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Re: [TRNSYS-users] Absorption Chiller - behavior - URGENT



Hi Dev,

The temperature dependence on capacity is managed by the external file, but the flowrate dependence is more complicated. I imagine that the easiest way to do it is to modify the code to include this dependency

Angel 

BlackBerry de movistar, allí donde estés está tu oficin@

-----Original Message-----
From: dev sharma <devsharmami@gmail.com>
Sender: trnsys-users-bounces@cae.wisc.edu
Date: Tue, 7 May 2013 14:01:26 
To: TRNSYS users mailing list at the Solar Energy Lab,	UW-Madison<trnsys-users@cae.wisc.edu>
Reply-To: "TRNSYS users mailing list at the Solar Energy Lab,
	UW-Madison" <trnsys-users@cae.wisc.edu>
Cc: James Spelling<james.spelling@energy.kth.se>
Subject: Re: [TRNSYS-users] Absorption Chiller - behavior - URGENT

@Angel: Thanks a lot for your reply.

@All: The chiller model simply does energy balance. Whereas the "real"
chiller data suggests that capacity reduces on decreasing hot stream
inlet temperature or flowrate. This happens by reduction in chilled
water temperature difference.

Any help is highly appreciated :)

Thanks
Dev

On 02/05/2013, Angel Carrera <angel.carrera@aiguasol.coop> wrote:
> Dev,
>
> in the standard trnsys model, the absorption chiller capacity is set as a
> function of the temperature difference and flow rate on the evaporator, in
> other words, there is no relation on the capacity neither with the
> generator flow rate nor inlet temperature. Once identified the fraction of
> nominal capacity depending on the chilled water conditions, and corrected
> as per the external file, the model imposes the necessary temperature
> differences to the other flow rates. Therre are no internal controls on
> type 107, while real chillers usually have some kind of control on flow
> rates and temperatures in the fluid loops.
> I recommend you to take a look the type 107 description in the mathematical
> reference to understand what's going on inside the type.
>
> Angel
>
>
> 2013/5/2 dev sharma <devsharmami@gmail.com>
>
>> Hej All,
>>
>> I am trying to model a solar based absorption cycle.
>>
>> The experimental data with me, has following observations:
>> 1. If I change just the hot water flowrate (reduced to half), the
>> capacity of the chiller reduces considerably (approx by 40%).
>> In model: Instead of reduction in capacity, the temperature drop of
>> hot water increases.
>> 2. If I change just the hot water inlet temperature (by over 10 DegC
>> i.e 92-80), the capacity drop is considerable again( approx 60%)
>> In model: Instead of reduction in capacity, the temperature drop of
>> hot water is in w different range that's all. (80-70 DegC).
>>
>> I have changed the data file for type 107 in terms of operating
>> temperature i.e from initial 108-116DegC to 70-95DegC.
>>
>> I am attaching the modified data file.
>>
>> Can someone please help me to modify this data file to suit the above
>> mentioned trends?
>>
>> Thanks
>> Dev Sharma
>>
>> --
>> Dev Sharma
>> Erasmus Mundus Masters in Sustainable Energy
>> KTH, Stockholm & UPC, Barcelona
>> Mobile: +34635104882 (Spain)
>>
>> _______________________________________________
>> TRNSYS-users mailing list
>> TRNSYS-users@cae.wisc.edu
>> https://mailman.cae.wisc.edu/listinfo/trnsys-users
>>
>>
>
>
> --
> *Àngel Carrera*
>
> *Consultor Senior
> Àrea tècnica*
>
> Sistemes Avançats d'Energia Solar Tèrmica SCCL
> C/ Roger de Llúria, 29 3r 2a 08009 Barcelona
> Mòbil: (+34) 663 27 66 80
> Tel: (+34) 93 342 47 55
> Fax: (+34) 93 342 47 56
>
> angel.carrera@aiguasol.coop
> http://www.aiguasol.coop
>


-- 
Dev Sharma
Erasmus Mundus Masters in Sustainable Energy
KTH, Stockholm & UPC, Barcelona
Mobile: +34635104882 (Spain)
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