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Joke,<br>
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face="Arial" size="2"><span
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style="">a)<font face="Times New Roman" size="1"><span
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</span></font></span></span></font><!--[endif]--><font face="Arial"
size="2"><span style="font-size: 10pt; font-family: Arial;"
lang="EN-US">heat recovery with glycol
battery (only sensible) ?</span></font></p>
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I'm afraid that I am not familiar with that technology<br>
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face="Arial" size="2"><span
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style="">b)<font face="Times New Roman" size="1"><span
style="font-family: "Times New Roman"; font-style: normal; font-variant: normal; font-weight: normal; font-size: 7pt; line-height: normal; font-size-adjust: none; font-stretch: normal; -x-system-font: none;">
</span></font></span></span></font><!--[endif]--><font face="Arial"
size="2"><span style="font-size: 10pt; font-family: Arial;"
lang="EN-US">heat recovery with plate
heat exchanger (only sensible) ?</span></font></p>
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I would recommend Type760. You can use Type91 for this but since Type91
doesn't do any psychrometric calculations, you have to pass the air
temperature through the heat exchanger model and to a Type33. You also
have to pass the absolute humidity ratio around the the heat exchanger
and into the Type33. With the outlet temperature and the inlet humidity
ratio (which doesn't change across the HX in a sensible-only device,
you can get the outlet RH.<br>
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face="Arial" size="2"><span
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style="">c)<font face="Times New Roman" size="1"><span
style="font-family: "Times New Roman"; font-style: normal; font-variant: normal; font-weight: normal; font-size: 7pt; line-height: normal; font-size-adjust: none; font-stretch: normal; -x-system-font: none;">
</span></font></span></span></font><!--[endif]--><font face="Arial"
size="2"><span style="font-size: 10pt; font-family: Arial;"
lang="EN-US">heat recovery with
rotational heat exchanger (sensible + latent) ?</span></font></p>
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Type667. The easiest way to use this is to get some design points for
inlet and outlet conditions and then tune the latent and sensible
effectiveness inputs until you can match the design points.<br>
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<br>
<p class="MsoNormal"><font face="Arial" size="2"><span
style="font-size: 10pt; font-family: Arial;" lang="EN-US">Is it
correct that in trnsys 16 there is only a type
for a plate heat exchanger (type 91)?</span></font></p>
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Type91 models a constant effectiveness heat exchanger. There is also
Type5, which models a number of different heat exchanger configurations
(shell and tube, counter flow, cross flow, etc.) but asks you to
provide the UA value for the heat exchanger. You can look in the Type5
documentation at the form of the UA equations; one of them might match
a plate heat exchanger well enough.<br>
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<p class="MsoNormal"><font face="Arial" size="2"><span
style="font-size: 10pt; font-family: Arial;" lang="EN-US">But in the
Tess library you do have the different
types? What’s the difference between type 667a en 667c?</span></font></p>
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There is no difference between 667a and 667c. The same modeling
methodology can be used to model a number of different technologies. An
excerpt from the documentation:<br>
<br>
"Type667 uses a “constant effectiveness – minimum capacitance” approach
to model an air to air heat<br>
recovery device in which two air streams are passed near each other so
that both energy and possibly<br>
moisture may be transferred between the streams. Because of the
“constant effectiveness – minimum<br>
capacitance” methodology, the model may be used to model a device with
any configuration of air<br>
streams (parallel flow, cross flow, counter flow, etc.) and may be used
to model the sensible and latent<br>
aspects of an air to air heat exchanger, an enthalpy wheel, a
hygroscopic heat exchanger or a permeable<br>
walled flat plate recuperator, among other devices."<br>
<br>
Best,<br>
David<br>
<br>
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