| |
| interior climate derived from that file; this will be the standard case:
| |
| </P>
| |
| [[Bild:VonLinksVerwenden_E_1.gif]]
| |
| <P>
| |
| Instead, you may also derive the interior climate not from the climate file assigned
| |
| to the left side, but from some completely independent file. To do this, uncheck
| |
| the option "Use Left Climate", and select the desired climate file through
| |
| the button <B>"Browse..."</B>. It is up to you to decide whether this makes
| |
| sense or not.
| |
| </P>
| |
| <P>
| |
| If the interior climate to be derived has been assigned to the left side of the
| |
| component, the climate file from which it is to be derived must always be
| |
| explicitly specified via <B>"Browse..."</B>.
| |
| </P>
| |
| <P>
| |
| For the relative humidity, you may select one of four predefined <B>humidity classes</B>
| |
| from the drop-down list. You may also specify your own moisture load function by
| |
| selecting <B>"User-defined"</B> from the drop-down list: there appears
| |
| a table where you can enter your values for the function.<BR>
| |
| <BR>
| |
| </P>
| |
| | |
| <P>
| |
| Method of calculation:
| |
| </P>
| |
| <P>
| |
| The relative humidity for the interior climate is determined from the
| |
| interior air temperature (held fixed) and the absolute humidity N<SMALL>i</SMALL>
| |
| of the interior air. For N<SMALL>i</SMALL>, we have:
| |
| </P>
| |
| | |
| <TABLE>
| |
| <TR><TD WIDTH="20"> </TD>
| |
| <TD COLSPAN="3">N<SMALL>i</SMALL> = N<SMALL>a</SMALL> +
| |
| <FONT FACE="SYMBOL">d</FONT>N <BR> </TD>
| |
| </TR>
| |
| <TR><TD> </TD>
| |
| <TD VALIGN="TOP">N<SMALL>i</SMALL></TD>
| |
| <TD VALIGN="TOP">:</TD>
| |
| <TD VALIGN="TOP">interior absolute humidity,</TD>
| |
| </TR>
| |
| <TR><TD> </TD>
| |
| <TD VALIGN="TOP">N<SMALL>a</SMALL></TD>
| |
| <TD VALIGN="TOP">:</TD>
| |
| <TD VALIGN="TOP">exterior absolute humidity,</TD>
| |
| </TR>
| |
| <TR><TD> </TD>
| |
| <TD VALIGN="TOP"><FONT FACE="SYMBOL">d</FONT>N</TD>
| |
| <TD VALIGN="TOP">:</TD>
| |
| <TD VALIGN="TOP">moisture supplement, determined from <FONT FACE="SYMBOL">q</FONT><SMALL>a</SMALL> by means of the moisture load function N<SMALL>a</SMALL>. <BR> </TD>
| |
| </TR>
| |
| | |
| <TR><TD> </TD>
| |
| <TD COLSPAN="3">N<SMALL>a</SMALL> = <FONT FACE="SYMBOL">j</FONT><SMALL>a</SMALL> · absolute-humidity-at-saturation(<FONT FACE="SYMBOL">q</FONT><SMALL> a</SMALL>)<BR> </TD>
| |
| </TR>
| |
| | |
| <TR><TD> </TD>
| |
| <TD VALIGN="TOP"><FONT FACE="SYMBOL">q</FONT><SMALL>a</SMALL></TD>
| |
| <TD VALIGN="TOP">:</TD>
| |
| <TD VALIGN="TOP">monthly centered moving mean of exterior air temperature</TD>
| |
| </TR>
| |
| <TR><TD> </TD>
| |
| <TD VALIGN="TOP"><FONT FACE="SYMBOL">j</FONT><SMALL>a</SMALL></TD>
| |
| <TD VALIGN="TOP">:</TD>
| |
| <TD VALIGN="TOP">monthly centered moving mean of exterior relative humidity
| |
| <BR> </TD>
| |
| </TR>
| |
| </TABLE>
| |
| | |
| <P>
| |
| If this option is used for the boundary conditions on the <B>left</B> side of the
| |
| component, no [[1D:Dialog_Orientation | orientation and inclination]] need to
| |
| be specified, since there is neither rain nor solar radiation.
| |
| </P>
| |
| <P>
| |
| <FONT COLOR="#006699"><I>Version notice: this option is only available in
| |
| WUFI Pro.</I></FONT><BR>
| |
| <BR>
| |
| </P>
| |
| | |
| <P>
| |
| <B>"prEN 15026":</B>
| |
| </P> | | </P> |
|
| |
|
| [[Bild:DialogKlimaAussenInnen_e_03.gif]]
| | Choose this option if you want to use a Userdefined file. With the button <B>"Browse..."</B> you can select the directory. WUFI can read: |
| | * .wet |
| | * .try |
| | * .dat |
| | * .wac |
| | * .iwc |
| | * .wbc |
| | * .kli |
|
| |
|
| <P>
| | If your weather file is in .txt format you have to load it with <B>"Files / Measured Data"</B> and define it as an optional climate. |
| With this option you can derive the interior climate from an exterior climate,
| |
| using the algorithm specified by <B>prEN 15026</B>.
| |
| </P>
| |
| <P>
| |
| If this interior climate has been assigned to the right side of the component, and | |
| a climate file has already been assigned to the left side as the exterior climate,
| |
| then you just need to check the option <B>"Use Left Climate"</B> to have the
| |
| interior climate derived from that file; this will be the standard case:
| |
| </P>
| |
| [[Bild:VonLinksVerwenden_E_1.gif]]
| |
| | |
| <P>
| |
| Instead, you may also derive the interior climate not from the climate file assigned
| |
| to the left side, but from some completely independent file. To do this, uncheck
| |
| the option "Use Left Climate", and select the desired climate file through the
| |
| button <B>"Browse..."</B>. It is up to you to decide whether this makes
| |
| sense or not.
| |
| </P>
| |
| <P>
| |
| If the interior climate to be derived has been assigned to the left side of the
| |
| component, the climate file from which it is to be derived must always be explicitly
| |
| specified via <B>"Browse..."</B>.<BR>
| |
| <BR>
| |
| </P>
| |
|
| |
|
| <P>
| |
| The interior air temperature is determined from the exterior air temperature by means
| |
| of a transfer function; the interior relative humidity is also determined from the
| |
| exterior air temperature by means of a transfer function:
| |
| </P>
| |
| <TABLE>
| |
| <TR><TD WIDTH="20"> </TD>
| |
| <TD COLSPAN="3"><FONT FACE="SYMBOL">q</FONT><SMALL> i</SMALL>
| |
| = temperature-function(<FONT FACE="SYMBOL">q</FONT><SMALL> a</SMALL>),</TD>
| |
| </TR>
| |
| <TR><TD> </TD>
| |
| <TD COLSPAN="3" VALIGN="TOP"><FONT FACE="SYMBOL">j</FONT><SMALL> i</SMALL> = humidity-function(<FONT FACE="SYMBOL">q</FONT><SMALL> a</SMALL>).
| |
| <BR> </TD>
| |
| </TR>
| |
|
| |
|
| <TR><TD> </TD>
| |
| <TD><FONT FACE="SYMBOL">q</FONT><SMALL> i</SMALL></TD>
| |
| <TD>:</TD>
| |
| <TD>interior air temperature,</TD>
| |
| </TR>
| |
| <TR><TD> </TD>
| |
| <TD><FONT FACE="SYMBOL">j</FONT><SMALL> i</SMALL></TD>
| |
| <TD>:</TD>
| |
| <TD>interior relative humidity,</TD>
| |
| </TR>
| |
| <TR><TD> </TD>
| |
| <TD><FONT FACE="SYMBOL">q</FONT><SMALL> a</SMALL></TD>
| |
| <TD>:</TD>
| |
| <TD>daily centered moving mean of the exterior air temperature</TD>
| |
| </TABLE>
| |
| <P>
| |
| For the relative humidity, you may select one of two predefined <B>moisture load</B>s
| |
| from the drop-down list ("normal" and "high").<BR>
| |
| <BR>
| |
| </P>
| |
|
| |
|
| <P>
| |
| If this option is used for the boundary conditions on the <B>left</B> side of the
| |
| component, no [[1D:Dialog_Orientation | orientation and inclination]] needs to
| |
| be specified, since there is neither rain nor solar radiation.<BR>
| |
| <BR>
| |
| </P>
| |
| <P>
| |
| <FONT COLOR="#006699"><I>Version notice: this option is only available in
| |
| WUFI Pro.</I></FONT><BR>
| |
| <BR>
| |
| </P>
| |
|
| |
|
| <P>
| | === Optional Climate === |
| <B>"ASHRAE 160P"</B>
| |
| </P>
| |
|
| |
|
| [[Bild:DialogKlimaAussenInnen_f_03.gif]]
| | There are several ways to define or select a climate. By clicking on "New" a new optional climate it created. In the drop-down menu can be selected among several options for defining the climate. "File based" refers to a previously in "Files/Measured Data" uploaded climate file. Simple temperature and moisture profiles can be specified as a sine curve. The generation of an internal climate of the selected outdoor air is possible. |
| | |
| | The file-based climate must now be assigned the appropriate parameters. Therefore, the previously stored data in "Files/Measured Data" will be selected. For an optional climate after a sine curve, the user has several predefined curves for temperature and relative humidity available. The curves can also be user defined. This selection is taken on a drop-down menu. The climates in accordance with EN 13 788 (DIN EN ISO 13788 2001), EN 15025 (EN 15026 2007) or ASHRAE 160 (ANSI / ASHRAE 160 2009) are derived from the respective standards. For the EN 13 788, the indoor temperature and humidity different classes are determined. Similarly, the climate to EN 15026 allows a choice of moisture load. The parameters that can be determined by ASHRAE 160 are extensive. In the field of temperature, the type of climate control is selected. Set values must be specified. The moisture can be determined by ASHRAE 160 to the number of bedrooms, or custom. In this selection, even an air exchange rate must be entered. |
|
| |
|
| <P>
| | [[Bild:WUFI-Plus_optionalClimate.jpg]] |
| With this option you can derive the interior climate from an exterior climate,
| |
| using the algorithm specified by <B>ASHRAE Standard 160P</B>.
| |
| </P>
| |
| <P>
| |
| For details please refer to: ASHRAE Standard 160P, "Design Criteria for Moisture
| |
| Control in Buildings" (Draft July 2006). WUFI determines the indoor climate by
| |
| the method illustrated in "Flowchart 3. Indoor design humidity, intermediate
| |
| method".
| |
| </P>
| |
| <P>
| |
| <FONT COLOR="#006699"><I>Version notice: this option is not available in WUFI light.
| |
| In WUFI ORNL/IBP only the predefined parameters can be used.</I></FONT>
| |
| </P>
| |
Dialog: Climate
At its surfaces the building component is exposed to the
climatic boundary conditions which have a profound effect on its hygrothermic and inner climate behaviour. As discussed in the help topic Climate data,
WUFI needs for each time step data on the rain and radiation load, on the exterior
and interior temperature and on the exterior and interior relative humidity.
The designed building in WUFI-Plus has on the outer facade contact to the external climate. Each of the surfaces of the components must be assigned its respective boundary conditions. But here it is possible to assign a external climate or an optional climate.
External Climate
The boundary conditions may be given as
- hourly data read from a climate file (describing an exterior climate),
- hourly interior conditions (describing an interior climate) derived from an exterior climate file through an appropriate model,
- schematic yearly sine curves (describing an exterior or interior climate).
The adjacently climates on the different components may be assigned only for the outside surface
of the component. The boundary condition on the outside of the component have not to be an external climate. If the heated zone of the building is boardering to another flat or room the external climate can be change to an optional climate.
"Fom Map (Database)":
Choose this option if the boundary conditions are to be read from a
climate file.
The button "Browse..."
opens a dialog in which you can select the
desired climate file
on a map from a map.
Once you have selected a climate file, WUFI will plot the temperature and the relative
humidity. The thin curves show the data read from the climate file, the bold curves
represent the centered moving monthly means for easier visual accessibility.
If you have assigned the climate file to the outside of the building you may also have a climate analysis
performed.
Click on the button "Analyze" to start the analysis. WUFI will
display the minimum, maximum and mean values of temperature and relative humidity,
the normal (i.e. vertical) rain sum and the directional distributions of solar
radiation and driving rain:
The radiation rose shows the yearly sum of global radiation for receiving surfaces
with different orientations and inclinations, the driving rain rose shows the
yearly sum of driving rain on free-standing vertical surfaces
( R2 = 0.2 s/m) with different orientations.
These data will give you an overview of the most important characteristics of the
selected climate file. In particular, the radiation and rain roses show the directions
from which the radiation and rain loads on the facade are mainly to be expected.
*.KLI files can not be analyzed, since their radiation and rain data have
already been converted for a fixed orientation and inclination.
The analysis of *.WET files is independent of any options you may have selected
in the "Details..." subdialog;
that is, the temperature analysis always reads the air temperature from the file,
the radiation analysis always reads the global and diffuse radiation on a horizontal
surface and the driving rain analysis always reads the normal rain and the wind
speed and direction.
"Userdefined file":
Choose this option if you want to use a Userdefined file. With the button "Browse..." you can select the directory. WUFI can read:
- .wet
- .try
- .dat
- .wac
- .iwc
- .wbc
- .kli
If your weather file is in .txt format you have to load it with "Files / Measured Data" and define it as an optional climate.
Optional Climate
There are several ways to define or select a climate. By clicking on "New" a new optional climate it created. In the drop-down menu can be selected among several options for defining the climate. "File based" refers to a previously in "Files/Measured Data" uploaded climate file. Simple temperature and moisture profiles can be specified as a sine curve. The generation of an internal climate of the selected outdoor air is possible.
The file-based climate must now be assigned the appropriate parameters. Therefore, the previously stored data in "Files/Measured Data" will be selected. For an optional climate after a sine curve, the user has several predefined curves for temperature and relative humidity available. The curves can also be user defined. This selection is taken on a drop-down menu. The climates in accordance with EN 13 788 (DIN EN ISO 13788 2001), EN 15025 (EN 15026 2007) or ASHRAE 160 (ANSI / ASHRAE 160 2009) are derived from the respective standards. For the EN 13 788, the indoor temperature and humidity different classes are determined. Similarly, the climate to EN 15026 allows a choice of moisture load. The parameters that can be determined by ASHRAE 160 are extensive. In the field of temperature, the type of climate control is selected. Set values must be specified. The moisture can be determined by ASHRAE 160 to the number of bedrooms, or custom. In this selection, even an air exchange rate must be entered.