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Re: [TRNSYS-users] Type 99 problem (TRNSYS 18)



Dear Tomas

 

In Trnsys 18, Type 99 including the explanation of sample is described in 04-MathematicalReference.pdf:

 

sample

-1

column value is a mean value related to the time interval td ending at the time corresponding to actual data line

0

column value is a mean value related to the time interval td/2 before and after the time corresponding to actual data line

1

column value is a mean value related to the time interval td starting at the time corresponding to actual data line

 

Have in mind to define a valid “Sky model for diffuse radiation” for the Type.

If the problem persist you may contact your distributor.

 

Marion Hiller

 

Von: TRNSYS-users <trnsys-users-bounces@lists.onebuilding.org> Im Auftrag von Tomas Persson (HDa) via TRNSYS-users
Gesendet: Freitag, 22. März 2019 09:35
An: TRNSYS users mailing list at OneBuilding.org <trnsys-users@lists.onebuilding.org>
Cc: Tomas Persson (HDa) <tpe@du.se>
Betreff: [TRNSYS-users] Type 99 problem (TRNSYS 18)

 

Hello

 

I have a problem to set up the input file of Type 99 for a weather data with global horizontal radiation. I get a visual fortran-time error with my file, but it runs with the example file that uses horizontal beam and diffuse. Below is first part of my input file. The <samp> column is not explained in the manual and is not clear.

 

Best regards: Tomas Persson

 

<userdefined>

<longitude>        -15.4       ! east of greenwich: negative

<latitude>            60.5       ! Borlange, Sweden

<gmt>           1                      ! time shift from GMT, east: positive (hours) - if solar time-> write "solar"

<interval>            1                               ! Data file time interval between consecutive lines

<firsttime>          1          ! Time corresponding to first data line (hours)

<var>     IBEAM_H             <col>     0  <interp> 0  <add>  0  <mult>  1              <samp>   0         !...to get radiation in W/m²

<var>     IBEAM_N             <col>     0  <interp> 0  <add>  0  <mult>  1              <samp>   0         !...to get radiation in W/m²

<var>     IDIFF_H                <col>     0  <interp> 0  <add>  0  <mult>  1              <samp>   0         !...to get radiation in W/m²

<var>     IGLOB_H              <col>     5  <interp> 0  <add>  0  <mult>  1              <samp>   0         !...to get radiation in W/m²

<var>     TAMB                   <col>     3  <interp> 2  <add>  0  <mult>  1              <samp>   0         !...to get °C

<var>     RHUM                  <col>     4  <interp> 1  <add>  0  <mult>  1       <samp>   0 !...to get relative humidity in %

<var>     WSPEED               <col>     2  <interp> 1  <add>  0  <mult>  1       <samp>   0 !...to get wind speed in m/s

<var>     WDIR                    <col>     1  <interp> 1  <add>  0  <mult>  1              <samp>   0         !...to get wind direction in degree

<var>   udef1                     <col>   0  <interp> 0  <add>  0  <mult>  1               <samp>   0          !...to get ... in ...

<var>   udef2                     <col>     0  <interp> 1  <add>  0  <mult>  1              <samp>   0         !...to get ... in ...

<var>   udef3                     <col>     0  <interp> 1  <add>  0  <mult>  1              <samp>   0         !...to get ... in ...

<var>   udef4                     <col>   0  <interp> 0  <add>  0  <mult>  1                <samp>   0         !...to get ... in ...

<data>

210        5             4.8         76           0.0

210        2             4.7         77           0.0

220        3             4.4         79           0.0

230        3             4.4         79           0.0

210        3             4.1         80           0.0

130        1             3.6         82           0.0

130        2             3.5         84           0.0

140        2             3.4         85           0.0

120        2             3.2         85           0.7

160        3             2.6         85           5.3

140        4             1.9         87           18.0

160        3             1.9         82           33.7

160        4             1.4         84           26.0

140        3             0.8         86           25.5

140        4             0.0         87           7.5

150        4             0.2         86           0.5

150        3             0.0         85           0.0

170        2             0.3         86           0.0

160        1             0.6         85           0.0

160        3             1.0         83           0.0

170        3             0.9         85           0.0

170        2             0.9         86           0.0

150        2             1.0         86           0.0

120        3             0.9         87           0.0

 

_____________________________________________

Tomas Persson

Högskolan Dalarna (Dalarna University)

Akademin Industri och samhälle (School of Technology and Business Studies)

Avdelningen för energi och byggteknik (Dept. of Energy and Building Construction)

791 88 Falun, Sweden

 

Phone: +4623-778717

Email: tpe@du.se

_____________________________________________