DK151182B - EVAPORATION PROCEDURE AND APPARATUS - Google Patents
EVAPORATION PROCEDURE AND APPARATUS Download PDFInfo
- Publication number
- DK151182B DK151182B DK318283A DK318283A DK151182B DK 151182 B DK151182 B DK 151182B DK 318283 A DK318283 A DK 318283A DK 318283 A DK318283 A DK 318283A DK 151182 B DK151182 B DK 151182B
- Authority
- DK
- Denmark
- Prior art keywords
- steam
- evaporator
- evaporation
- evaporators
- blower
- Prior art date
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Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D1/00—Evaporating
- B01D1/26—Multiple-effect evaporating
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D1/00—Evaporating
- B01D1/28—Evaporating with vapour compression
- B01D1/2803—Special features relating to the vapour to be compressed
- B01D1/2812—The vapour is coming from different sources
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D1/00—Evaporating
- B01D1/28—Evaporating with vapour compression
- B01D1/2884—Multiple effect compression
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- Chemical & Material Sciences (AREA)
- Chemical Kinetics & Catalysis (AREA)
- Vaporization, Distillation, Condensation, Sublimation, And Cold Traps (AREA)
- Electric Connection Of Electric Components To Printed Circuits (AREA)
Description
i 151182 5 Denne opfindelse angår en inddampningsfremgangsmåde, ved hvilken inddampningen sker under anvendelse af mindst to separate, efter hinanden følgende inddampere, der er forbundet i serie med hensyn til den væske, der inddampes, hvor den i den første inddamper 10 dannede damp skilles fra den tilbagestående væske, som føres til den anden inddamper til videre inddamp-ning, og hvor den væske, der skal inddampes, opvarmes med damp, som i det mindste delvis består af den ved inddampningen dannede damp, og som tilføres inddam-15 perne fra et kanalsystem, der er udstyret med mindst to blæsere eller tilsvarende organer, der øger dampens tryk, hvorved dampen udsættes for en trykforøgelse, før den føres til inddamperen.This invention relates to an evaporation process in which the evaporation takes place using at least two separate successive evaporators connected in series with respect to the liquid being evaporated from which the vapor formed in the first evaporator 10 is separated. the residual liquid which is fed to the second evaporator for further evaporation and wherein the liquid to be evaporated is heated by steam which consists, at least in part, of the steam formed by the evaporation and which is supplied to the evaporators from a duct system equipped with at least two blowers or equivalent means that increase the pressure of the steam, thereby exposing the steam to a pressure increase before being fed to the evaporator.
20 Der kendes i teknikken sådanne inddampnin'gsfremgangsmåder, hvor den væske, der skal inddampes, føres gennem efter hinanden følgende inddamperenheder, således at inddampningstemperaturen og faststofindholdet i væsken øges trinvis. Det er muligt som opvarmnings-25 damp at anvende den damp, der skilles fra den væske, der inddampes, idet tryk og temperatur i denne damp øges ved hjælp af blæsere, kompressorer eller lignende apparater.In the art, such evaporation methods are known in which the liquid to be evaporated is passed through successive evaporator units so that the evaporation temperature and the solids content of the liquid are incrementally increased. It is possible to use as steam steam the steam which is separated from the liquid which is evaporated, as the pressure and temperature in this steam is increased by means of fans, compressors or similar apparatus.
30 Fra det svenske patent nr. 55 386 kendes et apparat, af omtrent ovennævnte art, som består af vertikale varmerør, hvori den væske, der skal inddampes, sammen med den dannede damp stiger opad og samles i et kammer, der ligger over rørerne. Der er i dette apparat 2 151182 dog i hovedsagen tale om et enkelt inddampningstrin og ikke om et gennemført flertrinsinddampningsappara-tur. Der indgår i dette anlæg en enkelt kompressor til frembringelse af tryk- og temperaturforøgelse i 5 dampen. Denne kompressor har seks afdelinger, hvis funktioner ikke beskrives nærmere, men disse afdelinger er sammenkoblede, og man kan således ikke regulere hver afdeling individuelt.30 Swedish Patent No. 55,386 discloses an apparatus, of the kind mentioned above, which consists of vertical heat pipes in which the liquid to be evaporated, together with the steam produced, rises upwards and is collected in a chamber overlying the pipes. In this apparatus, however, this is essentially a single evaporation step and not a completed multi-stage evaporation apparatus. This plant includes a single compressor for generating pressure and temperature increase in the steam. This compressor has six compartments, the functions of which are not described in detail, but these compartments are interconnected, so you cannot individually regulate each compartment.
10 Fra det amerikanske patentskrift nr. 1 200 996 kendes et inddampningsanlæg med et system af seriekoblede blæsere. I dette anlæg føres den damp, der dannes i en inddamper, til den i seriesystemet foregående inddamper, hvor den blandes med væsken, som skal inddam-15 pes deri. Dette anlæg er i sin konstruktion kompliceret, og reguleringen af inddampningsprocessen er vanskelig.10 U.S. Patent No. 1,200,996 discloses an evaporation plant having a system of series-connected fans. In this system, the vapor formed in an evaporator is fed to the evaporator preceding the series system where it is mixed with the liquid to be evaporated therein. This plant is complicated in its design and the regulation of the evaporation process is difficult.
De kendte fremgangsmåder af ovennævnte art har i 20 praksis vist sig at implicere problemer på grund af den kendsgerning, at processernes effektivitet tenderer til at aftage med tiden på grund af inddampernes tilsmudsning. Da faststofindholdet af det fortykkede produkt skal være konstant, må tabet i inddampnings-25 effektivitet kompenseres ved tillæg til blæsernes løftehøjde. Det er imidlertid en kendsgerning, at alle reguleringsorganer i forbindelse med blæserne øger disses energiforbrug, hvortil kommer, at reguleringen skal være yderst nøjagtig, idet selv en mindre ænd-30 ring i den mængde væske, der fordampes, bevirker en forholdsmæssig stor ændring i koncentrationen af det fortykkede produkt. Af denne årsag er der i praksis opstået vanskeligheder ved at holde denne koncentration konstant.The known processes of the above-mentioned kind have in practice been found to imply problems due to the fact that the efficiency of the processes tends to decrease over time due to the soiling of the evaporators. Since the solids content of the thickened product must be constant, the loss in evaporation efficiency must be compensated by addition to the lifting height of the fans. However, it is a fact that all the regulators associated with the fans increase their energy consumption, in addition to the fact that the regulation must be extremely accurate, since even a minor change in the amount of liquid evaporated causes a relatively large change in concentration. of the thickened product. For this reason, in practice, difficulties have been encountered in keeping this concentration constant.
3 1511823 151182
Det er formålet med denne opfindelse at frembringe en inddampningsfremgangsmåde, ved hvilken de nævnte problemer stort set er undgået.It is the object of this invention to provide an evaporation process in which the said problems are largely avoided.
55
Opfindelsen er ejendommelig ved, at den ved inddamp-ningen dannede damp samles i kanalsystemet og ledes, eventuelt sammen med en udefra tilført tilskudsdamp, til den første blæser, der virker som hovedblæser, 10 idet en del af den damp, der er passeret her igennem, føres til den første inddamper i serien, og en anden del føres til den anden blæser, der virker som hjælpeblæser, hvorfra dampen ledes til den anden inddamper i serien, og ved at blæserne drives uafhængigt af 15 hinanden og i hovedsagen således, at regulering af inddampningen sker med hjælpeblæseren, medens hovedblæserens funktion holdes konstant.The invention is characterized in that the steam formed during the evaporation is collected in the duct system and is passed, optionally together with an external supply steam, to the first blower which acts as a main blower, a part of the steam passed through it. , is fed to the first evaporator in the series, and a second portion is fed to the second blower, which acts as auxiliary blower, from which the steam is directed to the second evaporator in the series, and the blowers are operated independently of each other and substantially so that control of the evaporation occurs with the auxiliary fan, while the function of the main fan is kept constant.
Ved konstruktionsløsningen for opfindelsen, hvor ho-20 vedblæseren kan være væsentligt større end hjælpeblæseren, er det ikke absolut nødvendigt at regulere hovedblæseren overhovedet under processen, idet alle reguleringsforholdsregler i stedet kan være rettet mod hjælpeblæseren. Herved undgås nødvendigheden af 25 at montere dyrt reguleringsudstyr på hovedblæseren, og der opstår ikke ekstra energiforbrug ved processen. På grund af hjælpeblæserens mindre størrelse er monteringen af reguleringsorganer på denne enhed mindre dyr, og også fordi den energimængde, der optages 30 af hjælpeblæseren, er mindre, vil dette ikke væsentligt forøge processens totale energiforbrug selv ved ringere effektivitet, hvis dette var tilfældet. Den lille hjælpeblæser kan også reguleres temmelig nøjagtigt, således at den ønskede faststofkoncentration i 4 151182 det færdige, fortykkede produkt opnås nøjagtigt.In the design solution of the invention, where the main blower can be substantially larger than the auxiliary blower, it is not absolutely necessary to regulate the main blower at all during the process, since all control measures may instead be directed to the auxiliary blower. This avoids the need to install expensive control equipment on the main blower, and no additional energy consumption arises in the process. Due to the smaller size of the auxiliary fan, the mounting of control means on this unit is less expensive, and also because the amount of energy consumed by the auxiliary fan is smaller, this would not significantly increase the total energy consumption of the process even at poorer efficiency. The small auxiliary fan can also be adjusted fairly accurately so that the desired solids concentration in the finished thickened product is obtained accurately.
Opfindelsen angår endvidere et apparat til udøvelse af den lige beskrevne fremgangsmåde. Dette apparat 5 omfatter på en måde, der i sig selv er kendt i tek nikken, mindst to efter hinanden følgende inddampere, der er forbundet i serie med hensyn til den væske, der inddampes, og kanaler til indføring af væsken til den første inddamper, transport af den tilbagestående 10 væske til den anden inddamper og fjernelse af slutproduktet samt kanaler til fjernelse af den i den første henholdsvis den anden inddamper dannede damp, og et kanalsystem, gennem hvilket opvarmningsdamp, som i det mindste består af den ved inddampningen 15 dannede damp, transporteres til inddamperne, og som er forsynet med mindst to blæsere eller tilsvarende organer, der øger damptrykket. Apparatet er ejendommeligt ved, at kanalerne til fjernelse af dampen fra inddamperne indgår i kanalsystemet til tilførsel af 20 opvarmningsdampen og er koblet til den første af blæserne, som udgør en hovedblæser, der ved hjælp af kanaler er forbundet dels til den første inddamper i serien og dels til den anden blæser, der virker som hjælpeblæser, og at hjælpeblæseren ved hjælp af en 25 kanal er forbundet med den anden inddamper i serien, og at blæserne med hensyn til deres funktion er selv stændige, så inddampningen i hovedsagen kan reguleres med hjælpeblæseren, medens hovedblæserens funktion forbliver uændret.The invention further relates to an apparatus for carrying out the method just described. This apparatus 5 comprises, in a manner known per se in the art, at least two successive evaporators connected in series with respect to the liquid being evaporated and channels for introducing the liquid into the first evaporator. transporting the residual liquid to the second evaporator and removing the final product as well as channels for removing the vapor formed in the first and second evaporators, respectively, and a duct system through which heating vapor at least consists of the vapor formed during the evaporation 15 , is transported to the evaporators and is provided with at least two fans or similar means which increase the vapor pressure. The apparatus is characterized in that the channels for removing the steam from the evaporators are included in the duct system for supplying the heating steam and are coupled to the first of the blowers which constitute a main blower connected by means of ducts partly to the first evaporator in the series and partly to the second blower which acts as an auxiliary blower, and that the auxiliary blower is connected by means of a second duct with the second evaporator in the series, and that the blowers in respect of their function are self-contained, so that the evaporation can be regulated essentially by the blower blower while the function of the main fan remains unchanged.
3030
Opfindelsen beskrives i det følgende mere detaljeret ved hjælp af et eksempel med henvisning til tegningen, der viser et inddampningsapparat ifølge opfindelsen.The invention will now be described in more detail by way of example with reference to the drawing which shows an evaporator according to the invention.
5 1511825 151182
Det apparat, der er vist på tegningen, omfatter to efter hinanden følgende inddampere 1 og 2 forbundet i serie, og gennem hvilke den væske, der skal inddam-5 pes, føres, idet den passerer gennem ledningerne 3, 4 og 5· Inddampningen sker ved hjælp af damp, idet denne damp i det væsentlige er fremstillet af den damp, der skilles fra den væske, der skal inddampes i inddamperne 1 og 2. Denne damp, der opnås fra den væske, 10 der inddampes, fjernes fra inddamperne 1 og 2 ind i kanalerne 6 og 7, og føres yderligere gennem kanalerne 8, 9 og 10 som opvarmningsdamp tilbage til inddamperne. Til kanalen 7 er forbundet kanalen 11, gennem hvilken det er muligt at indføre ekstern damp i appa-15 ratet for at opretholde den termiske ligevægt.The apparatus shown in the drawing comprises two successive evaporators 1 and 2 connected in series, through which the liquid to be evaporated is passed as it passes through conduits 3, 4 and 5. by steam, said steam being essentially made of the steam which is separated from the liquid to be evaporated in evaporators 1 and 2. This vapor obtained from the liquid which is evaporated is removed from the evaporators 1 and 2 into channels 6 and 7, and is further passed through channels 8, 9 and 10 as heating steam back to the evaporators. Connected to the duct 7 is the duct 11 through which it is possible to introduce external steam into the apparatus to maintain the thermal equilibrium.
Kanalsystemet 6 - 11 er forsynet med to blæsere 12 og 13, ved hjælp af hvilke opvarmningsdampens tryk og temperatur øges i fornøden grad. Blæseren 12 i kana-20 len 8 virker som hovedblæser, gennem hvilken al den opvarmningsdamp, der anvendes mod inddampningen, passerer. Hovedparten af denne damp føres, for at virke som opvarmningsdamp, til den første inddamper 1 i serien, og resten føres gennem kanalen 9 til blæseren 25 13, der virker som hjælpeblæser, og derfra videre gennem kanalen 10 for at blive opvarmningsdamp til den sidste inddamper 2 i serien. Det kondensat, der dannes af opvarmningsdampen, fjernes fra inddamperne 1 og 2 i ledningerne 14 og 15.The duct system 6 - 11 is provided with two fans 12 and 13, by means of which the pressure and temperature of the heating steam are increased as required. The fan 12 in the channel 8 acts as a main blower through which all the heating steam used against the evaporation passes. Most of this steam is passed to the first evaporator 1 in the series, to act as a heating steam, and the remainder is passed through the duct 9 to the fan 25 13, which acts as auxiliary blower, and thence through the duct 10 to become the heating steam to the last evaporator. 2 in the series. The condensate formed by the heating steam is removed from evaporators 1 and 2 in lines 14 and 15.
30 I det viste apparat kan effektværdien for hjælpeblæseren 13 være af størrelsesordenen fra 1/10 til 1/5 af værdien af hovedblæseren 12. Hovedblæseren 12 er indrettet til at arbejde under optimale betingelser 6 151182 og reguleres ikke under inddampningsprocessen, af hvilken grund den ikke behøver at være forsynet med energiforbrugende reguleringsmidler. Det fald i ind-dampningseffektiviteten, der sker i løbet af proces-5 sen på grund af tilsmudsning af inddamperne 1 og 2, kompenseres udelukkende ved regulering af hjælpeblæseren 13, og til dette formål er hjælpeblæseren forsynet med en inverter, ledefinnekontrol eller lignende løftehøjderegulerende organer. Idet hovedparten af 10 inddampningen sker i den første inddamper 1 i serien, og kun en mindre del af opvarmningsdampen passerer gennem hjælpeblæseren 13, har reguleringsorganerne for hjælpeblæseren ingen væsentlig indflydelse på processens totale energiforbrug. Kontrollen af hjæl-15 peblæseren 13 kan i tilfælde med høje inddampnings- forhold være baseret på måling af slutproduktets tæthed, og som et resultat af styringens store nøjagtighed opnås højere faststofkoncentrationer i slutproduktet end før.In the apparatus shown, the power value of the auxiliary blower 13 can be of the order of 1/10 to 1/5 of the value of the main blower 12. The main blower 12 is adapted to operate under optimal conditions and is not controlled during the evaporation process, for which reason it is not need to be provided with energy-consuming regulators. The decrease in evaporation efficiency that occurs during the process due to soiling of the evaporators 1 and 2 is only compensated by the regulation of the auxiliary fan 13, and for this purpose the auxiliary fan is provided with an inverter, guide fin control or similar lift height regulating means. . Since most of the evaporation takes place in the first evaporator 1 in the series, and only a minor part of the heating steam passes through the auxiliary fan 13, the auxiliary fan control means have no significant influence on the total energy consumption of the process. The control of the auxiliary fan 13 can, in cases with high evaporation ratios, be based on the measurement of the density of the final product and, as a result of the high accuracy of the control, higher solids concentrations in the final product are obtained than before.
2020
Blandt anvendelserne for opfindelsen kan for eksempel nævnes forbehandlingen før tørreprocessen af valle, der anvendes ved fremstilling af vallepulver. Tørringen kan for eksempel ske i et spray-tørringsanlæg.Among the uses of the invention, for example, may be mentioned the pre-treatment before the drying process of whey used in the manufacture of whey powder. The drying can be done, for example, in a spray-drying system.
25 Ved sådan en forbehandling øges faststofindholdet i vallen fra 6 til 60 %, idet der anvendes for eksempel to efter hinanden følgende inddampere, af hvilke den første øger faststofindholdet til cirka 20 %. Ved en sådan proces kan hovedblæseren have en effektværdi 30 omkring seks gange den for hjælpeblæseren, og processen kan være således dimensioneret, at den nødvendige eksterne opvarmningsdamp højest er få procent af den totale mængde opvarmningsdamp.In such a pretreatment, the solids content of the whey is increased from 6 to 60%, using, for example, two successive evaporators, the first of which increases the solids content to about 20%. In such a process, the main blower may have a power value 30 about six times that of the auxiliary blower, and the process may be dimensioned such that the required external heating steam is at most a few percent of the total amount of heating steam.
Claims (4)
Applications Claiming Priority (4)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
FI813551A FI63680C (en) | 1981-11-10 | 1981-11-10 | AVDUNSTNINGSFOERFARANDE OCH ANORDNING |
FI813551 | 1981-11-10 | ||
FI8200056 | 1982-11-10 | ||
PCT/FI1982/000056 WO1983001579A1 (en) | 1981-11-10 | 1982-11-10 | Evaporating procedure and apparatus |
Publications (4)
Publication Number | Publication Date |
---|---|
DK318283A DK318283A (en) | 1983-07-11 |
DK318283D0 DK318283D0 (en) | 1983-07-11 |
DK151182B true DK151182B (en) | 1987-11-09 |
DK151182C DK151182C (en) | 1993-03-15 |
Family
ID=8514849
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
DK318283A DK151182C (en) | 1981-11-10 | 1983-07-11 | EVAPORATION PROCEDURE AND APPARATUS |
Country Status (6)
Country | Link |
---|---|
DE (1) | DE3249168C2 (en) |
DK (1) | DK151182C (en) |
FI (1) | FI63680C (en) |
NL (1) | NL8220411A (en) |
SE (1) | SE8303898L (en) |
WO (1) | WO1983001579A1 (en) |
Families Citing this family (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
FI122534B (en) * | 2007-10-26 | 2012-03-15 | Andritz Oy | Arrangement for evaporation of black liquor |
AT17768U3 (en) * | 2022-09-27 | 2023-03-15 | Gig Karasek Gmbh | Plant and process for the concentration of substance-containing liquids by multi-stage evaporation |
Family Cites Families (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US1200996A (en) * | 1912-10-14 | 1916-10-10 | Techno Chemical Lab Ltd | Method of evaporation, &c. |
CH224633A (en) * | 1941-11-27 | 1942-12-15 | Sulzer Ag | Evaporation plant. |
GB1157816A (en) * | 1966-04-13 | 1969-07-09 | Pietro Riva | Improvements in and relating to Evaporators |
FR2496482A3 (en) * | 1980-12-19 | 1982-06-25 | Laguilharre Sa | Multiple effect evapn. to concentrate liq. prod. esp. milk - uses single multistage vapour compressor instead of several single stage machines |
-
1981
- 1981-11-10 FI FI813551A patent/FI63680C/en not_active IP Right Cessation
-
1982
- 1982-11-10 NL NL8220411A patent/NL8220411A/en unknown
- 1982-11-10 WO PCT/FI1982/000056 patent/WO1983001579A1/en active Application Filing
- 1982-11-10 DE DE3249168T patent/DE3249168C2/en not_active Expired - Lifetime
-
1983
- 1983-07-08 SE SE8303898A patent/SE8303898L/en not_active Application Discontinuation
- 1983-07-11 DK DK318283A patent/DK151182C/en not_active IP Right Cessation
Also Published As
Publication number | Publication date |
---|---|
FI63680C (en) | 1983-08-10 |
DE3249168T1 (en) | 1983-11-17 |
DK318283A (en) | 1983-07-11 |
WO1983001579A1 (en) | 1983-05-11 |
DK318283D0 (en) | 1983-07-11 |
FI63680B (en) | 1983-04-29 |
DE3249168C2 (en) | 1994-02-24 |
DK151182C (en) | 1993-03-15 |
SE8303898D0 (en) | 1983-07-08 |
SE8303898L (en) | 1983-07-08 |
NL8220411A (en) | 1983-10-03 |
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