[TRNSYS-users] Type 107 Absorption Chilller

Carlos Naranjo Mendoza carlos.naranjo.mendoza at gmail.com
Wed Apr 9 08:33:21 PDT 2014


Hi Travis,

I worked the last year in a TRNSYS project using a YAZAKI WFC SC 50 with
the Type 107. I got the data to generate the external files from Yazaki
Energy Team. If you need, I have a spreadsheet where you can find the data
by modifying the temperatures and flow rates for different Yazaki water
fired absorption chillers. It is a little time consuming but it is the only
way that I found the last year.

Best regards,

Carlos Naranjo-Mendoza


2014-04-09 3:11 GMT-05:00 <trnsys-users-request at cae.wisc.edu>:

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> Today's Topics:
>
>    1. Re: Type 60c outlet temperature (David BRADLEY)
>    2. Re: Type 60c outlet temperature (Igor Seso)
>    3. Type 107 Absorption Chilller (Travis Goldade)
>    4. Re: Type 107 Absorption Chilller (Igor Seso)
>
>
> ---------- Mensaje reenviado ----------
> From: David BRADLEY <d.bradley at tess-inc.com>
> To: trnsys-users at cae.wisc.edu, Barto Pene <mdeodbuf1 at gmail.com>
> Cc:
> Date: Tue, 08 Apr 2014 12:34:04 -0500
> Subject: Re: [TRNSYS-users] Type 60c outlet temperature
>  Barto,
>   It is not really possible to diagnose the problem without looking at the
> project. I would recommend using an online plotter to look at all of the
> temperatures and flow rates of all the flows going into and coming out of
> the tank. If for some reason all of the temperatures in the system are over
> 60C (including the temperature of the tempering water) then Type953 would
> not be able to temper the outlet flow. It could also be that you are seeing
> higher than 60C temperature at the mixing valve when there is no flow
> through the valve.
>   If you are not able to sort out the problem using Type65 as a debugging
> tool then you should send your project to your distributor so that they can
> have a look at it.
> Kind regards,
>  David
>
>
>
> On 4/7/2014 08:16, Barto Pene wrote:
>
> Hi ,
>
>  I get some strange result i.e I can not find logic in it: I use tank
> Type 60c only heated by standard solar collector installation. I use the
> differential controller(monitoring temp.) to limit the tank top temperature
> to 60C and I'm also using tempering valve Type 953 with diverting and
> three-wat valves for controling the outlet temp. In the simulation I get
> temperatures at the outlet of the three-way valve (after mixing) higher
> than 60C (even 80-90C) how is it possible?
>
>  When I model the HX in Type60c with glycol solution I get convergence
> problems and with water there is no problem...?
>
>  Thank you
>
>  Regards
> Barto
>
>
> _______________________________________________
> TRNSYS-users mailing listTRNSYS-users at cae.wisc.eduhttps://mailman.cae.wisc.edu/listinfo/trnsys-users
>
>
> --
> ***************************
> David BRADLEY
> Principal
> Thermal Energy Systems Specialists, LLC
> 22 North Carroll Street - suite 370
> Madison, WI  53703 USA
>
> P:+1.608.274.2577
> F:+1.608.278.1475d.bradley at tess-inc.com
> http://www.tess-inc.comhttp://www.trnsys.com
>
>
>
> ---------- Mensaje reenviado ----------
> From: Igor Seso <igorseso at yahoo.com>
> To: "TRNSYS users mailing list at the Solar Energy Lab, UW-Madison" <
> trnsys-users at cae.wisc.edu>
> Cc:
> Date: Tue, 8 Apr 2014 11:37:20 -0700 (PDT)
> Subject: Re: [TRNSYS-users] Type 60c outlet temperature
>  Thank you David, exactly that was the problem,  I was recording
> temperatures above 60 C when there was no flow through the valve - I put a
> trigger printer recording only temp. when there is flow and the
> temperatures values were exactly as the set mixing temp.
>
> I tried to put pipes between the collector the tank and the pump  to get
> more realistic results regard outlet temperaturesas a result of the
> increased thermal mass and it was ok - but the only disadvantage is that
> the pump flow can not go under certain value (total volume of fluid in
> pipes) it gives convergence problems...so it means that it is not possible
> to test the influence of low flow on system efficiency etc..
>
> Regards,
> Barto
>
>
>
>   On Tuesday, April 8, 2014 7:34 PM, David BRADLEY <d.bradley at tess-inc.com>
> wrote:
>   Barto,
>   It is not really possible to diagnose the problem without looking at the
> project. I would recommend using an online plotter to look at all of the
> temperatures and flow rates of all the flows going into and coming out of
> the tank. If for some reason all of the temperatures in the system are over
> 60C (including the temperature of the tempering water) then Type953 would
> not be able to temper the outlet flow. It could also be that you are seeing
> higher than 60C temperature at the mixing valve when there is no flow
> through the valve.
>   If you are not able to sort out the problem using Type65 as a debugging
> tool then you should send your project to your distributor so that they can
> have a look at it.
> Kind regards,
>  David
>
>
>
> On 4/7/2014 08:16, Barto Pene wrote:
>
> Hi ,
>
>  I get some strange result i.e I can not find logic in it: I use tank
> Type 60c only heated by standard solar collector installation. I use the
> differential controller(monitoring temp.) to limit the tank top temperature
> to 60C and I'm also using tempering valve Type 953 with diverting and
> three-wat valves for controling the outlet temp. In the simulation I get
> temperatures at the outlet of the three-way valve (after mixing) higher
> than 60C (even 80-90C) how is it possible?
>
>  When I model the HX in Type60c with glycol solution I get convergence
> problems and with water there is no problem...?
>
>  Thank you
>
>  Regards
> Barto
>
>
> _______________________________________________
> TRNSYS-users mailing listTRNSYS-users at cae.wisc.eduhttps://mailman.cae.wisc.edu/listinfo/trnsys-users
>
>
> --
> ***************************
> David BRADLEY
> Principal
> Thermal Energy Systems Specialists, LLC
> 22 North Carroll Street - suite 370
> Madison, WI  53703 USA
>
> P:+1.608.274.2577
> F:+1.608.278.1475d.bradley at tess-inc.com
> http://www.tess-inc.comhttp://www.trnsys.com
>
>
> _______________________________________________
> TRNSYS-users mailing list
> TRNSYS-users at cae.wisc.edu
> https://mailman.cae.wisc.edu/listinfo/trnsys-users
>
>
>
>
> ---------- Mensaje reenviado ----------
> From: Travis Goldade <tdgoldade at gmail.com>
> To: trnsys-users at cae.wisc.edu
> Cc:
> Date: Tue, 8 Apr 2014 18:23:32 -0700
> Subject: [TRNSYS-users] Type 107 Absorption Chilller
> Hi everyone, I appear to be having the same issue that many people are
> having.  I am trying to model a small absorption chiller that that uses
> solar hot water in the range of 70 to 90 C, but the data files for the
> example absorption chiller are not in that range.  Like many of you, I have
> tried to contact the manufacture for more curves to create the required
> data files but they have yet to reply.
>
> Does anyone have data files for an absorption chiller that utilizes hot
> water in the 70 to 90 C range? Or does anyone have access to curves for a
> Yazaki SC5 absorption chiller?
>
> Any feedback or pointers will be greatly appreciated.
>
> Thanks Travis
>
>
> ---------- Mensaje reenviado ----------
> From: Igor Seso <igorseso at yahoo.com>
> To: "TRNSYS users mailing list at the Solar Energy Lab, UW-Madison" <
> trnsys-users at cae.wisc.edu>
> Cc:
> Date: Wed, 9 Apr 2014 01:11:06 -0700 (PDT)
> Subject: Re: [TRNSYS-users] Type 107 Absorption Chilller
> Hi Travis,
>
> I have the same "problem" so I found  Type 177 absorption chiller which
> represents further development of Type 107 after the end of the IEA Task 25
> and is developed at the Technical University in Berlin. Here is the link
> where you can download
> http://www.eta.tu-berlin.de/menue/mitarbeiter_innen/wimi/albers/
>
> (there is zip file under the "Forschung" part)
>
> Hope that this will be helpful
>
> Regards
> Igor
>   On Wednesday, April 9, 2014 3:24 AM, Travis Goldade <tdgoldade at gmail.com>
> wrote:
>   Hi everyone, I appear to be having the same issue that many people are
> having.  I am trying to model a small absorption chiller that that uses
> solar hot water in the range of 70 to 90 C, but the data files for the
> example absorption chiller are not in that range.  Like many of you, I have
> tried to contact the manufacture for more curves to create the required
> data files but they have yet to reply.
>
> Does anyone have data files for an absorption chiller that utilizes hot
> water in the 70 to 90 C range? Or does anyone have access to curves for a
> Yazaki SC5 absorption chiller?
>
> Any feedback or pointers will be greatly appreciated.
>
> Thanks Travis
>
> _______________________________________________
> TRNSYS-users mailing list
> TRNSYS-users at cae.wisc.edu
> https://mailman.cae.wisc.edu/listinfo/trnsys-users
>
>
>
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