[TRNSYS-users] FW: Question about Type 563 hybrid solar panel

Benjamin Stobbe benjamin_stobbe at hotmail.com
Thu Sep 3 19:42:36 PDT 2015


Dear David and the rest,

 

I sent this email more than a week ago but I did not get an answer yet, so I
was hoping on a reply.

 

Best regards,

 

Benjamin Stobbe

 

Van: TRNSYS-users [mailto:trnsys-users-bounces at lists.onebuilding.org] Namens
Benjamin Stobbe
Verzonden: woensdag 26 augustus 2015 14:07
Aan: 'David BRADLEY' <d.bradley at tess-inc.com>; 'TRNSYS users mailing list at
OneBuilding.org' <trnsys-users at lists.onebuilding.org>
Onderwerp: Re: [TRNSYS-users] Question about Type 563 hybrid solar panel

 

Dear David,

 

Thanks for the answer. I looked into the Fortran file, but i don't know how
to recompile the DLL file. 

 

I had another question yeah I want to understand the total model sorry for
the many questions. I was looking to usefull gain and it is a bit strange
because it looks like you need a minimum PV power to get some energy gain.
Because below 990 kj/hr there is no usefull gain and then suddenly above
this 990 kj/hr you have 4560 kj/hr. My panel is 4 by 5 but how can you
explain this. Another thing in the summer there is no direct sunlight on the
panels because it are facades and the sun in Hong Kong is high in the
summer. According to the model there is then also no PV power, but there is
still diffuse radiance on the panel and this will heat the panel also up so
why no PV Power. 

 

The last question how is the controller(type 2b) working? I monitored the
controller and the pump and the temperatures which go in the controller but
until now I cannot find a relation. In the controller and the pump I didn't
change anything compared to the basic model. The pump is type 3b and the
controller type 2b. I also already looked in the documentation and I found
there you have to look to the difference between the upper and lower limit
so I do and compare this with your dead band limits I also did that and what
I don't understand is how this dead band works. I did already multiple tests
with no dead band(I understand) but as soon as I try a low or high dead band
I cannot find logic in it. I really want to understand it.

 

For example the low dead band is 2 and the higher dead band is 10 like the
default settings

Then you expect when the difference is getting higher than 10  the control
signal should go on but it happens already before it reaches 10 and it would
go off when it drops below the 2 but it sometimes already goes off above 2
and that makes no sense to me. Or has this to do with the number of
oscillations.   

 

I hope to hear from you soon. Thanks in advance.

 

Best regards,

 

Benjamin Stobbe

 

Van: David BRADLEY [mailto:d.bradley at tess-inc.com] 
Verzonden: vrijdag 21 augustus 2015 1:29
Aan: TRNSYS users mailing list at OneBuilding.org
<trnsys-users at lists.onebuilding.org
<mailto:trnsys-users at lists.onebuilding.org> >; benjamin_stobbe at hotmail.com
<mailto:benjamin_stobbe at hotmail.com>  >> Benjamin Stobbe
<benjamin_stobbe at hotmail.com <mailto:benjamin_stobbe at hotmail.com> >
Onderwerp: Re: [TRNSYS-users] Question about Type 563 hybrid solar panel

 

Benjamin,
 In order to get at additional values that are computed by the Type you'd
need to have access to a Fortran compiler and would have to modify the
source code, recompile the appropriate DLL, and modify the proformas.
 
 As for your question about the outlet temperature being below the inlet
temperature, bear in mind that the model takes radiation losses into account
and that if you have flow at night you can cool the working fluid down by
means of radiation loss from the panel surface to the night sky.
regards,
 David

On 08/20/2015 07:31, Benjamin Stobbe wrote:

Dear people,

 

The last week i played around with the Type 563 hybrid solar panel, but i
was wondering in the description in the documentation they do a lot more
calculations than which are coming out of the model. For example reasons for
me to use trnsyst is to see what happens in the hybrid solar panel and I
mean the thermal side. The formulas are really clear but if I see what
output I can get out of the model I miss some. For example the temperature
of the pc cell so how warm will the pv cell becomes this is interesting to
know because in that way you can see how much you cool the panel down with
the flow of water on the backside. 

 

Some results which coming out of the model don't make sense for  me for
example how is it possible that the outlet temperature is lower than the
inlet temperature and also lower than the ambient temperature. Looks like
the solar panel is cooling the water down and I think this is a bit strange.

 

I hope to hear from you soon.

 

Best regards,

 

Benjamin Stobbe





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***************************
David BRADLEY
Principal
Thermal Energy Systems Specialists, LLC
22 North Carroll Street - suite 370
Madison, WI  53703 USA
 
P:+1.608.274.2577
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