[TRNSYS-users] Control strategy heating circuit
Jeff Thornton
thornton at tess-inc.com
Mon May 6 14:15:15 PDT 2013
My apologies - my e-mail system trapped your message as spam. Would
you still like the HX information?
Jeff
---
Jeff Thornton
_President - TESS LLC_
_22 N. Carroll Street, Madison WI USA 53703_
_Office: (608) 274-2577 Fax: (608) 278-1475_
_www.tess-inc.com_
_E-Mail: thornton at tess-inc.com_
On 04/15/2013 2:41 am, Simon Janse
wrote:
> Hey Jeff,
>
> that sounds great! Please forward me the
details.
>
> To solve this problem with equations wouldn't be a big
deal though, but it would be more elegant to use a matching heat
exchanger, as this is part of my diploma thesis.
>
> Thank you very
much.
>
> Best regards
>
> Simon
>
> VON:
trnsys-users-bounces at cae.wisc.edu
[mailto:trnsys-users-bounces at cae.wisc.edu] IM AUFTRAG VON Jeff
Thornton
> GESENDET: Sonntag, 14. April 2013 18:32
> AN: TRNSYS users
mailing list at the Solar Energy Lab, UW-Madison
> BETREFF: Re:
[TRNSYS-users] Control strategy heating circuit
>
> Simon,
>
> If
you're using a constant effectiveness heat exchanger, you can calculate
the source side flow rate from a few simple equations in TRNSYS. You can
then use the calculated source side flow rate to find the control signal
that you'll feed to the variable speed pump model to give that flow rate
to the heat exchanger. But there is another option; we've written a heat
exchanger model that does exactly as you suggest for the Drake Landing
Solar Community project (same set-up as you describe). The model also
adds a few controls to avoid running the pump during certain conditions.
Let me know if you're interested and I can forward you the details.
>
> Jeff
>
> ---
>
> Jeff Thornton
>
> _President - TESS LLC_
>
>
_22 N. Carroll Street, Madison WI USA 53703_
>
> _Office: (608)
274-2577 Fax: (608) 278-1475_
>
> _www.tess-inc.com [1]_
>
>
_E-Mail: thornton at tess-inc.com [2]_
>
> On 04/12/2013 5:02 am, Simon
Janse wrote:
>
>> Hey together,
>>
>> I need some advice on a
control strategy I want to implement in TrnSys17.
>>
>> Following
problem:
>> My heating circuit( A large single building, for simplicity
I neglect losses here) delivers a on a monthly basis changing mass flow
with a return temperature of 40°C and need a supply temperature of 50°C.
>>
>> I want to heat this mass flow in a heat exchanger to maximum of
60°C and regulate the supply temperature with a tempering valve (In
praxis this would be a mixing loop). The heat on the source side of the
heat exchanger is supplied from the top of a thermal storage (This one
is supplied with heat by a solar thermal system and a seasonal thermal
storage) which will be stratified between 20°C and 97°C. I now want to
determine the mass flow for the source side of the heat exchanger in
dependence of the temperature of the outgoing flow from the thermal
storage and the maximum temperature on the load side of 60°C. I want to
use a variable speed pump and need to control its control signal. It
shouldn't be too hard I guess and a quite normal control strategy which
is comparing the thermal energy of the load and the source side of the
heat exchanger. As the mass flow on the load side and temperature on the
load side differs over the year (load mass flow as mentioned above on a
monthly basis, but constant over the month, source temperature on a time
step basis due to the dynamic structure of the solar thermal and
seasonal storage systems).
>>
>> I think a PID control would be the
right concept to put into place (and it is existing in TrnSys as well),
but as I'm really not familiar with TrnSys I don't know how to implement
this kind of control strategy.
>>
>> So could anybody give me some
advice what to do here and which control is to be used? It would be much
appreciated.
>>
>> Thank you very much for your help.
>>
>> Best
regards
>>
>> Simon
Links:
------
[1] http://www.tess-inc.com
[2]
mailto:thornton at tess-inc.com
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