JP3064616B2 - Method for controlling kappa number of pulp in vertical continuous digester with modified cooking method - Google Patents
Method for controlling kappa number of pulp in vertical continuous digester with modified cooking methodInfo
- Publication number
- JP3064616B2 JP3064616B2 JP3348475A JP34847591A JP3064616B2 JP 3064616 B2 JP3064616 B2 JP 3064616B2 JP 3348475 A JP3348475 A JP 3348475A JP 34847591 A JP34847591 A JP 34847591A JP 3064616 B2 JP3064616 B2 JP 3064616B2
- Authority
- JP
- Japan
- Prior art keywords
- zone
- cooking
- digestion
- pulp
- temperature
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Landscapes
- Paper (AREA)
Description
【0001】[0001]
【産業上の利用分野】本発明は、下部(又は修正)蒸解
(MCC)ゾーンを有する縦型蒸解釜に木材チップとア
ルカリ性蒸解液を導入して蒸解し、パルプを製造するに
際し、パルプのカッパー価を制御する方法に関する。更
に詳しく述べるならば、本発明は、パルプのカッパー価
を迅速に安定化させ、そのバラツキを極めて小さくさせ
る方法に関する。BACKGROUND OF THE INVENTION The present invention relates to a method for producing pulp by introducing wood chips and an alkaline cooking liquor into a vertical digester having a lower (or modified) cooking (MCC) zone. A method for controlling the value. More specifically, the present invention relates to the kappa number of pulp.
The quickly stabilizes to methods for very small variation thereof.
【0002】[0002]
【従来の技術】従来から工業的に実施されている木材の
ようなリグノセルロース材料から化学パルプを製造する
方法の主流は、アルカリ性蒸解法であり、とりわけ硫化
ナトリウムを含有するアルカリ性蒸解液を用いるクラフ
ト法(硫酸塩法)がパルプ強度、パルプ収率、薬品回収
の容易さ等からの利点のため大規模に実施されている。2. Description of the Related Art The mainstream of a method for producing chemical pulp from a lignocellulosic material such as wood which has been conventionally industrially performed is an alkaline cooking method, in particular, a kraft using an alkaline cooking liquor containing sodium sulfide. The method (sulfate method) has been implemented on a large scale because of advantages such as pulp strength, pulp yield, and ease of chemical recovery.
【0003】アルカリ性蒸解法は、浸透ゾーンを別の塔
に設け、もう一つの塔に蒸解ゾーンを有する2ベッセル
縦型連続蒸解釜、或いは一つの縦型塔内に蒸解ゾーンを
有する或いは浸透ゾーン並びに蒸解ゾーンを有する1ベ
ッセル縦型連続蒸解釜において好適に実施されている。In the alkaline cooking method, a permeation zone is provided in another column, and a two-vessel vertical continuous digester having a digestion zone in another column, or a digestion zone in one vertical column or a percolation zone and It is preferably carried out in a one-vessel vertical continuous digester having a digestion zone.
【0004】一般に、アルカリ性蒸解法から得られるパ
ルプの代表的なものとしては、クラフト法によって針葉
樹木材チップから未晒パルプを得て、更にこのパルプを
晒工程で脱リグニンして漂白し、白色度の高いパルプを
得るため蒸解釜から排出された後のカッパー価が21〜
33の範囲の蒸解度の低いパルプと、未晒のまま、例え
ば未晒クラフト紙の原料に供されるカッパー価が40〜
55の範囲のカッパー価の高いパルプ及び広葉樹木材チ
ップからの晒用のカッパーが12〜23の範囲の未晒パ
ルプが挙げられる。[0004] In general, as typical pulp obtained from the alkaline cooking method, unbleached pulp is obtained from coniferous wood chips by the Kraft method, and the pulp is delignified and bleached in the bleaching step to obtain whiteness. Kappa number after discharge from digester to obtain high pulp
The pulp having a low degree of cooking in the range of 33 and the unbleached, for example, the kappa number provided to the raw material of the unbleached kraft paper are 40 to 40.
High kappa pulp in the range of 55 and unbleached pulp in the range of 12 to 23 copper for bleaching from hardwood wood chips.
【0005】いずれのパルプを生産する場合も、後工程
である酸素漂白並びに従来の多段漂白工程での操業の安
定化、未晒並びに晒パルプ品質の安定化及び生産コスト
削減の観点から縦型蒸解釜から排出されるパルプの目標
カッパー価及びそのバラツキの範囲が決められ、その目
標値に一致するように操業が維持され、これらの目標値
は最終用途である紙製品の種類及び用いられる木材チッ
プの蒸解性を考慮しながら定められるのが普通である。[0005] In any pulp production, the vertical digestion is performed from the viewpoint of stabilizing the operation in the oxygen bleaching process as the subsequent process and the conventional multi-stage bleaching process, stabilizing the unbleached and bleached pulp quality and reducing the production cost. The target kappa value of the pulp discharged from the kettle and the range of its variation are determined, the operation is maintained so as to match the target value, and these target values are based on the type of paper product and the wood chips used as the end use It is usually determined while taking into account the digestibility of the product.
【0006】蒸解ゾーンを複数有する縦型蒸解釜におい
て釜から排出されるパルプのカッパー価を変更する場
合、或いはカッパー価の変更がなされない場合でもカッ
パー価の安定化のために操業上実施される操作は、従来
から蒸解ゾーンへ供給されるいわゆる白液の流量及び該
ゾーン並びにその他の各種のゾーンで形成される循環系
を流れる循環液の有効アルカリ濃度、温度及び流量とい
う要素を加減することにより行なわれている。[0006] In a vertical digester having a plurality of digestion zones, when the kappa number of the pulp discharged from the kettle is changed, or even when the kappa number is not changed, the operation is carried out in order to stabilize the kappa number. The operation is carried out by adjusting the factors of the flow rate of the so-called white liquor conventionally supplied to the digestion zone and the effective alkali concentration, temperature and flow rate of the circulating fluid flowing through the circulation system formed in this zone and other various zones. Is being done.
【0007】しかしながら、夫々のゾーンにおける循環
液の有効アルカリ濃度や温度を変更しても夫々のゾーン
における有効アルカリ濃度や温度は、なかなか目標水準
に到達せず、そのため釜から排出されるパルプのカッパ
ー価が目標値に到達するには相当の時間が必要であり、
カッパー価のバラツキも大きくなる。However, even if the effective alkali concentration or temperature of the circulating fluid in each zone is changed, the effective alkali concentration or temperature in each zone does not easily reach the target level, and therefore, the pulp copper discharged from the kettle is removed. It takes a considerable amount of time for the price to reach the target value,
The variation in copper value also increases.
【0008】とりわけ、我が国では森林資源が逼迫して
いるので、単一材種の木材チップを長期的に蒸解釜に安
定して供給することは不可能に近く、当然のことながら
各種の木材チップを混合して蒸解に供されている。最適
なパルプのカッパー価を得るために必要なアルカリ添加
率、蒸解時間及び温度(普通Hファクターという指標で
示される)による蒸解性は、各材種毎に異なり、材種の
変動に伴う蒸解条件の変更は、これらの蒸解ゾーン及び
その他のゾーンで前記した要素を試行錯誤的に変更して
パルプのカッパー価或いはそのバラツキを目標範囲に入
れようとする努力が払われる。In particular, in Japan, where forest resources are tight, it is almost impossible to supply wood chips of a single grade to a digester stably for a long period of time. Are supplied to the digestion. The cooking rate depends on the alkali addition rate, cooking time and temperature (usually indicated by the H factor) required to obtain the optimum pulp kappa number. In the cooking zone and other zones, efforts are made to change the above-mentioned factors by trial and error to bring the kappa number of the pulp or its variation into the target range.
【0009】かくして、パルプのカッパー価の変動によ
り長時間に亘って洗浄工程、精選工程、酸素漂白工程
(若し有れば)、多段漂白工程等での操業が不安定にな
る上、品質上不満足なパルプが多量に製造されるという
問題があった。[0009] Thus, fluctuations in the kappa number of the pulp make the operations in the washing step, the selection step, the oxygen bleaching step (if any), the multi-stage bleaching step, etc. unstable over a long period of time and the quality is high. There was a problem that unsatisfactory pulp was produced in large quantities.
【0010】縦型蒸解釜の複数のゾーンにおいて夫々形
成されている循環系の循環液が、蒸解釜の比較的上部で
添加される白液及び蒸解釜の底部から導入される洗浄液
との液バランス上、一つの蒸解操作の要素が変動する度
に、前記循環液の温度、有効アルカリ及び循環液の流量
を該変動に対応して迅速に変化させ、更にそれに付随し
て夫々のゾーンにおける温度と有効アルカリも迅速に変
化させうるならば、材種の変化のような少々の変動要因
があっても、得られるカッパー価の目標値に対するずれ
或いはバラツキは極めて小さいものとすることができる
が、現在までのところそのような蒸解操作技術は確立さ
れていない。[0010] The circulating liquid of the circulation system formed in each of the plurality of zones of the vertical digester is balanced with white liquor added at a relatively upper portion of the digester and washing liquid introduced from the bottom of the digester. In addition, each time a factor of one digestion operation changes, the temperature of the circulating liquid, the effective alkali and the flow rate of the circulating liquid are rapidly changed in response to the fluctuation, and the temperature and the temperature in the respective zones are further concomitantly changed. If the effective alkali can also be changed quickly, the deviation or variation of the obtained kappa number from the target value can be extremely small even if there are slight fluctuation factors such as a change in the grade. To date, no such cooking operation technique has been established.
【0011】[0011]
【発明が解決しようとする課題】本発明者等は、かかる
現状に鑑み鋭意研究した結果、蒸解循環系を含む各種循
環系を有する縦型蒸解釜において、複数の蒸解循環系の
蒸解条件を操作するのではなく、MCC( Modified Co
ntinuous Cooking、修正蒸解)ゾーンの蒸解条件のみを
変更することによって、蒸解釜から排出されるパルプの
カッパー価の目標値に対する変動、即ちカッパー価のバ
ラツキが極めて小さくなり、カッパー価の安定化が達成
できることを見出し本発明を完成するに到った。SUMMARY OF THE INVENTION The inventors of the present invention have conducted intensive studies in view of the present situation, and have found that in a vertical digester having various circulation systems including a cooking circulation system, the cooking conditions of a plurality of cooking circulation systems are controlled. Instead of MCC (Modified Co
By changing only the cooking conditions in the (ntinuous cooking, modified cooking) zone, the fluctuation of the kappa number of the pulp discharged from the digester with respect to the target value, that is, the variation of the kappa number is extremely small, and the kappa number is stabilized. The inventors have found that they can do so and have completed the present invention.
【0012】従って、本発明の目的は、蒸解循環系を含
む各種循環系を有する縦型蒸解釜において、蒸解操作上
の変更要因を極力少なくし、製造されるパルプのカッパ
ー価を極めて迅速に目標値に近づけ、そのばらつきを顕
著に小さくすることにより優れた品質のパルプを製造
し、後工程の操業を安定化させる蒸解制御方法を提供す
ることにある。Accordingly, an object of the present invention is to provide a vertical digester having various circulation systems including a digestion circulation system, which minimizes the change factor in the digestion operation and minimizes the kappa number of the produced pulp very quickly. It is an object of the present invention to provide a cooking control method for producing pulp of excellent quality by approaching the pulp value and reducing the variation significantly, and stabilizing the operation in the post-process.
【0013】[0013]
【課題を解決するための手段】本発明の第一は、蒸解ゾ
ーンを有する縦型蒸解釜の前に縦型浸透ベッセルが設置
されており、縦型蒸解釜の内部には頂部から底部にかけ
て、上部蒸解トリムゾーン、上部蒸解ゾーン、MCCゾ
ーン及び洗浄ゾーンが設けられており、上部蒸解トリム
ゾーン及び上部蒸解ゾーンでは並流蒸解が、MCCゾー
ンでは向流蒸解が実施され、洗浄ゾーンではハイヒート
向流洗浄が実施される2ベッセル縦型蒸解釜に木材チッ
プとアルカリ性蒸解液を導入して木材チップを蒸解する
に際し、絶乾木材チップ重量当りの活性アルカリが15
〜20重量%(Na2 Oとして)の範囲で添加されるア
ルカリ性蒸解液のうち、50〜90%が浸透ベッセル
に、0〜45%が上部蒸解トリムゾーンに、5〜45%
がMCCゾーンに添加され、且つ夫々の蒸解ゾーンの温
度が140〜175℃の範囲で変更され、縦型蒸解釜底
部より排出されるパルプのTAPPI試験法T−236
hm−85に記載のカッパー価を12〜55の範囲内で
制御する方法において、浸透ベッセル、上部蒸解トリム
ゾーン及び上部蒸解ゾーンにおける温度及びアルカリ濃
度を一定水準に維持しながら、MCCゾーンの蒸解温度
又はアルカリ添加率或いはその両者のを変更し、パルプ
のカッパー価を制御する方法。A first aspect of the present invention is that a vertical infiltration vessel is installed in front of a vertical digester having a digestion zone. Inside the vertical digester, from the top to the bottom, An upper cooking trim zone, an upper cooking zone, an MCC zone and a washing zone are provided. Co-current cooking is performed in the upper cooking trim zone and the upper cooking zone, countercurrent cooking is performed in the MCC zone, and high heat countercurrent in the washing zone. When wood chips and an alkaline cooking liquor are introduced into a 2-vessel vertical digester in which washing is performed and wood chips are digested, active alkali per 15 weight of absolutely dry wood chips is reduced.
Of the alkaline cooking liquors added in the range of 2020% by weight (as Na 2 O), 50-90% is in the permeation vessel, 0-45% is in the upper cooking trim zone, 5-45%
Was added to the MCC zone, and the temperature of each digestion zone was changed in the range of 140 to 175 ° C., and TAPPI test method T-236 for pulp discharged from the bottom of the vertical digester was used.
hm-85, wherein the temperature and alkali concentration in the infiltration vessel, upper cooking trim zone and upper cooking zone are maintained at a constant level, while the cooking temperature of the MCC zone is maintained. Alternatively, a method of controlling the kappa number of pulp by changing the alkali addition rate or both.
【0014】本発明の第二は、縦型蒸解釜の内部に頂部
から底部にかけて、浸透ゾーン、蒸解ゾーン、MCCゾ
ーン及び洗浄ゾーンが設けられており、浸透ゾーン及び
蒸解ゾーンでは木材チップと蒸解液は並流で接触し、M
CCゾーンでは向流蒸解が実施され、洗浄ゾーンではハ
イヒート向流洗浄が実施される1ベッセル縦型蒸解釜並
びに浸透ゾーンを有しないこと以外前記と同じ1ベッセ
ル縦型蒸解釜に木材チップとアルカリ性蒸解液を導入し
て木材チップを蒸解するに際し、絶乾木材チップ重量当
り活性アルカリが15〜20重量%(Na2Oとして)
の範囲で添加されるアルカリ性蒸解液のうち、55〜9
5%が木材チップ供給ライン或いは浸透ゾーン及び蒸解
ゾーンで添加され、5〜45%がMCCゾーンに添加さ
れ、且つ夫々のゾーンの温度が140〜175℃の範囲
で変更され、縦型蒸解釜底部より排出されるパルプのカ
ッパー価を12〜55の範囲内で制御する方法におい
て、浸透ゾーン及び/或いは蒸解ゾーン及び/或いは蒸
解ゾーンにおける温度及びアルカリ濃度を一定水準に維
持しながら、MCCゾーンの蒸解温度又はアルカリ添加
率或いは蒸解温度及びアルカリ添加率の両方のいずれか
を変更し、パルプのカッパー価を制御する方法である。A second aspect of the present invention is that a vertical digester is provided with an infiltration zone, a digestion zone, an MCC zone and a washing zone from the top to the bottom. Contact in parallel, M
In the CC zone, countercurrent digestion is performed, and in the washing zone, wood chips and alkaline digestion are performed in the same 1-vessel vertical digester as described above except that it does not have an infiltration zone as well as a 1-vessel vertical digester in which high heat countercurrent washing is performed. In introducing the liquid and digesting the wood chips, the active alkali is 15 to 20% by weight (as Na 2 O) based on the weight of the absolutely dry wood chips.
Of the alkaline cooking liquor added in the range of 55 to 9
5% is added in the wood chip feed line or infiltration zone and digestion zone, 5-45% is added in the MCC zone, and the temperature of each zone is changed in the range of 140-175 ° C, the bottom of the vertical digester a method of controlling the kappa number of the pulp to be more discharged within the 12 to 55, while the temperature and the alkali concentration in the permeate zone and / or the cooking zone and / or the cooking zone maintained at a certain level, M C C zone Is a method for controlling the kappa number of pulp by changing either the cooking temperature or the alkali addition rate or both the cooking temperature and the alkali addition rate.
【0015】本発明法は、2ベッセル気相液相並びに液
相縦型連続蒸解釜及び1ベッセル気相液相並びに液相縦
型連続蒸解釜において好適に用いられる。図1は、2ベ
ッセル液相縦型連続蒸解釜における木材チップ、白液、
各種の循環液の流れ等を示す概略フロー図であり、この
図を用いて本発明を説明する。The process of the present invention is suitably used in a two-vessel vapor-phase and liquid-phase vertical continuous digester and a one-vessel vapor-phase and liquid-phase vertical continuous digester. FIG. 1 shows wood chips, white liquor, and two-vessel liquid phase vertical continuous digester.
FIG. 2 is a schematic flow chart showing flows of various circulating liquids and the like, and the present invention will be described with reference to the drawings.
【0016】図1において、木材チップ(以後チップと
呼ぶ)aは、大気開放加熱型チップビン1に供給され、
回転式容積計量器2によって一定量のチップがスチーミ
ングベッセル3へ搬送され、チップは、ここで加熱脱気
された後、高圧フィーダー4によって導管7から供給さ
れる抽出液と混合されて浸透ベッセル6の頂部へ導管5
を経て導入される。In FIG. 1, wood chips (hereinafter referred to as chips) a are supplied to an open-to-atmosphere heating type chip bin 1,
A certain amount of chips is conveyed by a rotary volume meter 2 to a steaming vessel 3, where the chips are heated and degassed and then mixed with an extract supplied from a conduit 7 by a high-pressure feeder 4 to be mixed with an osmotic vessel. Conduit 5 to the top of 6
Introduced via
【0017】一方、白液の主流は、導管17及び18を
経て浸透ベッセル6の頂部に供給され、循環液で希釈さ
れて蒸解液とされ、大部分の液はその頂部に設けられて
いるストレーナーで分離され、抽出液として導管7を経
て循環される。浸透ベッセル6の頂部において、チップ
は、脱液された残りの蒸解液と共に浸透ベッセル6内を
下降し、この間に蒸解液がチップ内に十分浸透させられ
る。浸透ベッセル6の中間部には、ストレーナー39が
設けられており、抽出液は導管40及び41を経てチッ
プが下降し易いように、且つ蒸解液がチップに均一に浸
透するように循環される。On the other hand, the main stream of the white liquor is supplied to the top of the permeation vessel 6 via conduits 17 and 18 and is diluted with the circulating liquid into digestion liquor, and most of the liquor is supplied to the strainer provided at the top. And circulated through conduit 7 as an extract. At the top of the infiltration vessel 6, the chips descend in the infiltration vessel 6 with the remaining digested liquor, during which time the liquor is fully penetrated into the chips. A strainer 39 is provided at an intermediate portion of the infiltration vessel 6, and the extract is circulated through conduits 40 and 41 so that the chips can be easily lowered and the cooking liquor can uniformly penetrate the chips.
【0018】次いで、浸透ベッセル6の底部からチップ
と蒸解液の混合物は、温度計45が設けられた導管37
を経て蒸解釜8の頂部に導入され、該頂部に設けられて
いるストレーナーにより脱液された残りの蒸解液とチッ
プは、蒸解釜8内を下降する。前記の如き脱液により発
生する抽出液は、アルカリ濃度を測定するためのセンサ
ー43が設けられている導管36及び中圧蒸気35が供
給されるヒーター16を経て浸透ベッセル6の底部に循
環して戻される(このラインをトランスファー循環とい
う)。一方、トランスファー循環の戻りラインに設けら
れているセンサー43で循環戻り液(抽出液)中のアル
カリ濃度が測定され、必要なアルカリ量が白液の形で導
管17、19、20を経てトランスファー循環戻り液へ
補給される。Next, the mixture of chips and the cooking liquor from the bottom of the permeation vessel 6 is passed through a conduit 37 provided with a thermometer 45.
The remaining cooking liquid and chips which are introduced into the top of the digester 8 through the strainer and drained by the strainer provided at the top descend in the digester 8. The extract generated by the above-described liquid removal is circulated to the bottom of the permeation vessel 6 through a conduit 36 provided with a sensor 43 for measuring the alkali concentration and a heater 16 to which medium-pressure steam 35 is supplied. Is returned (this line is called the transfer cycle). On the other hand, the sensor 43 provided in the return line of the transfer circulation measures the alkali concentration in the circulation return liquid (extract), and the required amount of alkali in the form of white liquor is transferred via the conduits 17, 19 and 20 to the transfer circulation. It is supplied to the return liquid.
【0019】蒸解釜8には頂部から底部にかけて、上部
蒸解トリムゾーンA、上部蒸解ゾーンB、MCCゾーン
C及び洗浄ゾーンDが設けられており、夫々のゾーンは
ストレーナー9、10、11及び12を介して大別され
ている。チップと蒸解液の混合物は蒸解釜8内を下降す
る間に最初に上部蒸解トリムゾーンAの下部に設けられ
ているストレーナー9から1部の蒸解液が抽出され、こ
の抽出液は、導管38を経て導管36を流れるトランス
ファー循環ラインの循環戻り液と一緒にされて循環され
る。一部蒸解が進みつつあるチップは、次ぎに上部蒸解
ゾーンBを蒸解液と共に並流に移動しながらこのゾーン
を下降して通過する間にかなり蒸解され(並流蒸解)、
このゾーンの下部に設けられているストレーナー10か
らは蒸解済みの固形分濃度の高い液(黒液という)が抽
出され、導管30を経て回収工程へ送られる(図示され
ず)。The digester 8 is provided with an upper digestion trim zone A, an upper digestion zone B, an MCC zone C, and a washing zone D from the top to the bottom. Each zone is provided with a strainer 9, 10, 11, and 12. Are largely divided through. As the mixture of chips and cooking liquor descends in the digester 8, first a part of the cooking liquor is extracted from the strainer 9 provided at the lower part of the upper cooking trim zone A, and this extract is passed through the conduit 38. It is circulated together with the circulation return liquid of the transfer circulation line flowing through the conduit 36. Chips that are partially digesting are then considerably digested while passing down the upper cooking zone B while passing down the zone while moving co-currently with the cooking liquor (cocurrent cooking),
From the strainer 10 provided in the lower part of this zone, a digested liquid having a high solids content (referred to as black liquor) is extracted and sent to a recovery step via a conduit 30 (not shown).
【0020】かなり蒸解されたチップは、更に下降しM
CCゾーンCを通過する間に下から上方へ向かって流
れ、次ぎに記載する如く白液を補充して温度とアルカリ
濃度が調整された蒸解液と向流に接触させられ脱リグニ
ン度が最終的に調整される(向流蒸解)。即ち、MCC
ゾーンの下部に設けられているストレーナー11より抽
出された液は導管24、ヒーター14及び導管27で構
成される循環ラインで再び連続蒸解釜8内へ戻される。
この循環ラインには、アルカリ濃度を測定するセンサー
44及び温度計46が設けられており、アルカリ濃度と
温度を常時監視しながら必要なアルカリ濃度を維持する
ために導管19から分岐された白液が導管21を経て導
管24へ補充され、更に循環液はヒーター14において
中圧蒸気33により温度が調整される。新たに導管24
へ補充された白液を含む循環液の一部は、前記した如く
チップと向流に接触し修正蒸解(MCC)が行われた後
ストレーナー10から他の蒸解済み液と一緒になって黒
液として導管30を経て系外へ回収される。The considerably digested chips are further lowered and M
While passing through CC zone C, it flows upward from the bottom, and is replenished with white liquor as described below to be brought into contact with the cooking liquor of which temperature and alkali concentration have been adjusted to make the final degree of delignification. (Countercurrent cooking). That is, MCC
The liquid extracted from the strainer 11 provided at the lower part of the zone is returned to the continuous digester 8 again by a circulation line composed of the conduit 24, the heater 14, and the conduit 27.
The circulation line is provided with a sensor 44 for measuring the alkali concentration and a thermometer 46. The white liquor branched from the conduit 19 to maintain the required alkali concentration while constantly monitoring the alkali concentration and the temperature is provided. The liquid is replenished to the conduit 24 via the conduit 21, and the temperature of the circulating liquid is adjusted in the heater 14 by the medium-pressure steam 33. New conduit 24
A part of the circulating liquor containing the white liquor replenished to the chip is brought into contact with the chips in countercurrent as described above, and after the modified cooking (MCC) is performed, the strainer 10 and the other liquor are combined with the black liquor. And collected outside the system via the conduit 30.
【0021】蒸解が終了したチップは、更に下降し洗浄
ゾーンDを移動させられる間に下から上方に向かって流
れる液と向流に接触し、ハイヒート向流洗浄が行なわれ
る。洗浄ゾーンDの下部にはストレーナー12、導管2
5、ヒーター15、温度計47及び導管28から構成さ
れる循環ラインが設けられており、循環液はヒーター1
5に供給される中圧蒸気34により温度が調整される。
洗浄液は、導管29からダイジェスター8内に導入さ
れ、ストレーナー12から抽出液として該循環ラインに
取り込まれ、前記した如く温度調整された後該循環ライ
ンを経て洗浄ゾーンDに導入され、蒸解済みチップの洗
浄に供され、更にMCCゾーンを経てストレーナー10
からの他の余剰液と一緒に導管30を経て系外へ回収さ
れる。洗浄が完了した蒸解済みのチップは、排出管31
を経て次ぎの洗浄工程へ送られ、圧力が開放され、機械
的な作用により解繊されてパルプとなる。The chips after the digestion are further lowered and moved in the washing zone D, and come into contact with the liquid flowing upward from the bottom in a countercurrent manner, whereby high-heat countercurrent washing is performed. In the lower part of the washing zone D, a strainer 12 and a conduit 2 are provided.
5, a circulating line composed of a heater 15, a thermometer 47 and a conduit 28 is provided.
The temperature is adjusted by the medium-pressure steam 34 supplied to 5.
The washing liquid is introduced into the digester 8 from the conduit 29, is taken into the circulation line as an extract from the strainer 12, and after being adjusted in temperature as described above, is introduced into the washing zone D via the circulation line, and the digested chips Of the strainer 10 through the MCC zone.
Together with other surplus liquid from the system via the conduit 30 to the outside of the system. The digested chips that have been washed are placed in the discharge pipe 31.
And then sent to the next washing step, where the pressure is released and the pulp is defibrated by mechanical action.
【0022】前記した2ベッセル連続蒸解釜におけるチ
ップの蒸解においてスチーミングベッセル3の圧力は、
0.5〜2.0kg/cm2 (ゲージ圧力)の範囲、温
度は、110〜130℃の範囲、浸透ベッセル6におけ
る頂部の圧力は、12.0〜15.0kg/cm2 の範
囲、温度は、115〜145℃の範囲であり、一方連続
蒸解釜8の上部蒸解トリムゾーンAの温度、上部蒸解ゾ
ーンBの温度及びMCCゾーンCの温度は、いずれも1
40〜175℃の範囲、好ましくは針葉樹木材の場合1
50〜170℃、広葉樹木材の場合140〜155℃、
洗浄ゾーンDの温度は120〜155℃の範囲で運転で
きるように各循環ラインのヒーター出口温度が調整され
る。In the digestion of chips in the two-vessel continuous digester described above, the pressure of the steaming vessel 3 is:
0.5-2.0 kg / cm 2 (gauge pressure) range, temperature is 110-130 ° C., top pressure in the permeation vessel 6 is 12.0-15.0 kg / cm 2 range, temperature Is in the range of 115 to 145 ° C., while the temperature of the upper digestion zone A, the temperature of the upper digestion zone B and the temperature of the MCC zone C of the continuous digester 8 are all 1
40 to 175 ° C., preferably 1 for softwood wood
50-170 ° C, 140-155 ° C for hardwood,
The heater outlet temperature of each circulation line is adjusted so that the temperature of the washing zone D can be operated in the range of 120 to 155 ° C.
【0023】更に、クラフト法では、導管17から導入
されるアルカリ濃度が105〜115g/リットル(活
性アルカリ、Na2 Oとして)の白液は、絶乾木材重量
当り15〜20重量%、好ましくは針葉樹木材の場合1
7〜19.5重量%、広葉樹木材の場合15〜19重量
%に相当する液量が、導管18から浸透ベッセルの頂部
へ50〜90%、好ましくは60〜85%の範囲、導管
19及び20からトランスファー循環ラインを経て上部
蒸解トリムゾーンAへ0〜45%、好ましくは0〜20
%の範囲、導管19及び21から循環ラインを経てMC
CゾーンCへ5〜45%、好ましくは10〜40%の範
囲で適宜必要に応じて振り分けられる。Further, in the Kraft method, the white liquor having an alkali concentration of 105 to 115 g / liter (as active alkali, Na 2 O) introduced from the conduit 17 is 15 to 20% by weight, preferably 15 to 20% by weight, based on the weight of the absolutely dry wood. Coniferous wood 1
A liquid volume corresponding to 7 to 19.5% by weight, in the case of hardwood timber, 15 to 19% by weight, ranges from 50 to 90%, preferably 60 to 85%, from the conduit 18 to the top of the infiltration vessel, conduits 19 and 20 0 to 45%, preferably 0 to 20%, from the transfer circulation line to the upper digestion trim zone A.
%, From conduits 19 and 21 via the circulation line
It is appropriately distributed to the C zone C in the range of 5 to 45%, preferably 10 to 40% as needed.
【0024】一方、蒸解ゾーンの循環液のゾーン入口に
おけるアルカリ濃度は、上部蒸解トリムゾーン循環液が
5〜35g/リットル、好ましくは8〜30g/リット
ル(Na2 Oとして有効アルカリ表示)の範囲、MCC
ゾーン循環液が5〜35g/リットル、好ましくは8〜
30g/リットル(Na2Oとして有効アルカリ表示)
の範囲である。On the other hand, the alkali concentration at the zone inlet of the circulating liquid in the cooking zone is in the range of 5 to 35 g / l, preferably 8 to 30 g / l (effective alkali indication as Na 2 O) in the upper cooking trim zone circulating liquid. MCC
The zone circulating liquid is 5-35 g / liter, preferably 8-
30 g / liter (effective alkali indication as Na 2 O)
Range.
【0025】本発明では、浸透ベッセル、上部蒸解トリ
ムゾーン及び上部蒸解ゾーンにおける温度及びアルカリ
濃度を一定の水準に維持しながら、MCCゾーンの蒸解
温度或いはアルカリ添加率或いは該蒸解温度及びアルカ
リ添加率の両方のいずれかを選択して変更しパルプのカ
ッパー価が制御され、カッパー価のバラツキをσn-1 が
1以下に抑えることが行なわれる。In the present invention, while maintaining the temperature and alkali concentration in the infiltration vessel, the upper cooking trim zone and the upper cooking zone at a constant level, the cooking temperature or the alkali addition rate of the MCC zone or the cooking temperature and the alkali addition rate are controlled. By selecting and changing either of them, the kappa number of the pulp is controlled, and the variation in kappa number is suppressed to σ n-1 of 1 or less.
【0026】このような結論は、蒸解釜から排出された
パルプのカッパー価に影響を及ぼす操業要因並びにその
寄与率を求めて、パルプの目標カッパー価の予測式を算
出して、数々の実験を行ない回帰分析を行なって得られ
たものである。[0026] Such conclusions were obtained by calculating operating factors affecting the kappa number of the pulp discharged from the digester and its contribution rate, calculating a prediction formula for the target kappa number of the pulp, and conducting a number of experiments. It was obtained by performing regression analysis.
【0027】操業要因としては、縦型蒸解釜の各ゾーン
の温度、各ゾーンの循環ラインに設けられているヒータ
ーの入口(図示されず)並びに出口温度及び滞留時間、
これらから算出されるHファクター(〔0031〕参
照)、各ゾーンへのアルカリ添加率〔絶乾木材チップ重
量当りのアルカリを活性アルカリ(NaOH+Na
2O)として表示〕、各ゾーンの循環液のアルカリ濃度
〔循環ラインに設けられているアルカリ濃度計センサー
による指示値で、有効アルカリ(NaOH+1/2Na
2 S)濃度をNa2Oとして表示〕を選択し、これらの
要因に基づいて予測される目標カッパー価の予測式を式
1に示す。The operating factors include the temperature of each zone of the vertical digester, the inlet (not shown) and the outlet temperature and residence time of the heater provided in the circulation line of each zone,
H factor is calculated from these ([0031] ginseng
Irradiation), an alkali activity alkali alkali addition rate [oven dry wood chips per weight for each zone (NaOH + Na
2 O ) ] , the alkali concentration of the circulating fluid in each zone
[The effective alkali (NaOH + 1 / 2Na) is indicated by an alkali concentration meter sensor provided in the circulation line.
2 S ) concentration is displayed as Na 2 O ] , and a formula for estimating a target kappa value predicted based on these factors is shown in Formula 1.
【0028】[0028]
【式1】目標カッパー価の予測式=A+a×(目標カッ
パー価−実測カッパー価) +b×(トランスファー循環液中のアルカリ濃度、g/
リットル) +c×(上部蒸解トリムゾーン及び上部蒸解ゾーンのH
ファクター) +d×(MCC蒸解ゾーンのHファクター) +e×(MCC蒸解ゾーンの活性アルカリ添加率、%) 但し、A,a,b,c,d,eは、定数である。[Formula 1] Prediction formula of target kappa value = A + a × (target kappa value−actual kappa value) + b × (alkali concentration in transfer circulating fluid, g /
Liter) + c × (H of upper cooking trim zone and upper cooking zone
Factor) + d × (H factor of MCC digestion zone) + e × (Activated alkali addition rate of MCC digestion zone,%) where A, a, b, c, d and e are constants.
【0029】式1で示されるカッパー価の予測式をプロ
セスコンピューターの上位コンピューターへ組み込み、
このプロセスコンピューターを介してアルカリ濃度、H
ファクター、アルカリ添加率等の変数を0.5〜60分
間隔、好ましくは2〜10分間隔で求めて、この式に基
づいて求められるカッパー価の予測値が目標カッパー価
に一致するように式中の蒸解変数が自動的に変更され
る。又、この式には木材チップの配合の変動のような外
乱に対する自動補正項が組み込まれており、定期的に或
いは不定期に手動で測定されるパルプのカッパー価がコ
ンピューターに手動で入力され、或いはブローラインに
自動サンプリング装置を設置し、自動でパルプのカッパ
ー価が測定され、結果が定期的に自動で入力され、カッ
パー価の予測値と実測値との差に比例した補正分が自動
的に変更され、常にカッパー価の自動制御に対する精度
の維持が図られている。The kappa number prediction formula shown in the formula 1 is incorporated into a high-order computer of the process computer,
The alkali concentration, H
Variables such as a factor and an alkali addition rate are determined at intervals of 0.5 to 60 minutes, preferably at intervals of 2 to 10 minutes, and an equation is set such that a predicted kappa number obtained based on this equation matches the target kappa number. The cooking variables inside are changed automatically. This formula also incorporates an automatic correction term for disturbances such as variations in wood chip mix, and the pulp kappa value measured manually, periodically or irregularly, is manually entered into a computer, Alternatively, an automatic sampling device is installed in the blow line, the kappa value of the pulp is automatically measured, the results are automatically input periodically, and a correction proportional to the difference between the predicted value and the actual value of the kappa value is automatically calculated. To always maintain the accuracy of automatic control of copper value.
【0030】一定生産レートにおけるMCCゾーンにお
ける温度の変更は、アルカリ添加率が一定で、温度のみ
を変更する場合、0.5〜7.0℃、好ましくは1.0
〜6.0℃の範囲である。温度の変更が、0.5℃未満
では効果の発現が極めて緩慢になり、7.0℃を越える
と調整が困難になるのみならずパルプ品質が低下するの
で不適である。この温度を用いてHファクターが式2に
よって算出され、式1に導入される。The temperature in the MCC zone at a constant production rate is changed at a constant alkali addition rate, and when only the temperature is changed, 0.5 to 7.0 ° C., preferably 1.0 to 7.0 ° C.
~ 6.0 ° C. If the change in temperature is less than 0.5 ° C, the manifestation of the effect becomes extremely slow, and if it exceeds 7.0 ° C, not only the adjustment becomes difficult but also the pulp quality deteriorates, which is not suitable. Using this temperature, the H factor is calculated by Equation 2 and introduced into Equation 1.
【0031】[0031]
【式2】Hファクター=(滞留時間、Hr)×ex であり、木材チップ中に含有されるリグニンの活性化エ
ネルギーを32Kcal/Molとした。[Equation 2] H factor = (retention time, Hr) × e x And the activation energy of lignin contained in the wood chips was set to 32 Kcal / Mol.
【0032】MCCゾーンにおけるアルカリ添加率の変
更は、温度が一定でアルカリ添加率のみを変更する場
合、絶乾木材チップ重量当り0.02〜9.0%(活性
アルカリNa2 O表示)、好ましくは0.05〜7.5
%の範囲で変更される。アルカリ添加率の変動が0.0
2%未満ではカッパー価の変化が極めて緩慢となり、
9.0%を越えると急激にカッパー価の変化が生じるの
で望ましくない。The change of the alkali addition rate in the MCC zone is preferably 0.02 to 9.0% (expressed as active alkali Na 2 O) per weight of the absolutely dry wood chips when the temperature is constant and only the alkali addition rate is changed. Is 0.05 to 7.5
It is changed in the range of%. The fluctuation of the alkali addition rate is 0.0
If it is less than 2%, the change in kappa number becomes extremely slow,
If it exceeds 9.0%, the kappa number rapidly changes, which is not desirable.
【0033】一方、温度とアルカリ添加率の両方を変更
する場合の温度及びアルカリ添加率の変更も前記した範
囲内で適宜選択して組み合わされて行なわれる。On the other hand, when both the temperature and the alkali addition rate are changed, the change of the temperature and the alkali addition rate is appropriately selected and combined within the above-mentioned range.
【0034】1ベッセル縦型連続蒸解釜においても、前
記と同様な蒸解制御が適用され、このようにして得られ
るパルプのカッパー価のバラツキは、1以下となるので
洗浄工程、精選工程、酸素漂白工程(若し有れば)、多
段漂白工程等における安定した操業が達成され、漂白パ
ルプの製造においては、漂白工程の安定した操業と品質
のパルプの製造が可能となり、未漂白の紙の原料に供さ
れる未漂白パルプの製造においても安定した明度と紙力
を有するパルプの製造が可能となる。The same digestion control as described above is applied to the one-vessel vertical continuous digester, and the pulp obtained in this manner has a kappa number variation of 1 or less. Stable operation in the process (if any), multi-stage bleaching process, etc. is achieved, and in the production of bleached pulp, stable operation of the bleaching process and production of pulp of high quality become possible, and raw materials for unbleached paper In the production of unbleached pulp to be supplied to pulp, it is possible to produce pulp having stable brightness and paper strength.
【0035】[0035]
【実施例】以下に実施例を挙げて本発明を具体的に説明
するが、勿論本発明はこれによってなんら限定されるも
のではない。EXAMPLES The present invention will be specifically described below with reference to examples, but of course, the present invention is not limited thereto.
【0036】実施例1〜3 図1に示される2ベッセル縦型連続蒸解釜(NUKP8
00ADT/日)においてダグラスファー15%、国内
松85%からなる針葉樹木材チップを表1の標準蒸解条
件でコンピューターで管理してクラフト蒸解し、カッパ
ー価25のパルプを製造した。次いで、パルプのカッパ
ー価の目標値を27に変更し、(1)MCCゾーンの蒸
解温度及び他のゾーンでの蒸解温度をそのままとし(表
1に示される標準のものと同じ)、MCCゾーンにおけ
る絶乾木材チップ重量当りのアルカリ添加率を3.7%
から2.9%へ、合計アルカリ添加率を18.2%から
17.4%へ減少して蒸解した例を実施例1とし、
(2)アルカリ添加率は、そのままとし(表1に示され
る標準のものと同じ)、MCCゾーン循環液のヒーター
出口温度のみを164℃から161℃に減少して蒸解し
た例を実施例2とし、更に(3)MCCゾーンへのアル
カリ添加率を3.7%から3.3%へ、合計のアルカリ
添加率を18.2%から17.8%へ減少し、更にMC
Cゾーン循環液のヒーター出口温度を164℃から16
3℃へ減少して蒸解した例を実施例3とした。Examples 1 to 3 A two-vessel vertical continuous digester (NUKP8) shown in FIG.
(00 ADT / day), kraft digestion of a softwood wood chip consisting of 15% Douglas fir and 85% domestic pine was managed by computer under the standard digestion conditions shown in Table 1 to produce pulp having a kappa number of 25. The kappa number target value of the pulp was then changed to 27, (1) the cooking temperature in the MCC zone and the cooking temperature in the other zones were left as they were (the same as the standard one shown in Table 1), and 3.7% alkali addition rate per absolutely dry wood chip weight
From Example 1 to 2.9% and the total alkali addition rate was reduced from 18.2% to 17.4% as Example 1,
(2) Example 2 was an example in which the alkali addition rate was kept as it is (the same as the standard one shown in Table 1), and only the heater outlet temperature of the circulating liquid in the MCC zone was reduced from 164 ° C to 161 ° C to perform cooking. And (3) reducing the alkali addition rate to the MCC zone from 3.7% to 3.3%, and reducing the total alkali addition rate from 18.2% to 17.8%.
C zone circulating fluid heater outlet temperature from 164 ° C to 16
The example which reduced to 3 degreeC and digested was set to Example 3.
【0037】用いた蒸解条件を表1に標準の蒸解条件と
併記して示した。又、どの場合も、蒸解釜から排出され
るパルプをブローラインで15分毎に採取し、TAPP
I試験法T−236hm−85に記載の方法でパルプの
カッパー価を測定し、バラツキと一緒に表2に示した。The cooking conditions used are shown in Table 1 together with the standard cooking conditions. In each case, pulp discharged from the digester was collected every 15 minutes by a blow line, and TAPP was collected.
The kappa number of the pulp was measured by the method described in Test Method T-236hm-85, and is shown in Table 2 together with the variation.
【0038】実施例4〜6 実施例1〜3と同じ標準の蒸解条件で蒸解を継続してカ
ッパー価25のパルプを製造しておいて、次にパルプカ
ッパー価の目標値を23に変更し、(1)MCCゾーン
における蒸解温度及び他のゾーンにおける温度をそのま
まにし、(表3に示される標準のものと同じ)、MCC
ゾーンにおけるアルカリ添加率を3.7%から4.5%
へ、合計のアルカリ添加率を18.2%から19.0%
へ増加して蒸解した例を実施例4とし、(2)アルカリ
添加率は、そのままとし(表3に示される標準のものと
同じ)、MCCゾーン循環液のヒーター出口温度のみを
164℃から167℃へ増加して蒸解した例を実施例5
とし、更に(3)MCC蒸解ゾーンへのアルカリ添加率
を3.7%から4.1%へ、合計のアルカリ添加率を1
8.2%から18.6%へ増加し、更にMCCゾーン循
環液のヒーター出口温度を164℃から165℃へ増加
して蒸解した例を実施例6とした。Examples 4-6 Pulps having a kappa number of 25 were produced by continuing cooking under the same standard cooking conditions as in Examples 1-3, and then the pulp kappa number target value was changed to 23. , (1) leave the cooking temperature in the MCC zone and the temperature in the other zones unchanged (same as the standard one shown in Table 3),
Increase the alkali addition rate in the zone from 3.7% to 4.5%
The total alkali addition rate from 18.2% to 19.0%
Example 4 was an example in which cooking was performed by increasing the temperature of the circulating fluid in the MCC zone from 164 ° C. to 167 ° C. (2) The alkali addition rate was kept as it was (the same as the standard one shown in Table 3). Example 5 where the temperature was increased to ℃ and the digestion was performed.
And (3) the alkali addition rate to the MCC cooking zone from 3.7% to 4.1%, and the total alkali addition rate to 1
Example 6 was an example in which the digestion was performed by increasing the temperature from 8.2% to 18.6% and further increasing the heater outlet temperature of the circulating liquid in the MCC zone from 164 ° C to 165 ° C.
【0039】用いた蒸解条件を表3に標準の蒸解条件も
併記して示した。又、得られたパルプカッパー価とバラ
ツキを表4に示した。The cooking conditions used are shown in Table 3 together with the standard cooking conditions. Table 4 shows the obtained pulp copper values and variations.
【0040】比較例1〜2 実施例1〜3と同じ標準蒸解条件で蒸解を継続しておい
て、次にアルカリ添加率並びに温度を変更し、(1)パ
ルプカッパー価の目標値を27へ変更した例を比較例
1、(2)パルプカッパー価の目標値を23へ変更した
例を比較例2とした。用いた蒸解条件を表5に標準の蒸
解条件も併記して示した。パルプの採取間隔を1時間毎
に変更した以外は、実施例1〜3と同じにしてパルプカ
ッパー価を測定し、バラツキと一緒に表6に示した。Comparative Examples 1-2 The cooking was continued under the same standard cooking conditions as in Examples 1-3, and then the alkali addition rate and temperature were changed, and (1) the target value of the pulp kappa number was set to 27. The modified example was referred to as Comparative Example 1, and (2) the example in which the target value of the pulp copper value was changed to 23 was referred to as Comparative Example 2. The cooking conditions used are shown in Table 5 along with the standard cooking conditions. The pulp kappa value was measured in the same manner as in Examples 1 to 3, except that the pulp sampling interval was changed every hour, and the results are shown in Table 6 together with variations.
【0041】[0041]
【表1】 [Table 1]
【0042】[0042]
【表2】 [Table 2]
【0043】[0043]
【表3】 [Table 3]
【0044】[0044]
【表4】 [Table 4]
【0045】[0045]
【表5】 [Table 5]
【0046】[0046]
【表6】 [Table 6]
【0047】表2、4及び6から明らかなように、本発
明法は、極めて迅速に目標のパルプのカッパー価が得ら
れ、しかもバラツキが少ない(実施例1〜6参照)のに
対し、従来法(比較例1及び2)では、目標のカッパー
価を得るのに長時間を要し、しかもバラツキが極めて大
きい。As is clear from Tables 2, 4 and 6, the method of the present invention can obtain the target pulp kappa value very quickly and has little variation (see Examples 1 to 6). In the method (Comparative Examples 1 and 2), it takes a long time to obtain the target kappa value, and the dispersion is extremely large.
【0048】[0048]
【発明の効果】本発明は、蒸解ゾーンを複数有し、その
うちの一つに向流蒸解が可能なMCCゾーンを備えた1
ベッセル及び2ベッセル縦型連続蒸解釜での木材の蒸解
制御方法において、MCCゾーンにおける蒸解温度或い
はアルカリ添加率或いは温度とアルカリ添加率の両方か
らなる蒸解条件のいずれかを操作することによって目標
とするパルプのカッパー価水準を極めて容易に、短時間
に達成することができ、しかもバラツキを小さくするこ
とができるので、品質の安定したパルプを製造すること
が可能となり、後工程の操業安定化が達成できるという
効果を奏する。According to the present invention, there is provided a cooking apparatus having a plurality of digestion zones, one of which is provided with an MCC zone capable of countercurrent cooking.
In a method of controlling wood digestion in a vessel and a 2-vessel vertical continuous digester, the target is controlled by operating either the digestion temperature in the MCC zone or the digestion conditions comprising the alkali addition rate or both the temperature and the alkali addition rate. The kappa value level of pulp can be achieved extremely easily and in a short time, and the dispersion can be reduced, so that pulp with stable quality can be manufactured and the operation in the post-process is stabilized. It has the effect of being able to.
【図1】2ベッセル液相縦型連続蒸解釜における木材チ
ップ、白液、各種の循環液の流れ等を示す概略フロー図
である。FIG. 1 is a schematic flow chart showing the flow of wood chips, white liquor, various circulating liquids, and the like in a two-vessel liquid-phase vertical continuous digester.
1…チップビン、3…スチームベッセル、4…加圧フィ
ーダー、6…浸透ベッセル、8…蒸解釜、A…上部蒸解
トリムゾーン、B…上部蒸解ゾーン、C…MCCゾー
ン、D…洗浄ゾーン、14,15,16…ヒーター、1
7…白液導入管DESCRIPTION OF SYMBOLS 1 ... Chip bin, 3 ... Steam vessel, 4 ... Pressurized feeder, 6 ... Permeation vessel, 8 ... Digester, A ... Upper digestion trim zone, B ... Upper digestion zone, C ... MCC zone, D ... Washing zone, 14, 15, 16 ... heater, 1
7 ... White liquid introduction pipe
───────────────────────────────────────────────────── フロントページの続き (58)調査した分野(Int.Cl.7,DB名) D21C 3/02 ──────────────────────────────────────────────────続 き Continued on front page (58) Field surveyed (Int.Cl. 7 , DB name) D21C 3/02
Claims (2)
型浸透ベッセルが設置されており、縦型蒸解釜の内部に
は頂部から底部にかけて、上部蒸解トリムゾーン、上部
蒸解ゾーン、下部蒸解ゾーン及び洗浄ゾーンが設けられ
ており、上部蒸解トリムゾーン及び上部蒸解ゾーンでは
並流蒸解が、下部蒸解ゾーンでは向流蒸解が実施され、
洗浄ゾーンではハイヒート向流洗浄が実施される2ベッ
セル縦型蒸解釜に木材チップとアルカリ性蒸解液を導入
して木材チップを蒸解するに際し、絶乾木材チップ重量
当りの活性アルカリが(Na2 Oとして)15〜20重
量%の範囲で添加されるアルカリ性蒸解液のうち、50
〜90%が浸透ベッセルに、0〜45重量%が上部蒸解
トリムゾーンに、5〜45重量%が下部蒸解ゾーンに添
加され、且つ夫々の蒸解ゾーンの温度が140〜175
℃の範囲で変更され、縦型蒸解釜底部より排出されるパ
ルプのTAPPI試験法T−236hm−85に記載の
カッパー価を12〜55の範囲内で制御する方法におい
て、浸透ベッセル、上部蒸解トリムゾーン及び上部蒸解
ゾーンにおける温度及びアルカリ濃度を一定水準に維持
しながら、下部蒸解ゾーンの蒸解温度又はアルカリ添加
率或いはその両者を変更し、パルプのカッパー価を制御
する方法。1. A vertical infiltration vessel is installed in front of a vertical digester having a digestion zone, and an upper digestion trim zone, an upper digestion zone, and a lower digestion are provided inside the vertical digester from top to bottom. A zone and a washing zone are provided, an upper cooking trim zone and an upper cooking zone are co-currently cooked, and a lower cooking zone is a countercurrent cooking,
In the washing zone, when wood chips and an alkaline cooking liquor are introduced into a 2-vessel vertical digester in which high heat countercurrent washing is performed to digest wood chips, active alkali per weight of the absolutely dry wood chips is converted to (Na 2 O). ) 50% of the alkaline cooking liquor added in the range of 15 to 20% by weight.
9090% is added to the permeation vessel, 0-45% by weight is added to the upper cooking trim zone, 5-45% by weight is added to the lower cooking zone, and the temperature of each cooking zone is 140-175.
C., in a method of controlling the kappa number of pulp discharged from the bottom of the vertical digester from the bottom of the vertical digester according to TAPPI test method T-236hm-85 within the range of 12 to 55, using an infiltration vessel and an upper digestion trim. A method of controlling the kappa number of pulp by changing the cooking temperature and / or the alkali addition rate in the lower cooking zone while maintaining the temperature and alkali concentration in the zone and the upper cooking zone at constant levels.
て、浸透ゾーン、蒸解ゾーン、下部蒸解ゾーン及び洗浄
ゾーンが設けられており、浸透ゾーン及び蒸解ゾーンで
は木材チップと蒸解液は並流で接触し、下部蒸解ゾーン
では向流蒸解が実施され、洗浄ゾーンではハイヒート向
流洗浄が実施される1ベッセル縦型蒸解釜並びに浸透ゾ
ーンを有しないこと以外前記と同じ1ベッセル縦型蒸解
釜に木材チップとアルカリ性蒸解液を導入して木材チッ
プを蒸解するに際し、絶乾木材チップ重量当り活性アル
カリが(Na2 Oとして)15〜20重量%の範囲で添
加されるアルカリ性蒸解液のうち、55〜95重量%が
木材チップ供給ライン及び/或いは浸透ゾーン及び/或
いは蒸解ゾーンで添加され、5〜45重量%が下部蒸解
ゾーンに添加され、且つ夫々のゾーンの温度が140〜
175℃の範囲で変更され、縦型蒸解釜底部より排出さ
れるパルプのカッパー価を12〜55の範囲内で制御す
る方法において、浸透ゾーン及び蒸解ゾーン或いは蒸解
ゾーンにおける温度及びアルカリ濃度を一定水準に維持
しながら、下部蒸解ゾーンの蒸解温度又はアルカリ添加
率或いはその両者を変更し、パルプのカッパー価を制御
する方法。2. A vertical digester is provided with an infiltration zone, a digestion zone, a lower digestion zone, and a washing zone from the top to the bottom, and in the infiltration zone and the digestion zone, the wood chips and the cooking liquor are co-current. In contact with the lower cooking zone, countercurrent cooking is carried out, and in the washing zone, the wood is placed in the same 1-vessel vertical cooking vessel as above except that it does not have a 1-vessel vertical digester in which high heat countercurrent washing is carried out and an infiltration zone. When cooking wood chips by introducing chips and an alkaline cooking liquor, 55 to 50% of alkaline cooking liquors to which active alkali is added in the range of 15 to 20% by weight (as Na 2 O) per absolute dry wood chip weight. 95% by weight is added in the wood chip feed line and / or infiltration zone and / or cooking zone, 5 to 45% by weight is added in the lower cooking zone, And the temperature of each zone is 140 ~
A method for controlling the kappa number of pulp discharged from the bottom of a vertical digester within a range of 12 to 55, which is changed in the range of 175 ° C., wherein the temperature and alkali concentration in the infiltration zone and the digestion zone or the digestion zone are kept at a certain level. A method for controlling the kappa number of pulp by changing the cooking temperature and / or the alkali addition rate of the lower cooking zone while maintaining the kappa number.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP3348475A JP3064616B2 (en) | 1991-12-05 | 1991-12-05 | Method for controlling kappa number of pulp in vertical continuous digester with modified cooking method |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP3348475A JP3064616B2 (en) | 1991-12-05 | 1991-12-05 | Method for controlling kappa number of pulp in vertical continuous digester with modified cooking method |
Publications (2)
Publication Number | Publication Date |
---|---|
JPH05156583A JPH05156583A (en) | 1993-06-22 |
JP3064616B2 true JP3064616B2 (en) | 2000-07-12 |
Family
ID=18397262
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP3348475A Expired - Fee Related JP3064616B2 (en) | 1991-12-05 | 1991-12-05 | Method for controlling kappa number of pulp in vertical continuous digester with modified cooking method |
Country Status (1)
Country | Link |
---|---|
JP (1) | JP3064616B2 (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
KR101889074B1 (en) * | 2016-10-07 | 2018-08-16 | 단국대학교 천안캠퍼스 산학협력단 | Bags with Multiple Space |
-
1991
- 1991-12-05 JP JP3348475A patent/JP3064616B2/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
KR101889074B1 (en) * | 2016-10-07 | 2018-08-16 | 단국대학교 천안캠퍼스 산학협력단 | Bags with Multiple Space |
Also Published As
Publication number | Publication date |
---|---|
JPH05156583A (en) | 1993-06-22 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
US3097987A (en) | Continuous pulping process | |
EP1308554B1 (en) | Dissolved solids control in pulp production | |
US5080755A (en) | Process for the continuous digestion of cellulosic fiber material | |
US4595455A (en) | Method for controlling batch alkaline pulp digestion in combination with continuous alkaline oxygen delignification | |
CA1099058A (en) | Process for controlling the supply of delignifying and/or bleaching chemicals in the continuous delignification of lignocellulosic material | |
NO179918B (en) | Process and apparatus for producing power mass | |
US6123807A (en) | Method for the continuous cooking of pulp | |
JP5049980B2 (en) | Continuous cooking method and apparatus | |
CN104452389B (en) | Energy-saving pulping cooking sequence interlock control system | |
US20040089431A1 (en) | Method for alkaline batch cooking of fiber material | |
JP7292296B2 (en) | Dissolving pulp manufacturing method | |
US6203662B1 (en) | Method for the continuous cooking of pulp in a digester system having a top separator | |
US5192396A (en) | Process for the continuous digestion of cellulosic fiber material | |
NO180386C (en) | Process for the production of kraft pulp by a batch cooking process | |
US3652384A (en) | Countercurrent pulping of cellulosic materials including regulation of active chemical therein | |
JP3064616B2 (en) | Method for controlling kappa number of pulp in vertical continuous digester with modified cooking method | |
WO2008103124A1 (en) | Vapour phase digester and a method for continuous cooking | |
JPS63502522A (en) | Control of bleaching of various pulps with peroxide | |
US3272691A (en) | Apparatus for continuously chlorinating pulp including automatic control of the degree of chlorination | |
JP3461311B2 (en) | Continuous digester system with inverted top separator and method of use | |
US4162933A (en) | Exothermic heat as a means of determining the degree of delignification | |
JP3064607B2 (en) | Modified Kraft Pulp Production Method | |
US6238517B1 (en) | Method for controlling oxygen delignification of pulp | |
JP2005256224A (en) | Method of digestion using columnar vessel type continuous digester | |
JPH05125680A (en) | Method for digesting wood chip by alternately changing chips having different kappa numbers in the same digester |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
FPAY | Renewal fee payment (event date is renewal date of database) |
Free format text: PAYMENT UNTIL: 20090512 Year of fee payment: 9 |
|
FPAY | Renewal fee payment (event date is renewal date of database) |
Free format text: PAYMENT UNTIL: 20090512 Year of fee payment: 9 |
|
FPAY | Renewal fee payment (event date is renewal date of database) |
Free format text: PAYMENT UNTIL: 20100512 Year of fee payment: 10 |
|
LAPS | Cancellation because of no payment of annual fees |