JP5060421B2 - Semi-chemical pulp manufacturing method and apparatus - Google Patents

Description

  The present invention relates to a method and apparatus for producing semi-chemical pulp from lignocellulosic material.

  Semi-chemical pulping processes are known and described, for example, in US Pat. The semi-chemical pulping process has requirements and operating conditions that differ from pulping processes including Lo-Solids® cooking, for example, the pulping process disclosed in US Pat.

When producing semi-chemical pulp (pulp with a yield typically in the range of 65-85% used to produce corrugated media used for making iron), NaOH, Na ₂ CO ₃ , Na ₂ SO ₃ , kraft Several different chemical agents are used, such as white liquor or kraft green liquor, and in some cases high temperatures (over 160 ° C) and short cooking times (within 1 hour) produce semi-chemical pulp Used for.

In isolated semi-chemical pulp mills, NaOH, Na ₂ CO ₃ and Na ₂ SO ₃ are used separately or in combination or sub-combination, and these chemicals have low odor and especially When using NaOH and / or Na ₂ CO ₃ , there are advantages such as being able to be regenerated with a relatively simple recovery system commonly used for kraft liquids. Each chemical agent and mixture of chemical agents produces unique pulp properties due to differences in the type of wood used (eg, various types of hardwoods). Thus, a particular combination or sub-combination of chemical agents is selected based on the individual criteria of the pulp manufacturer.

  Although a simple process, a relatively short holding time can make it unrealistic to attempt to perform a multi-stage cooking process.

If a semi-chemical pulp production facility is operated in a kraft pulp mill, it may make sense to use green liquor from a chemical replenishment perspective. Green liquor is obtained by burning kraft black liquor and dissolving the resulting smelt in white liquor. The white liquor generally contains a mixture of NaOH and Na ₂ S, and the green liquor contains NaOH and Na ₂ S along with chemicals in the smelt produced by the combustion of black liquor. When green liquor is used in a digester with an extraction screen from which spent liquid is extracted, the extraction screen is very often coated with lignin.

This blockage or coating is caused by lignin precipitated from solution due to the low pH at the end of cooking. The decrease in pH is caused by consumption of carbonate ions (CO ₃ ²⁻ ). Since the solubility of lignin exposed to alkaline cooking conditions decreases with decreasing pH, lignin forms a viscous tar-like material, coats the digester screen, shuts the digester screen, shuts down the digester It becomes dysfunctional to the extent that it must be cleaned.

To overcome this potential problem, many pulp mills with this type of equipment have a substantial amount of kraft white liquor along with green liquor (eg, to maintain a high pH at the end of cooking) (Up to 20-30% of the total chemical drug charge). However, higher pH at the beginning of cooking has a negative impact on pulp yield, and white liquor is more expensive to produce than green liquor, making operation uneconomical.
U.S. Pat. No. 4,229,251 issued to Temler U.S. Pat. No. 4,073,678 issued to Hammond et al. US Pat. No. 5,489,363 issued to Marcoccia et al.

Some aspects of the invention generally relate to a method for preventing blockage of a black liquor extraction screen in a digester for semi-chemical pulping, the method comprising:
Supplying lignocellulosic material and green liquor to a digester for semi-chemical pulping;
Digesting the lignocellulosic material in a digester for semi-chemical pulping, separating part or all of the lignin from the lignocellulosic material, and dissolving the lignin in the cooking liquor;
Extracting the dissolved lignin-containing black liquor formed in the digester in the semi-chemical pulping process via an extraction screen;
A step of adding white liquor or base to the extraction screen of the digester or the vicinity thereof to increase the pH of the extraction screen or the vicinity thereof to prevent lignin from adhering to the extraction screen.

Some embodiments of the present invention are digesters for the lignocellulosic material semi-chemical pulping process that prevent blockage of the black liquor extraction screen in the digester, the digester comprising:
A first supply conduit for conveying green liquor to the digester,
A second supply conduit for transporting lignocellulosic material to the digester,
A space where lignin is separated from the lignocellulosic material and dissolved in the cooking liquor,
Extracting the lignin dissolved black liquor formed in the digester in the semi-chemical pulping process, the extraction screen connected to the extraction conduit, and the pH of the extraction screen or its vicinity is increased so that the lignin adheres to the extraction screen A third supply conduit for sending white liquor or base to or near the extraction screen of the digester.

  Some aspects of the present invention generally relate to increasing the pH at the end of cooking, which allows the screen to be kept clean for an extended period of time. Increasing the pH is accomplished by adding white liquor or NaOH (or other base) via circulation and / or a central pipe at the end of cooking.

  The pH of the cooking liquor at the end of cooking (eg, black liquor with lignin) should be 10 or higher, preferably 10-13, most preferably 10-12.

  According to some aspects of the present invention, the pH at or near the extraction screen can be increased relative to the pH of the liquid on the extraction screen, thereby increasing the solubility of lignin at or near the extraction screen. Can be improved.

  In some embodiments, the pH level at or near the extraction screen of the tank in which semi-chemical pulping is performed can be increased, thereby increasing the solubility of lignin and decreasing the occlusiveness of the extraction screen. be able to.

FIG. 1 shows a portion of a semi-chemical pulping apparatus 100 that includes a digester 110, where the inlet to the digester 110 includes a conduit 102, which generally contains at least green liquor and lignocellulosic material. Of undigested pulp. Other chemical agents such as NaOH, Na ₂ CO ₃ , Na ₂ SO ₃ and / or white liquor are supplied to the digester 102 from the conduit 102 (or other conduit). The inlet of digester 110 also includes a conduit 108 from which white liquor, NaOH (and / or other bases), and / or other agents that increase the solubility of lignin and reduce the clogging of the extraction screen. Supplied.

  The pulp is digested in digester 110 containing various extraction screens. Although the digester 110 has various extraction screens at different heights, only the extraction screen 112 is shown in FIG. 1 as the spent or used liquid (ie, black liquor) is removed from the digester 110 and extracted. Yes. Black liquor is extracted via conduit 114, which branches into conduit 116 and conduit 106. The fluid in conduit 116 is mixed with the fluid in conduit 108 (eg, white liquor and / or NaOH) and circulated to digester 110 via conduit 118. This circulation loop facilitates efficient extraction of lignin into black liquor, thus reducing the amount of white liquor and / or NaOH required.

  The end of the conduit 118 is located at or near the extraction screen 112. The end of the conduit 118 sends the contents of the conduit 118 to a concentrated location at or near the extraction screen or the contents to substantially the entire surface of the extraction screen 112 in the digester or near it. send. Also, the end of the conduit 118 may enter the extraction screen 112. The distance from the point of addition to the extraction screen is such that the pH increases across substantially the entire surface of the extraction screen and prevents lignin sticking to the extraction screen.

FIG. 2 shows a portion of another semi-chemical pulping apparatus 200 that includes a digester 210, the inlet to the digester 210 includes a conduit 202, which is generally at least green. Contains liquid and undigested pulp. The conduit 202 is supplied with other chemical agents such as NaOH, Na ₂ CO ₃ , Na ₂ SO ₃ and / or white liquor. The inlet of digester 210 also contains other agents from conduit 208 that increase the solubility of white liquor, NaOH (and / or other bases), and / or lignin and reduce the occlusiveness of the extraction screen. Yes.

  The pulp is digested in digester 210 containing various extraction screens. Although the digester 210 contains various extraction screens at different heights, in FIG. 2, only the extraction screen 212 is where the consumed or used liquid (ie, black liquor) is removed from the digester 210. Is shown in FIG. In the illustrated embodiment, black liquor is extracted via conduit 206.

  The liquid supply conduit 208 passes through the center pipe 220 of the digester (as shown), with the liquid supply conduit 208 and / or the end of the center pipe 220 positioned at or near the screen 212. The end of the liquid supply conduit 208 and / or the center pipe 220 sends the contents of the liquid supply conduit 208 and / or the center pipe 220 to a concentrated location at or near the extraction screen 212 or substantially the entire surface of the extraction screen 212 or Send to the vicinity. Also, the liquid supply conduit 208 and / or the end of the center pipe 220 may enter the extraction screen 212. The distance from the point of addition to the extraction screen is such that the pH increases across substantially the entire surface of the extraction screen and prevents lignin sticking to the extraction screen.

  According to some embodiments, it is also possible to combine the circulation loop and the center pipe in a single method or tank.

  Although the present invention has been described above as what is considered to be the most practical and preferred embodiment at present, the present invention is not limited to this, and various modifications and application examples included in the scope of the claims. Is included.

The one aspect | mode of the digester of this invention is shown. The other aspect of the digester of this invention is shown.

Claims (20)

A method for preventing clogging of a black liquor extraction screen in a digester for semi-chemical pulping, the method comprising:
Supplying lignocellulosic material and green liquor to a digester for semi-chemical pulping;
Digesting the lignocellulosic material in a digester for semi-chemical pulping, separating part or all of the lignin from the lignocellulosic material, and dissolving the lignin in the cooking liquor;
Extracting the dissolved lignin-containing black liquor formed in the digester in the semi-chemical pulping process via an extraction screen;
Adding white liquor or base to or near the extraction screen of the digester, increasing the pH of the extraction screen or its vicinity, and preventing lignin from adhering to the extraction screen.   The method of claim 1, wherein the step of adding white liquor or base comprises adding white liquor and base to the digester.   The method of claim 1, wherein the base comprises NaOH. The method according to claim 1, wherein the step of supplying the lignocellulosic material to the digester comprises supplying at least one of NaOH, Na ₂ CO ₃ , Na ₂ SO ₃ or white liquor to the digester.   The method of claim 1 wherein the step of adding white liquor or base to or near the extraction screen of the digester is performed at the end of the digestion when most of the lignin is extracted from the lignocellulosic material.   The method according to claim 1, wherein the step of adding white liquor or base to or near the extraction screen of the digester is performed using a central pipe running through the center of the digester.   The method according to claim 1, wherein the step of adding white liquor or base to or near the extraction screen of the digester is carried out using a circulation loop comprising white liquor or a mixture of NaOH and dissolved lignin-containing black liquor.   The step of adding white liquor or base to or near the extraction screen of the digester creates a localized high pH at or near the extraction screen that is higher than the pH of the cooking liquor on the extraction screen. The method according to 1.   The method according to claim 1, wherein the pH of the cooking liquid at the end of cooking is 10 or more.   The method according to claim 1, wherein the pH of the cooking solution at the end of cooking is 10-13.   The method according to claim 1, wherein the pH of the cooking solution at the end of cooking is 10-12. A digester for a semi-chemical pulping process of lignocellulosic material that prevents blockage of the black liquor extraction screen in the digester, the digester comprising:
A first supply conduit for conveying green liquor to the digester,
A second supply conduit for transporting lignocellulosic material to the digester,
A space where lignin is separated from the lignocellulosic material and dissolved in the cooking liquor,
Extracting the lignin dissolved black liquor formed in the digester in the semi-chemical pulping process, the extraction screen connected to the extraction conduit, and the pH of the extraction screen or its vicinity is increased so that the lignin adheres to the extraction screen A cooking tank comprising a third supply conduit for sending white liquor or base to or near the extraction screen of the digesting tank so as to prevent the above.   13. A digester according to claim 12, wherein the third supply conduit supplies white liquor and base.   13. A digester according to claim 12, wherein the base comprises NaOH.   The digester according to claim 12, wherein the first and second supply conduits comprise a single supply conduit. The cooking tank according to claim 12, further comprising a fourth supply conduit for supplying at least one of NaOH, Na ₂ CO ₃ , Na ₂ SO ₃ or white liquor to the cooking tank.   13. A digester according to claim 12, wherein the extraction screen is arranged near the end of the digestion in which most of the lignin has been extracted from the lignocellulosic material.   13. The digester according to claim 12, wherein the third supply conduit includes a central pipe that runs through the center of the digester.   The digester of claim 12, wherein the third supply conduit includes a circulation loop for circulating a portion of the black liquor with the white liquor and base mixture.   13. The third supply conduit is located at or near the extraction screen and creates a localized high pH at or near the extraction screen that is higher than the pH of the cooking liquor on the extraction screen. Digester.