US2027115A - Method and apparatus for concentrating briskly foaming solutions - Google Patents

Method and apparatus for concentrating briskly foaming solutions Download PDF

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US2027115A
US2027115A US517545A US51754531A US2027115A US 2027115 A US2027115 A US 2027115A US 517545 A US517545 A US 517545A US 51754531 A US51754531 A US 51754531A US 2027115 A US2027115 A US 2027115A
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liquid
briskly
concentrating
foaming
layer
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US517545A
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Oman Erik
Ledin Sven Harald
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Industrikemiska AB
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Industrikemiska AB
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01DSEPARATION
    • B01D1/00Evaporating
    • B01D1/14Evaporating with heated gases or vapours or liquids in contact with the liquid
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10STECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10S159/00Concentrating evaporators
    • Y10S159/04Foam

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  • the fallof pressure when the gas is the bubble layer depends, inter alia, on the height of the bubble layerw ith an increasing height of this layer the gas resistance becomes greater.
  • the power consumption increases with an increasing fall of pressure, it is evidently desirable to be able to keep the bubble layer as low as possible, but not so low but thatcomplete balance -is maintained'between the temperature of the liquid and the saturation temperature of the gas.
  • a volume of gas as large as possible per square meter of the bottom area, without the fall of pressure becoming great. This is attained, first, by the free surface per square meter ofthe bottom area being as large as possible, and, second, by making the holes or apertures as great as possible, or, if slit-like 45 apertures are beingused, by making the width thereof as great as possible.
  • each hole cannot be made too large, however, as balance is not then obtained between the gas and the liquid. This will also be the case if the width of the slits is increased too much. With a certain size of the-holes the free surface can evidently be increased if the distance between the holes (equal to the pitch) is reduced. It is then found, however,'that if the distance between the holes is reduced too much, the bubble layer and 55 thus the fall of pressure will increase. If the pressed through the layer of liquor and through 'a trial temperature of'5, 5.)
  • the lower limit is applicable, whereas, when the concentration of the liquor is low, the limit is at the greater-limit values.
  • slits are used one may go as far as to a width of the slits of 12 mm.
  • FIG. 1 shows an evaporatsaturated state through the outtake 5.
  • the conc'entrated black liquor flows off through a pipe 6 to a lower vessel I.
  • the pipe 8 extends somewhat above the bottom 2.
  • a water pressure auge 8 is arranged for measuring the fall of pressure (mm. water column) in the bottom including the bubble layer.
  • Figs. 2-4 show various arrangements of circular perforations in the plate, I denoting the hole diameter and'a the pitch.
  • Fi s. 5-10 show some arrangements of slits in the perforated plate, a designating the width of the slits, b the pitch, and l the length .of the slits.
  • a condition for the circular holes or for holes of other shapes, as well as for. the slits is that the limit values in regard to diameter and area respectively, and width and pitch as set forth hereinbefore must be maintained.
  • Apparatus for concentrating briskly foamingliquids without excessive foaming and without the necessity of employing speeial'foam killing or breaking meanswhieh includes, in combinationwith a container, means forintroducing and withdrawing the liquid to betreated and means for introducing and withdrawing the gaseous medium to be brought into intimate contact with said liquid, a substantially horizontal perforated plate in said container on-which a layer of said liquid is maintained and beneath which said gaseous medium is introduced under pressure, said perforated plate being provided with a multiplicity of apertures the area of each of which is at least 0.8 square mm. and not more than 1.0 square em. and whose pitch is at least 2.8 times the width of the aperture, whereby a relatively large volume of gaseous medium may be forced through said liquid without use of relatively high pressure and without generation of an excessive body of foam over said liquid.
  • Apparatus for concentrating briskLv'foammeans for introducing and withdrawing the gasforatediplate in said container on which a layer thereof which consists of the steps of passing 5 ing liquids without excessive foaming and without the necessity of employing special foam killing or breaking means which includes, in combination with a container, means for introducing and withdrawing the liquid to be treated and 5 eous medium to be brought into intimate con act with said liquid, a substantially horizontal perforated plate in said container on which a layer of said liquid is maintained and beneath which said gaseous medium is introduced under pressure, said perforated plate containing a multiplicity of circular apertures the diameter of each of which is at least 1.0 mm. and not more than 12.0 mm. and whose-pitch is at least 2.8 mm., whereby a relativelylarge'volume of gaseous medium may be forced through said liquid without use of relatively high pressure and without generation of, an excessive body of foam over said liquid.
  • Apparatus fokconcentrating briskly foaming liquids without excessive foaming and without the necessity of employing special foam killing or breaking means which includes, in combination with a container,- means for introducing .1 andwithdrawing the liquid to be treated and means for introducing and withdrawing the gaseous medium to be brought into intimate contact with said liquid, a substantially horizontalperof said liquid is maintained and beneath which 30 said gaseous medium is introduced under pres sure, said perforated plate containing a multiplicity of slit-like apertures the width of each of which is at least 0.75 mm. and notmore than 12.0 mm. and whose pitch is at least 2.5 times the width, whereby a relatively large volume of gaseous medium may be forced through said liquid without use of relatively high pressure and without generation of. an excessive body of foam 0 over said liquid.
  • the method of concentrating briskly foaming liquids while avoiding excessive foaming thereof which consists of the steps of passing a current of gas under pressure through a layer 5 of said liquid and dividing the current of gas into a multiplicity of streams substantially uniformly distributed with respect to said layer, said streams having individual cross-sectional areas of at least 0.8 square mm. and not more than 50 1.0 square em. and pitches at least 2.8 times the width of said streams.

Description

Jam '?,1936. (j AL 2,027,115
METHOD AND APPARATUS FOR CONCENTRATING BRISKLY FOAMING SOLUTIONS Fild Feb. 21, 1931 fm elzlars 522% 0mm and S ew/Y Lea 112a Patented Jan. 7, 1936 UNITED STATES PATENT. OFFICE METHOD AND APPARATUS FOR CONCEN- TRATING BRISKLY FOA'MING SOLU- TION S Erik Oman, Stocksund, and Sven Harald Ledin, Stockholm, Sweden, assignors to Industrikemiska Aktlebolaget, Stockholm, Sweden, a Swede lsh joint-stock company Application February 21, 1931, Serial No. 517,545
In Sweden February 21, 1930 Claims. (01. 159 -16) duced, when the gases are pressed through the liquor, is apt to become so brisk as to render the whole operation impossible. Difierent kinds of liquor behave quite differently in this process. For example, fresh black liquor foams much more powerfully than such that has been stored for some time, which is believed to depend on the fact that in the latter case the resin-soap has had an opportunity to separate, or at least to condense into larger particles.
With an increasing concentration of the black liquor the tendency of the same toward foaming is reduced. w
25 Obviously, the fallof pressure when the gas is the bubble layer depends, inter alia, on the height of the bubble layerw ith an increasing height of this layer the gas resistance becomes greater. As
30 the power consumption increases with an increasing fall of pressure, it is evidently desirable to be able to keep the bubble layer as low as possible, but not so low but thatcomplete balance -is maintained'between the temperature of the liquid and the saturation temperature of the gas. In order to obtain ayield as large as possible with an apparatus of a certain bottom area, it is desirable to bring forth.a volume of gas as large as possible per square meter of the bottom area, without the fall of pressure becoming great. This is attained, first, by the free surface per square meter ofthe bottom area being as large as possible, and, second, by making the holes or apertures as great as possible, or, if slit-like 45 apertures are beingused, by making the width thereof as great as possible. The area of each hole cannot be made too large, however, as balance is not then obtained between the gas and the liquid. This will also be the case if the width of the slits is increased too much. With a certain size of the-holes the free surface can evidently be increased if the distance between the holes (equal to the pitch) is reduced. It is then found, however,'that if the distance between the holes is reduced too much, the bubble layer and 55 thus the fall of pressure will increase. If the pressed through the layer of liquor and through 'a trial temperature of'5, 5.)
distance between the holes is reduced still more, a powerful foaming. will set in, and the method is rendered impossible.
In trials performed ithas been found that, in order to attain a good result, it is not possible to 5 use. holes of a smaller diameter than 1 mm., that is to say a surface of about 0.8 square mm., preferably not smaller than 2.5 to 3 mm., that is to say a surface of 5 to '7 sq. mm., and with the use of 'slits these cannot be narrower than 0.75 mm. a
preferably not narrower than 1.5 to 2.0 mm.
With a high concentration of the black liquor the lower limit is applicable, whereas, when the concentration of the liquor is low, the limit is at the greater-limit values.
If holes are used it is possible in certain cases to go as far as to a diameter of 12 mm. that is to say to a surface of about 1 sq. cm.
' If slits are used one may go as far as to a width of the slits of 12 mm.
It is of importance that the holes are not too small or that the width of the slits is not too small, as the work is then rendered entirely impossible by reason of the formation of foam.
This is of greater importance than that the holes and slits should not be too large.
It is of importance that the pitch, that is to say the distance between the centers. of the holes,
or the distance between the center linesof the slits, shall not be-too small, as violent foaming is As an example, the following may-be mentioned:
(Black liquor of 13 to 14 B. (at 50 C.) and 1 Ram: Fall of B W 40 tween 188811179 ll 6 Pitch Relative Trial itch in mm. layer in ma ari d hole water in cm.
' diameter column 25 a 1 0 3.6 10 45 22. 5 l 2 3. 2 40 15 20 1 e 2.85 52 25 17. 5 2 0 i 2. 5 about 90 The quantity of air was in all four cases 500 liters'per minute per sq. dm. of the bottom area. 50 That the fall of pressure is lower in 'trial 2 than in trial 1 depends on the fact that in the first case the free surface is larger than in the second case, the free surfaces being related to each other as 1.0:13 forthese two trials. For
all four trials the free surfaces are related to each otheras 1.0:1.2:1.6:2.0, the ratio between the pitch and the hoie'diameterbelng 3.6; 3.2; 2.85 and 2.5 respectively. 7
From this it will be seen that in trial-i the free area is twice as large as in trial 1; in the first case, however, the fall of'pressure will betwice as great as in the latter case, depending.
on the fact that the height of the bubble layer has been considerably increased. It should be mentioned, in addition, that'in trial 4'the formation of foam was so powerful as to render A technical use of this bottom impossible.
5..I'he invention is illustrated in the accompanying drawing in w ch Fig. 1 shows an evaporatsaturated state through the outtake 5. The conc'entrated black liquor flows off through a pipe 6 to a lower vessel I. The pipe 8 extends somewhat above the bottom 2. A water pressure auge 8 is arranged for measuring the fall of pressure (mm. water column) in the bottom including the bubble layer.
Figs. 2-4 show various arrangements of circular perforations in the plate, I denoting the hole diameter and'a the pitch.
Fi s. 5-10 show some arrangements of slits in the perforated plate, a designating the width of the slits, b the pitch, and l the length .of the slits.
A condition for the circular holes or for holes of other shapes, as well as for. the slits, is that the limit values in regard to diameter and area respectively, and width and pitch as set forth hereinbefore must be maintained.
What we claim is:--
1. Apparatus for concentrating briskly foamingliquids without excessive foaming and without the necessity of employing speeial'foam killing or breaking meanswhieh includes, in combinationwith a container, means forintroducing and withdrawing the liquid to betreated and means for introducing and withdrawing the gaseous medium to be brought into intimate contact with said liquid, a substantially horizontal perforated plate in said container on-which a layer of said liquid is maintained and beneath which said gaseous medium is introduced under pressure, said perforated plate being provided with a multiplicity of apertures the area of each of which is at least 0.8 square mm. and not more than 1.0 square em. and whose pitch is at least 2.8 times the width of the aperture, whereby a relatively large volume of gaseous medium may be forced through said liquid without use of relatively high pressure and without generation of an excessive body of foam over said liquid.
2. Apparatus for concentrating briskLv'foammeans for introducing and withdrawing the gasforatediplate in said container on which a layer thereof which consists of the steps of passing 5 ing liquids without excessive foaming and without the necessity of employing special foam killing or breaking means which includes, in combination with a container, means for introducing and withdrawing the liquid to be treated and 5 eous medium to be brought into intimate con act with said liquid, a substantially horizontal perforated plate in said container on which a layer of said liquid is maintained and beneath which said gaseous medium is introduced under pressure, said perforated plate containing a multiplicity of circular apertures the diameter of each of which is at least 1.0 mm. and not more than 12.0 mm. and whose-pitch is at least 2.8 mm., whereby a relativelylarge'volume of gaseous medium may be forced through said liquid without use of relatively high pressure and without generation of, an excessive body of foam over said liquid.
- 3. Apparatus fokconcentrating briskly foaming liquids without excessive foaming and without the necessity of employing special foam killing or breaking means which includes, in combination with a container,- means for introducing .1 andwithdrawing the liquid to be treated and means for introducing and withdrawing the gaseous medium to be brought into intimate contact with said liquid, a substantially horizontalperof said liquid is maintained and beneath which 30 said gaseous medium is introduced under pres sure, said perforated plate containing a multiplicity of slit-like apertures the width of each of which is at least 0.75 mm. and notmore than 12.0 mm. and whose pitch is at least 2.5 times the width, whereby a relatively large volume of gaseous medium may be forced through said liquid without use of relatively high pressure and without generation of. an excessive body of foam 0 over said liquid.
4. The method of concentrating briskly foaming liquids while avoiding excessive foaming thereof which consists of the steps of passing a current of gas under pressure through a layer 5 of said liquid and dividing the current of gas into a multiplicity of streams substantially uniformly distributed with respect to said layer, said streams having individual cross-sectional areas of at least 0.8 square mm. and not more than 50 1.0 square em. and pitches at least 2.8 times the width of said streams.
5. The method of concentrating briskly foaming liquids while avoiding excessive foaming a current of gas under pressure through a layer of said liquid and dividing the current of gas into a multiplicity of streams substantially uniformly distributed with respect to said layer, said streams having an'individual width of at least to 1.5 mm. and not more than 12.0 mm. and pitches at least 2.5 times the width of each stream.
ERIK 6MAN.
US517545A 1930-02-21 1931-02-21 Method and apparatus for concentrating briskly foaming solutions Expired - Lifetime US2027115A (en)

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Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2546251A (en) * 1947-02-03 1951-03-27 Inst Divi Thomae Foundation Process for drying yeast
US3404063A (en) * 1964-12-28 1968-10-01 Owens Illinois Inc By-product recovery from kraft black liquor
US3428529A (en) * 1965-07-17 1969-02-18 Inst Nat De Ind Solar distillation of foamed saline water to recover fresh water
US4434142A (en) 1982-09-28 1984-02-28 Imperial West Chemical Company Method for treatment of aluminum dross oxides
US4985118A (en) * 1987-03-24 1991-01-15 Konica Corporation Method for treating photographic process waste liquor through concentration by evaporation

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2546251A (en) * 1947-02-03 1951-03-27 Inst Divi Thomae Foundation Process for drying yeast
US3404063A (en) * 1964-12-28 1968-10-01 Owens Illinois Inc By-product recovery from kraft black liquor
US3428529A (en) * 1965-07-17 1969-02-18 Inst Nat De Ind Solar distillation of foamed saline water to recover fresh water
US4434142A (en) 1982-09-28 1984-02-28 Imperial West Chemical Company Method for treatment of aluminum dross oxides
US4985118A (en) * 1987-03-24 1991-01-15 Konica Corporation Method for treating photographic process waste liquor through concentration by evaporation

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