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Publication numberUS3802956 A
Publication typeGrant
Publication dateApr 9, 1974
Filing dateMar 16, 1971
Priority dateMar 17, 1970
Also published asCA936309A, CA936309A1, DE2112633A1, DE2112633B2, DE2112633C3
Publication numberUS 3802956 A, US 3802956A, US-A-3802956, US3802956 A, US3802956A
InventorsBacklund E
Original AssigneeKamyr Ab
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Method for impregnation of cellulosic fiber material with digesting liquor while preventing dilution of said liquor
US 3802956 A
Abstract  available in
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Claims  available in
Description  (OCR text may contain errors)

United States Patent 1m Backlund 1 1 Apr. 9, 1974 [54] METHOD FOR IMPREGNATION 0F 3.035.963 5/1962 Schnyder 162/19 CELLULOSIC FIBER MATERIAL WITH 3115591 DIGESTING LIQUOR WHILE PREVENTING DILUTION OF SAID LIQUOR [75] Inventor: Ernst AkeBacklund, Karlstad,

Sweden [73] Assignee: Kamyr Aktiebolag, Karlstad,

Sweden [22] Filed: Mar. 16, 1971 [21] Appl. No.: 124,857

[30] Foreign Application Priority Data Mar. 17, 1970 Sweden 3501/70 [52] US. Cl. 162/19, 162/237 [51] Int. Cl. .L D2lc 3/24 [58] Field of Search 162/19, 237, 33, 18

[56] References Cited UNITED STATES PATENTS 3,532,594 10/1970 Richter 162/19 3,578,554 5/1971 Richter 162/19 2,996,422 8/1961 Durant et a1 162/19 3,200,032

8/1965 Richter 162/19 11/1965 Schnyder 162/18 X Primary Eraminer-Robert L. Lindsay, Jr.

Assistant Examiner-Arthur L; Corbin Attorney, Agent, 7 or FirmCushman, Darby & Cushman ABSTRACT The digestion of cellulosic fiber material in a continuous digester is preceded by impregnation of the fiber material with digesting liquor in a separate vessel. In said impregnation vessel where the fiber material moves continuously from the top to the bottom, di-

gesting liquor is supplied and spread at the middle 7 7 Claims, 1 Drawing Figure PATENTEB APR 9 i974 ATTORNEYO METHOD FOR IMPREGNATION OF CELLULOSIC FIBER MATERIAL WITH DIGESTINGLIQUOR WHILE PREVENTING DILUTION OF SAID LIQUOR The invention relates to cellulose digestion, wherein wood chips or similar cellulosic fibre material before being introduced in a digester are impregnated with digesting liquor in a separate impregnation vessel.

The object of the invention is to raise the concentration of the digesting liquor 'with which the fibre material is impregnated in said vessel, in order to shorten the time required for the subsequent digestion and to obtain a more uniform pulp quality and other advantages. Ordinarily, the digesting liquor is diluted with the moisture present in the untreated chips and, as the impregnation step usually is preceded by steaming of the chips, also with condensed steam. Therefore, thechips can hardly absorb a sufficient quantity of liquor to impregnate them with the total amount of active chemicals required for the subsequent digestion, but an additional amount of active chemicals must be supplied during the digestion period by diffusion into the fibre material from liquor surrounding the chips in the digester. 1

In order that the fibre material before thestart of the digestion period shall have absorbed the amount of active chemicals required for the lignin dissolution, it has already been proposed to use digesting liquor with an extremely high concentration. However, in sulphate digestion the white liquor usually does not contain more than 130-150 grams per litre of active alkali, NaOl-l of wood chips (but also may consist of straw, bagasse, reed or other cellulosic plant materials) is supplied from a chips bin 11 througha rotary low-pressure valve 13 to the steaming vessel A. Steam of low pressure, e.g., 1 atmosphere overpressure, is supplied to said vessel through a conduit 15, and air is driven off through the conduit 17. The chips pass through the steaming vessel in about 2-5 minutes and then drop down into a rotary high-pressure valve 19 of the kind wherein a rotor having pockets or diametrical passages turns in a stationary casing. From said valve the chips are pumped to the top of the impregnation vessel B by means of circulating liquid which is forced by the pump 20 to flow through the conduits 21, 23. The liquid flushes chips out of the valve 19 and the suspension of chips is driventhrough the conduit 21 to the space inside a strainer girdle 25 inserted in the top of the impregnationvessel, from where the chips are passed on downwardly by a feeding screw '27. Liquid. passing through the strainer girdle 25 is recirculated to the valve 19 through the return conduit 23. The chips are filled into the pockets of the high-pressure valve 19 by meansof liquid held in circulation in the loop 37 by a pump 35. Liquid let out to the low-pressure side, of the valve flows from said loop to a level tank 39 and is returned therefrom through the conduit 41 and the pump toward the lower end. Provided at the bottom thereof Na S. It has been proposed to evaporate the white liquor partly in order to raise its concentration before the chips are impregnated therewith. However, certain operational problems are connected therewith, such as riskof crystallization, incrust accumulation etc., and an evaporation unit is also quite costly.

According to an other known proposal the liquid to wood ratio during the digestion is lowered by withdrawing liquid in steam form from the vessel in which the fibre material is impregnated with digesting liquor. Said method also requires theuse of special equipment for the evaporation of the digesting liquor and is comparatively difficult to control.

' The present invention relates to a new and simpler method of concentrating the digesting liquor in connection with the impregnation of chips therewith. The

essential feature of said method consists in that digesting liquor is supplied to and spread over a zone of the impregnation vessel situated distantly from the bottom as well as from the top of said vessel, said liquor being driven partly upwards in counter-current to the fibre.

- plant will first be described.

The shown plant comprises'three treatment vessels,

viz. a steaming vessel A, an impregnating vessel B, and I a digester C. The fibre material which usually consists is a device for the continuous discharge of chips which have been impregnated with digesting liquor during their continuous movement downwardly through the vessel. Said device comprises a disc or table 45 sup ported by a rotary vertical shaft 43. Said table extends over the greater part of the cross-section of the impregnation vessel and is formed with one or more radially extending slots through which the chips can pass to the lower side thereof. Preferably, the table is made in accordance with the US. Pat. No. 2,960,'l6l. When the table is turned, chips will be loosened from the chips column resting upon the table and passed through said slots to the space 47 at the bottom of the impregnation vessel,'where they are suspended in liquid supplied through nozzles 49. By .means of a collar 51 attached to 'the shell of the vessel chips are prevented from reaching the edge of the rotary table where they might get stuck. The impregnation requires a time of l0-60- minutes.

From the bottom of the impregnation vessel B the chips suspension is transferred to the top of the digester C by means of liquid (digesting liquor) circulating in the conduits 53, 55. The conduit 53 is connected directly to an outlet 57 at the bottom of the impregnation vessel. A pump 59 is inserted in the return conduit connected to the nozzles 49. The pump 59 maintains such a heavyflow in the conduits 53, 55 and in the space 47 that chips entering said space are brought along and flushed out through the outlet 57. The table 45 serves as a screen that retains the chips column so that the same doesnot block the outlet, and consequently the chips will be diluted and suspended merely in the immediate vicinity of the outlet 57.

At the digester top the conduits 53, 55 are connected to a separation device 52. The supply conduit 53 opens out inside a'cylindrical strainer 54in the separation dethrottling device 101.

' liquor required for the digestion of the fibre material is vice, and the return conduit 55 is connected to the space outside 'of said strainer. The chips retained by the strainer and drained of free liquor. are fed by a motordriven conveyer screw 56 up through the obliquely slanting casing of the separation device and are deliv- 5 ered at its'upper end into the top of the digester C.

In the upper part of the digester high-pressure steam is supplied by the conduit 61 in such a quantity that a pressure of the order of atmospheres and a temperature of the order of l60180 C are maintained in the digester. For additional heating which may be required in some cases, there is provided a circulation loop for the digesting liquor, consisting of the strainer girdle 63, the pump 65, the heat exchanger 67 and the central return conduit 69. In the lower end part of the digester l5 7 the digested fibre material is washed in counter-current by means of washing liquid supplied by the conduit 71 to two blow'tanks 89, 90 connected in series. By means of the strainer girdle 92, the pump 93 and thecentral conduit 95 a strong horizontal and radial flow of liquid is maintained at a level somewhat below-the strainer girdle 87, whereby the washing effect is improved. The

digested fibre material is discharged at the lower end of the digester by means of a rotary scraper 99 and a The application of the present invention to the above described plantrequires a modified design of the im- ,pregnation vessel B. The main feature of said rnodifica tionis the provision of a strainer girdle 28 for separation of liquid from the chips column. Said strainer girdle is inserted in the wall of the upper part of the impre'gna'tion vessel at a distance from the top of the vessel preferablylying between a fifth and a third of the possible alkali content thereof is utilized.

The entire quantity or the greater part of the white supplied to and distributed over a zone of the impreg- S5 nation vessel located distant from its ends and preferably somewhere on the middle third of its length. White .temperature of 50-l50 I the impregnation vessel substantially the same pressure C, preferably l 30 C. in

vessel together with the chips. Said liquid consists of chips moisture, condensed steam and black liquor. The

black liquor is supplied through the conduit 33 and serves as a conveying medium for flushing chips out of the valve 19 for their transfer to the top of the impregnation vessel. Said displaced liquid which contains very little of active digesting chemicals, is separated from the chips by the strainer 28 and departs through the conduit 30, the pores and 'interspaces of the chips instead being filled up with white liquor. Of course, the

total quantity of the liquid previously accompanying the chips cannot be driven off completely and the new liquid content of the chips cannot reach quite the same high concentration of alkali as that of the white liquor supplied by theconduit 38. However, the concentration of active alkali gets considerably higher than if the white liquor were simply mixed into the fibre suspension, i.e., without any orderly flow relatively thereto and without the withdrawal of a fraction having a low alkali content.

During the flow of the white liquor in .countercurrent to the chips upwardly towards the'strainer 28, the same diffuses into the fibre material and 'a great part of the alkali thereof is spent while dissolving hemicellulose etc. Also said spent or weakened liquor together with reaction products may be withdrawn through'the strainer 28 and carried off for recovery, this requiring a heavy upward flow of liquor which may involve a certain waste of alkali.-

In'some cases it may be advantageous to supply black liquorto the charging circulation in such a quantity that an excess thereof is driven'together with moisture and steam condensate toward the strainer 28 inthe extreme top end of theimpregnation vessel, i.e., in cocurrent to the chips. Another modification'consists in replacing the black liquor wholly or partly with white liquor. This can be performed by introducing white liquor from the conduit 31 via the valve 48 into the conduit 50 connected to the top of the impregnation vessel. The total quantity of white'liquor and the portions thereof supplied to various points of the impregnation vessel can be set by the valves 10 and 12 controlled by flow regulators. The amount of white liquor supplied to the top should be so adjusted that it is almost entirely spent by the wood in the upper part of the vessel, so that no or merely a small amount of active alkali reaches the strainer 28 and goes lost.

By the above-described method of raising the alkali concentration of the white liquor absorbed by the chips in the impregnation vessel, after having been drained of free liquor in the device 52 the chips will retain in their pores a quantity of alkali sufficient for the subsequent digestion which therefore can be performed in steam phase. Thus, if desired, the liquid level in the digester total quantity of supplied liquid can be placed immediately above the strainer girdle 87. However, as an alternative, a certain amount of free liquor can be allowed to flow over from the separating device 52 to the digester and the liquid level may be placed so high (e.g., at the level shown by the drawing) that the digestion takes place wholly or partly in liquid phase. Also in this case an advantage is gained consisting in that the lignin dissolution takes place with a comparatively great liquor concentration which involves a shortened digestion'time period.

The amount of liquid withdrawn through the strainer 28 is determined by the liquid to wood ratio desired during the digestion and by the total liquid flow to the impregnation vessel. The liquid balance of the impregnation vessel may e.g. be the following:

l.O m lton bone dry wood 0.3 m /ton bone dry wood 0.7 m-Iton bone dry wood 1.5 m /ton bonc dry wood 3.5 m /ton bone dry wood liquid quantity withdrawn from 1.5 m lton bone dry wood the impregnation vessel The chips discharged from the impregnation vessel will then contain 2 m liquor per ton bone dry fibre. Said quantity can be almost completely absorbed by the pores of the chips when they consist of soft wood with a density of 0.40.

In this example, if the supplied quantity of white liquor is supposed to contain 165 kgs effective alkali (NaOl-l /2 Na S) per ton bone dry wood, and 90 kgs effective alkali are spent during the impregnation, the concentration of the liquid transferred to the digester together with the chips is equal to 165 =90/2.0=37 grams effective alkali per litre. Such a good result is obtained under the provision that the liquid quantity withdrawn by the strainer 28 does not contain any significant quantity of effective alkali. In the practice, this has proved possible to realize, so that the withdrawn liquid merely contains chips moisture, steam condensate, black liquor, and a small amount of white liquor out of which the chips have absorbed substantially all effective alkali.

Within the scope of the invention the above described embodiment may be modified as to its details, particularly in respect of the location and the arrangement of the withdrawal strainer 28 and the liquor supply. Thus, for instance, the withdrawal may take place at the top of the impregnation vessel, e.g., by connecting the conduit 30 to the space outside of the top strainer 25. Then the strainer 28 is no longer required.

In the foregoing the invention has been described in connection with sulphate digestion but itmay also be used in any other alkalic digestion or in sulphite digestion, provided that the operational conditions are modified accordingly.

I claim:

1. A method for digestion of cellulosic fiber material by impregnation of the fiber material with digesting liquor in an impregnation vessel and continuous transfer of the impregnated fiber material from the bottom of the impregnation vessel to the top of a digester comprising the steps of: supplying and spreading digesting liquor over a zone of the impregnation vessel, the zone being located distant from the bottom and top of the impregnation vessel, driving the digesting liquor from said zone, partly upwards co'untercurrent to the fiber material while displacing the impregnating liquid introduced into the impregnation vessel together with the fiber material, and partly downwards co-current through the fiber material towards the bottom of the impregnation vessel, straining off the liquid displaced upwardly by the digesting liquor from the fiber material at a point which, measured in the vertical direction, is situated between the top of the impregnation vessel and the zone where the digesting liquor is supplied to the impregnation vessel and discharging the separated displaced liquid from the impregnation vessel. I

2. Method according to claim 1 comprising the further steps of supplying digesting liquor centrally in the impregnation vessel and spreading radially in all direction and distributing over the cross-section of the fiber material column, draining off a corresponding amount of liquor at the periphery of said column and recirculating said liquor.

3. Method according to claim 1, comprising the further steps of introducing digesting liquor into the impregnation vessel also at the top thereof, together with the fiber material, and straining off and discharging a corresponding liquid quantity containing wholly or partly spent digesting chemicals together with the liq- I uid displaced by the digesting liquor supplied farther down in the vessel.

4. Method according to claim 1 comprising the fur- I ther step of: combining liquid withdrawn from the fiber material in the impregnation vessel with spent liquor obtained by the digestion, for common recovery of chemicals therein.

5. Method according to claim 1 wherein the impregnation is performed at substantially the same pressure as the digestion.

6. Method according to claim 1 wherein the digesting liquor is sulphate liquor. I

7. Method according to claim 1 wherein the impregnation takes place at a temperature of the order of 50 l50 C, preferably l30C, whereas the digestion takes place at a temperature of the order of l60-180 C. i

Referenced by
Citing PatentFiling datePublication dateApplicantTitle
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U.S. Classification162/19, 162/237
International ClassificationD21C1/00
Cooperative ClassificationD21C1/00
European ClassificationD21C1/00