METHOD FOR IMPREGNATING CHIPS IN A CONTINUOUS DIGESTION SYSTEM

Abstract

A method for impregnating chips in a continuous digestion system with an impregnation vessel and a digester. The digestion system has a heat exchanger arranged between a first return line and a black liquor line. The heat exchanger allows a transfer of heat between the two lines. A principal part of the fluid contents of the impregnation vessel is constituted by chips moisture, steam condensate, added white liquor, and the fluid withdrawn from the top separator at the first return line, whereby the impregnation fluid in the impregnation vessel does not contain any substantial amount of black liquor from the digester. An impregnation vessel is established that is hydraulically isolated, in which the flow of fluid and the establishment of its alkali content take place without any influence from the fluid flow in the digester process.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 shows a first and a second preferred embodiment according to the present invention.

FIG. 2 shows a third alternative embodiment according to the present invention, where a portion of the fluid withdrawn from the top separator is led to the bottom of the impregnation vessel.

FIG. 3 shows a fourth and a fifth alternative embodiment according to the present invention, where the digestion system comprises a second impregnation vessel.

FIG. 4 shows a sixth alternative embodiment according to the present invention, where the digestion system comprises a second impregnation vessel.

Claims

1. A method for impregnating chips in a continuous digestion system, comprising: establishing a pressure of between atmospheric pressure and an excess pressure of 0.5 bar at a top of an impregnation vessel;feeding un-impregnated chips to the impregnation vessel;pre-heating, impregnating and forming the chips into a chips mixture using impregnation fluid during a retention time of at least 10 minutes;feeding impregnated chips mixture in a feed line from the impregnation vessel to a top separator arranged in a digester, accompanying the chips mixture with 7-25 m3 of fluid per ton of wood into the feed line up to the top separator;withdrawing a hot black liquor from a withdrawal strainer in the digester and sending the withdrawn hot black liquor in a black liquor line;withdrawing fluid from the top separator and leading the withdrawn fluid in a first return line to the impregnation vessel, leading 5-23 m3 of fluid per ton of wood in the first return line after withdrawal in the top separator;transferring heat from the black liquor line to the first return line in a heat exchanger arranged between the first return line and the black liquor line;accompanying the chips with less than 3.5 m3 of fluid per ton of wood into the digester after the chips mixture having been dewatered in the top separator;more than 75% of the fluid added to the impregnation vessel being constituted by fluid withdrawn in the first return line;less than 0.5 m3 fluid per ton of wood added to a transfer flow being constituted by other fluids than white liquor, the transfer flow being comprised of the impregnation vessel, the feed line, the top separator and the first return line,a principal part of a fluid contents in the impregnation vessel being constituted by chips moisture, steam condensate, added white liquor, and the fluid withdrawn from the top separator into the first return line;the impregnation fluid in the impregnation vessel not containing any substantial amount of black liquor from the digester;hydraulically isolating the impregnation vessel; andflowing fluid and establishing an alkali content in the impregnation vessel without any influence from a fluid flow in a digester process in the digester.

2. The method according to claim 1, wherein a portion of fluid is withdrawn from the impregnation vessel, through a strainer in the impregnation vessel, and sent to the recovery process.

3. The method according to claim 1, wherein a portion of the fluid in the first return line is sent, after passing through the heat exchanger, in a second return line to a bottom of the impregnation vessel.

4. The method according to claim 3, wherein a portion of fluid in the second return line is further heated by passage through a second heat exchanger before the portion of fluid withdrawn from the first return line is sent to the bottom of the impregnation vessel.

5. The method according to claim 4, wherein black liquor is led to the second heat exchanger through the black liquor line, and where the second heat exchanger transfers heat from the black liquor in the black liquor line to the fluid in the second return line.

6. The method according to claim 1, wherein the top separator is arranged at the top of the digester.

7. The method according to claim 1 wherein the method further comprises arranging a second top separator at a top of a second impregnation vessel, where the chips are further impregnated, and where the impregnated chips are subsequently fed in a chips line to a top separator arranged at a top of the digester.

8. The method according to claim 7, wherein the method further comprises withdrawing fluid from the top separator at the digester (102), and leading this withdrawn fluid in a fluid line to a bottom of the second impregnation vessel.

9. The method according to claim 7, wherein the method further comprises placing the second impregnation vessel under an excess pressure of at least 5 bar.

10. The method according to claim 1, wherein the method further comprises adding more than 30% of a total addition of white liquor to the first return line.

11. A method for impregnating chips in a continuous digestion system, comprising: feeding un-impregnated chips to an impregnation vessel;impregnating the chips in the impregnation vessel;feeding impregnated chips in a feed line from the impregnation vessel to a top separator arranged in a digester;withdrawing a hot black liquor from a withdrawal strainer in the digester and sending the withdrawn hot black liquor in a black liquor line a recovery process;withdrawing fluid from the top separator and leading the withdrawn fluid in a first return line to the impregnation vessel;transferring heat from the black liquor line to the first return line in a heat exchanger arranged between the first return line and the black liquor line;using the withdrawn fluid from the top separator for impregnating the chips in the impregnation vessel without using any black liquor, withdrawn from the digester, for impregnation; andhydraulically isolating the impregnation vessel from any fluid flow in the digester.

12. The method according to claim 11, wherein the method further comprises establishing an alkali content in the impregnation vessel by using the fluid withdrawn from the top separator.

13. The method according to claim 11, wherein the method further comprises heating the withdrawn fluid from the top separator prior to using the withdrawn fluid to impregnate the chips.