Talk:Recuperator

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Artillery recuperators?

Latest comment: 13 years ago2 comments2 people in discussion

I notice this article doesn't talk about them, nor do they really fit the description given (given they are pistons which store kinetic energy from recoil and use it to return the barrel to the ready-to-fire position). Should a new section be added? Herr Gruber (talk) 06:55, 20 December 2009 (UTC)Reply

No, the principals are totally different. From your description Artillery recuperators would appear to be recovering kinetic energy, and not heat energy. Perhaps worthy of its own article instead?Pahazzard (talk) 21:11, 21 January 2011 (UTC)Reply

Recuperator Efficiencies

Latest comment: 1 year ago4 comments4 people in discussion

The posted image (https://upload.wikimedia.org/wikipedia/commons/thumb/b/b1/Heat_exchanger.svg/400px-Heat_exchanger.svg.png) contains specific claims of efficiency for different recuperator configurations, but these claims do not seem to be supported by any cited sources. Should this image be removed from this, and possibly the Heat recovery ventilation and Countercurrent_exchange pages too? That would be a shame, because it's a very informative diagram, but may give very misleading information if incorrect. Billysugger (talk) 19:06, 2 May 2014 (UTC)Reply

I'd like to add that heat exchangers are not rated with efficiencies. Instead, effectiveness is the parameter describing the performance of a heat exchanger. These two terms have very specific definitions and cannot be used interchangeably. If the image is modified in the future, the term "efficiency" ought to be removed and replaced with "effictiveness". (We ought to still verify the effectivenesses of the configurations as listed in the table in agreement with the above talk page entry.) 128.101.142.152 (talk) 19:57, 7 January 2015 (UTC)Reply

Within building services engineering and the UK construction industry generally it is common to cite or specify the performance of an air-to-air heat exchanger in terms of efficeincy, being the percentage heat transfer from the exhaust air-stream to the supply. The efficiency of this process depends upon many different design factors, but there are basic cell configurations which are inherently more efficient than others, this graphic demostrates this in fairly simplistic terms, providing 'typical' efficiency ranges for normal cell design. As such I see nothing wrong with this graphic, other than requiring a suitable reference. I think I can find this within CIBSE or ASHRAE handbooks. Pahazzard (talk) 20:31, 7 January 2015 (UTC)Reply

@Billysugger and Pahazzard: I'm a little suspicious of that image for other reasons, TBH. It's an SVG conversion of a JPEG original image, File:Heat_exchanger.jpg, that had a flippin' url watermark on it! (A commercial URL, for a manufacturer of heat exchangers.) Yeah, the uploader claimed it was their own work and attached a public domain dedication, but apparently nobody thought to even question that, or better yet double-check its status? And if the original image is actually a copyrighted work, does that mean the SVG version is similarly ineligible for public domain licensing? FeRDNYC (talk) 10:50, 6 February 2023 (UTC)Reply

"laid to falls"?

Latest comment: 9 months ago2 comments2 people in discussion

In the Energy Transfer Process section of the article, we find (emphasis added):

However, the film of condensation will also slightly increase pressure drop through the device, and depending upon the spacing of the matrix material, this can increase resistance by up to 30%. If the unit is not laid to falls, and the condensate not allowed to drain properly, this will increase fan energy consumption and reduce the seasonal efficiency of the device.

I don't think I've ever encountered the term "laid to falls" before. Is it some sort of technical jargon? Can someone expand its meaning / link to an appropriate article? FeRDNYC (talk) 10:35, 6 February 2023 (UTC)Reply

Laid to falls is used widely in UK Construction and mechanical/public health engineering. It implies that something (most often pipework) is not insalled level but laid to falls to assist gravity drainage. For heating and chilled water pipework for instance it is good practice to install drain cocks at pipework low points to aid flusing, cleaning, and drain down for maintenance. If pipework is horizontal, then those drain points need to be located at the low points of pipe runs 'laid-to falls' usually at a 1:80-1:120 gradient. Vent cocks are opposedly provided at high points, etc. Pahazzard (talk) 13:52, 22 July 2023 (UTC)Reply