DESC002501MA - Process for generating refrigeration - Google Patents

Description

"St> arei s closet.» "

Π A '")" 1 Π Π Γ Π π Γ * Γ ί ./-- ϋ ί J' YY ». '" ■ ϋ. Υ ^1. ·!

Spare ice cabinet with electric drive

It is common for refrigeration machines to use gases that can be easily liquefied, such as ammonia, carbonic acid or

man G-ase

s ■ leads.Al ο Jd.ese procedures show voi ^ llem

the lack that the energy consumption for refrigeration is considerable.

The purpose of this invention is esyin.it a relatively simple machine with theoretically lowest energy consumption nevertheless generate very low temperatures »

It is characterized by the following key features: The cooling is performed by a Kreisproaess of gases j under the this ruling "conditions become liquid not yet" This cycle is with great approximation de # "is theoretically ^ eBteerwrrte ¹ best, because it consists of such a thermal thinning followed by a diabatic expansion, whereupon the heating takes place isobarically until the starting point in terms of pressure and temperature has been reached again «Tea-sr the moisture largely g> nH <y _r r> gCTi 4asaJ5g & xttffpr] 'h <a _| qr> Wf ^^ T »f -Hn-Pn φ ^ τ-ηη ^

The Isotheritfe ^ TrSliiahezu ates ^ · realizes ^ that the gas is compressed from a liquid by a jet apparatus is, for this purpose, sicli "ö ^ ffissiSsfeäKs ^ Sl, but especially good but C> uecksilber or l'Joo & oietall r :: it jueckrilberztisatz" The adiabats comes about because the cold compressed gas

The isobaric heating is caused by the medium to be cooled itself in the counter bromine (cooling clasp). The moving parts consist only of rotating machines, namely a centrifugal pump, a turbine and an electric motor, all of which are on a rotating shaft. a &s>«&« äp & j $ work for the artriob of the pump is supplied by the turbine and the motor only delivers the theoretically required «« »ai * additional power as well as the power to cover all friction losses« The approximately isothermal compression in the jet apparatus This is achieved by the fact that the collecting nozzle does not expand in the usual way with an approximate 8 degree angle, but first narrows, then only a little and only then increasingly begins to expand according to a mathematical curve which calculates the one uniform to a long one. Way advantages Compression of the gas results in »The circulating liquid is constantly cooled, because its specific""arrae in the Vc-relation? To that of the gas is very large« β »it maintains an almost constant scraper nature * Uanj ^ rrosse #Abe ζ w.Ka 11e 1 performance ^ ⁸ *, the

: "! on a gas already pre-loaded as high as possible. To illustrate the method of operation and as an example of how this type of cold can be used, Figure 1 shows a schematic cross-section through a refrigerator that has been cooled in this way. Figure II shows the cyclic process and jtwe? the scale for this is chosen roughly as a compression ratio of 1:11 for a diatomic gas.

The apparatus works according to Figure I vde follows: The refrigerator consists of the "dumbbell 1, the insulation 2 and den Iimenblech 3 “Das ^ u Kühlonde Gut iot stored on the boats 5. ^ accessed through the ebnfallr-ißoliei-be 'Mre

4 »The sheet metal separates in front of the rear wall. 6, the cooling chamber in the cooling coil 7 Iiept from the fridge from so that the air due to thermal siphon ^ / irlcung the ^above -. Gen st rom sweeps to that in the cooling coil 7 »The rest Apparatux · int above the ice very aid in the Chamber 8 is housed, which is pressure-tight and is hermetically sealed from the refrigerator and from the outside. It contains the vessel for the liquid 9 with the upstream jet device 10. the motor 11 of the centrifugal pump 12 and the turbine 13-3uin Sntzup; the moisture in the chamber S is still the vessel IA'- which contains, for example, chlorinated lime or sulfuric acid or phosphonium pentoxide or another, ?, agent that dehumidifies the Lugt »The Päickschlanrventil 15 (on the line 24 ·) ensures that during operation Part of the air (or the gas) can be sucked out of the chamber 8 in order to bias the, perform the cycle process & en.jG-ases 7, ύ. increase. ^ ei Stillrtand may, this then leaks through the stuffing box of the turbine into the chamber gradually bodice Q gelangen.In the cooling coil IG is a Flüsr accuracy _t z «B. Water that | The outside air is drained through the cooler 17, then runs to the barrel 9 and here then absorbs the heat created by the heating and the compression. Of course, you can also use fresh water 16.

19 is a pressure gauge, 21 is a valve. 20 is a funnel for

ds

das Bie ^ a ^ eÄÄ ^ sipl bezv /. "Mercury etc" 22 is the line for the compressed gas from.zE 27 degrees C (300 degrees K) .2J is the line for the relaxed and very cold gas _a aÄeeJia ^ # «

2A is the L-; itun? - ': for the relaxed but d.by the contents of the cabinet v-' again heated up i * i # lAeÄi * gas. 25 is the pressure line

for the Eifimas - hinonol (or the ueckvilber).

When switching on the luotors Gäu; »; ^J : the liimp ¹⁵ 12 liquid

and presses it into the blasting apparatus. As a result, air or gas is sucked in from the line 24 and thus also from the chamber 8 via the check valve 15. The pressure in the vessel 9 rises; So I ¹ UTbine 13 now supplies the main part of the power required by the pump in it cools the gas very strongly, purely adiabatically, 1Vu-Et in the cooling coil 7? Cooling the refrigerator ^ and returns via the line 24- to the jet apparatus 10 in whose slender, long nozzle it is again isothermally (approximately) compressed, whereupon the process is repeated Shrank continuously. Cerium pumped out and through the cooler

to aus;? en given out .νρ -tai-gfrrcr and "el im / i"

i -'- tgagg- %

This I _n ctallation is simple, so cheap, as grinding metal parts aie fehlen.bedtirf no ski iiorung and hardly anyone '' € Ctung and the time spent job performance int verblüffond low "You. Brehm cntnpreciiende jyr> .derungen they läsnt Also ..üi 'other sis and refrigeration machines, equipment for freezers verv; end up

The apparatus described their operation läsrt nich, but dor to accounts simplicity "nor et \ 7aS umgestalten.Eg is in fact possible, which up to now but is not yet known." Itrahlapparate not only for compression but also ζ, ητ relaxation to use gases »Similar to how the compression in the manner described above happened approximately isothermally. So the relaxation can then also be carried out approximately isothermally. However, assuming a good heat exchanger, this one has the same degree of efficiency as the Carnot process.

Figure III shows the circuit diagram for this. On the left side the apparatus is exactly the same v.do already shown in Figure I and according to rt.otatt der 'J.Hirbine 13 now the turbine 27 occurs ₈ which is no longer caused by the gas but by the liquid (to which the gas is added, v, ^r aa but the court remains largely irrelevant) an.driven isoDanu enters into a wider Erciselpuripe i '*. ir Fluid' ^ koit ^ S? a vessel 23, there? the reversal ο ir er usual f ^ iigdiise, thus in> v.tro! a \ m £ f .-. direction £ not widened ^ but verjong-b. In addition, there is also the ^: .7äiineauntausclier 29, a "woman-like distribution nozzle; 32 (i: ri G-efass 23) ντκι versciiieci-eiie differently routed lines; ~ o ' ₉ 31» 33 »^» 35 * 30 . the cooling coil 7 is ntmicehr, !!!: ^u egensatz zn earlier durcJ'iflossen from a cold liquid, v / ay of the most ^ vrösseren spea / ^ Änne against such a gas, to:. -äliernd same ■ '• eroperatur .thereby -viru the' äi ⁵ H.eüber: - ^!: IAngG3ahl and the ^: '; arm transition in dei Lühlschlange 7 ntark immMnmikt verii; rössert "The Kreisproses. Executes". ·: -. I iu.n "Io fol .-: t:

Ir.othorKe '^ or-cIc ,, tiuir. ' as described earlier, in - "' traal

council 10 and the connection en 1 ~; n ef /; -? a 9 »-am sounds the G _a s (or air) aurcI ^ vL -'- itua '30 in ·' ■ --n 'airmeaustauGchcr 29 liier it cools isobaric by uon ^u -geatrou with cold gas. xi'un it passes through the line 31 into the dio te-swersenförmi ^ e nozzle 32. Since it is supposed to have a slight overpressure at this point in relation to the liquid at the same place in the vessel 28, it penetrates into the '^ efäß 23 and mixes \ 7egen the nozzle, import ig with the Flüssigkeit.Die ^ FJ-kei üssif ^ ^. flows- ¥ # § ^; ΐιΐτ s'canai ^ g ± oici.mas <ixg..2unaimencier ^ escliwindigkeTi ^ sur Turbine 26.i ^ ¹ - "-f ^ it; 'V knownr -———

She arrives fct &! 24glx ^^. ^ _n rhr-r

^ relaxed in the turbine that

radälüilicli can be designed »the gas blowers distributed in it relax) but also. and because the poor of plus ^ iR-keit compared to α eic of the gas is very large, "" ss "^ / QaUe ι continuously heat from the liquid to" The gas thus relaxes on the v / eg from the spouting nozzle 32 to the turbine 26 approximately isothermally .'- ^ s makes this work since it displaces increasingly liquid in this Flies.Sx ¹ IcIitung accelerating therefore, the liquid passes with a lot of GroES '.' erer speed in the Turbine than would be operated by the pump 27. The turbine therefore does more work than is consumed by the pump 27 and transfers the excess to the pump and thus to the pump 12. The expansion of the gas cools the The liquid in the vessel 28 drains just as much as it had heated in the cooling coil 7: & ifcS! T. From the turbiri'VTlies the liquid flows to the Pu :: ipe 27 line 34- etc. The gas

flows off upwards, '"arrives via line 36 in the 7 / area exchanger J | 9 and here carries out the isobar against the ground

so becomes warm in the ßloic \ m & Qr, ir. relaxed state »this is followed by a ^; ietler die ^ / rdichtuiig unö der Yor '-; ang repeated see

Claims (1)

is carried out andX the inobaric warm-up in a snake ear (7) in front of the view in the upstream with the to be cooled Means stands. ■ .'rable according to claim 1, characterized in that the cooling capacity is achieved by regulating the pressure of the gas or the air in: an oj / uck-proof Kaiaiaer (S) happens with the jet apparatus (10) by an edjiregelbaren - 7th Check valve (15) is connected » >) Method according to Ansp / ucli 1 and 2, characterized in that to achieve / lower temperature in particular to k is the air flow for the cycle. monatomic gas is used Vorrichtun - ^1:? Sur carrying out the method according to claim 1 £ ϊ ± ζζ = ρ> _f sekennaGichnet characterized in that the drive motor (11) on a cor ßeite the l.reiselpumpe (12) lor the liquid to other eggs ^ but eite the ^r .I? urbine (i3) flying trä'ic. r. ) Device η _{after claim # s} di: d.urtiii ^ indicates that the vessel for circulation rdi i-'lür ^ i. ^ Keit a water-thrown egg! localan ^ eCiG) which is connected to a cooler (i7) located outside of the chamber (S) and an from au α per - ^ u "an cliches 4us (1B)
p'loichs ^ efäsr, owns. 5 ») Device according to claim k bi ;, ρ characterized marked] that. ¹ the Saucieituny; the Pmrape (i2) by using large ^ eitim ^ squerschnit / te atlits under nloichera pressure as exe l'lUGrx ^ koit xr: i vessels ^ v ) .irrccnt I ₁ -Q ₁₁₁ -ry-f ^ 4- r> .. 1., .. ^ 2 £ * 4 * ""! ^rt '^ ^ Π ffiι / ΓίΤΤ? .. Consists iadurch gelconnzeichnot / dasf Inojrhermen and two Irobaren 'is the isobaric Ablcühlung and preheating in a common heat exchanger ^ made from swoi, the isothermal compression and expansion but in a $ ö! .Teschlosnenen uralrj.ui'enden PlüsF.i' ^ CEIT - STstem causes v / ird of which ü ^ p one through the external air is constantly gelcünX5, but the other is continuously heated by the item to be selected Vv "ird (7) ·
ψ.) Ancestors according to claim ^ characterized in that the isothermal relaxation; this causes the liquid flowing through a tapering vessel in the direction from rosnen to kl · -. · inen. '. uersclinitt to flow from there into the drive nozzle of a turbine! au gelanp; en _? at the point of the low: -th liquid velocity. Gas suneretst and at the part of the jös: th Geycliv.'indi ^ nity e: n.tnoiMiJ '-> n vird · .) Device for 'Ausawfesraapf the method according to claim ψ and ^ characterized in that the liquid in which the gas expansion takes place by a pump (27) venlnnn reisuf au ve ^ i-iign ■' fcifr-aaa dop. (-in a cooling coil (7) V3amo. into a tapering vessel (2SJrdann Ίη a! turbine & 7 / ieaer to the irUmpe ^ V) ο Ό device according to claim f ^ characterized in that the turbine (26) has a BinlauJTdüse which is long in relation to the diameter and has a Laval nozzle-shaped outlet and that ax \ s her the relaxed ^ Liquid downwards, but the relaxed gas exits upwards, which latter flows in an insulated line (36) to the cold Sfc.de of a countercurrent heat exchanger (29) Device according to claim | # to TQ _51, characterized in that the admixture of the already cold gas to the already cold liquid in the tapered vessel (28) by fine nozzles (32) which are arranged in the shape of a shower, Device according to claim i to 11 _? characterized! J
that the size of the pump (2Ί) is chosen and its work is regulated so that the liquid flows so quickly that it has an approximately constant temperature at the SÄSSix point so that the iempef-aturdifferensen thereof are at most 5 degrees C ^