[TRNSYS-users] Capacity of buffer tank
David BRADLEY
d.bradley at tess-inc.com
Tue Dec 4 09:23:36 PST 2012
Dear Zhe,
Would you mind sending me project? From your explanation, it
certainly sounds as though everything is correct. I am curious as to
which component is generating an error saying that the buffer tank is
too small.
Kind regards,
David
On 12/4/2012 05:03, Zhe Li wrote:
>
> Dear David,
>
> Thank you very much for your reply.
>
> I did a number of calculations followed by your recommendation in
> designing the correct size of buffer tank. However, The answer I am
> getting is far from the size of buffer tank that I am allowed to
> simulate my model.
>
> The rated flow rate I am using is 1548kg/h and time step is 0.1h. For
> one time step, the volume is 154.8kg. I would think the buffer tank
> having a size of 0.2m^3 is sufficient to hold one step volume liquid.
> However, I always get error when performing the simulation. The
> minimum size of buffer tank that I have to use is 0.37m^3 in order to
> carry out the simulation without error occurring.
>
> I have also worked out the total amount liquid is in the loop. I am
> using a pipe inside diameter is 0.022m, the total length of pipe is
> 60m, this gives me a total volume water is 22.8kg, I am not sure how
> this is related to the size of the buffer tank.
>
> Hope you don't mind to explain to me a little more.
>
> Thank you very much.
>
> Zhe Li
>
> *From:*David BRADLEY [mailto:d.bradley at tess-inc.com]
> *Sent:* 03 December 2012 17:56
> *To:* Zhe Li
> *Cc:* trnsys-users at cae.wisc.edu
> *Subject:* Re: Capacity of buffer tank
>
> Dear Zhe,
> In order for the simulation to be numerically stable, the buffer
> tank must be large enough to hold at least one time step of liquid. So
> the answer to your question depends upon the rated flow rate of the
> pump in the loop and on the time step that you have chosen. In the
> actual system, there is liquid volume contained in the piping network.
> I would recommend that you determine how much liquid volume there is
> (knowing the inside diameter and length of each pipe section), then
> create a buffer tank of equivalent size and reduce your time step
> accordingly.
> Kind regards,
> David
>
> On 11/28/2012 11:07, Zhe Li wrote:
>
> Dear David,
>
> Thanks for your time.
>
> As we discussed before, due to the fact that the current air-water
> heat pump (Type 941) is a single stage heat pump, a buffer tank
> is used to prevent overheating when a imposed thermal load is
> employed. Even though the desired system is not working with a
> buffer tank, this does solve the original problem I had. However,
> I have discovered a new problem. What would be the right capacity
> of this buffer tank to built into in order to simulate the actual
> system (system without using buffer tank)? I have tried to
> simulate using varies capacity tank ( from 0.3m^3 to 1m^3 ) as the
> buffer tank, the electricity consumption can be different as much
> as 5% which it is significant as far as I am concerned.
>
> Also, I understand there is an auxiliary heater built into the
> air-water heat pump component. Would you recommend to use this
> auxiliary heater or use an external heater built into the circuit
> where after the buffer tank which makes it more realistic?
>
> Hope I have explained the problem clearly.
>
> Thank you very much.
>
> Zhe Li
>
>
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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
> F:+1.608.278.1475
> d.bradley at tess-inc.com <mailto:d.bradley at tess-inc.com>
>
> http://www.tess-inc.com
> http://www.trnsys.com
>
> Tá an teachtaireacht seo scanta ó thaobh ábhar agus víreas ag Seirbhís
> Scanta Ríomhphost de chuid Seirbhísí Faisnéise, ITBÁC agus meastar í a
> bheith slán. http://www.dit.ie
> This message has been scanned for content and viruses by the DIT
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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
F:+1.608.278.1475
d.bradley at tess-inc.com
http://www.tess-inc.com
http://www.trnsys.com
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