JPH0813367A - Production of pulp - Google Patents
Production of pulpInfo
- Publication number
- JPH0813367A JPH0813367A JP14497694A JP14497694A JPH0813367A JP H0813367 A JPH0813367 A JP H0813367A JP 14497694 A JP14497694 A JP 14497694A JP 14497694 A JP14497694 A JP 14497694A JP H0813367 A JPH0813367 A JP H0813367A
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- JP
- Japan
- Prior art keywords
- pulp
- enzyme
- paper
- producing
- plant
- 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.)
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Abstract
Description
【0001】[0001]
【産業上の利用分野】本発明は、稲藁、麦藁、バガス
(さとうきびのしぼり粕)等の非木材系植物資源を酵素
処理することを特徴とするパルプもしくは紙を効率よく
製造する方法に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for efficiently producing pulp or paper, which is characterized by enzymatically treating non-wood plant resources such as rice straw, wheat straw, bagasse (sugar cane squeezed lees).
【0002】[0002]
【従来の技術】我が国ではパルプ原料として99%以上
を木材に頼ってきたが、近年、世界的に木材資源の不足
が認識され始め、また、地球環境保護に関する意識が高
まり、なかでも森林資源の保護が関心を集めている。そ
こで、年々大量に発生し農産廃棄物として捨てられてい
た稲藁、麦藁、バガス等の非木材系の植物資源が注目さ
れるに至った。2. Description of the Related Art In Japan, 99% or more of wood has been relied on as a pulp raw material, but in recent years, a worldwide shortage of wood resources has begun to be recognized, and awareness of global environment protection has increased. Conservation is of interest. Therefore, non-wood type plant resources such as rice straw, wheat straw, and bagasse, which have been generated in large quantities each year and have been discarded as agricultural waste, have been attracting attention.
【0003】従来の稲藁、麦藁、バガス等の非木材資源
からのパルプ化はソーダ法、クラフト法などが知られて
いる。これらの方法では原料である稲藁、麦藁をアルカ
リ条件下140度〜170度に加熱して高温高圧で処理
する、即ち蒸解してリグニンを除去するのであるが、ソ
ーダ法においては収率が低いこと、蒸解廃液処理が困難
であること、また、クラフト法ではさらにつけ加えて悪
臭物質を発生するというマイナス面があり非木材資源か
らのパルプ化の普及を妨げている一因となっている。特
に蒸解廃液に関しては、原料である稲藁、麦藁自体のシ
リカ(SiO2 )の含量が高く、蒸解工程中に可溶性の
Na2 SiO3 となって黒液中に溶解して回収中の各工
程でトラブルを引き起こすことが知られている。例え
ば、エバポレーターでは、スケールの付着が著しく、高
粘度となるので、高濃度濃縮が困難となる。また、回収
ボイラーではシリカ(SiO2 )は灰の融点を上昇さ
せ、ボイラーの汚れ、詰まりを引き起こす。苛性化工程
ではCaSiO3 を作って白液中に溶解し循環して系内
にシリカを蓄積させる。こうした薬品回収上の問題点の
ため、特にシリカ含量の高い稲藁を原料とする場合には
事実上薬品回収は不可能であり、廃液として投棄され大
きな環境問題となっている。廃液を処理すれば良いわけ
であるが、それには多大な費用をかけざるをえないため
に経済的に成り立たない大きな理由の一つとなってい
る。Conventional pulping from non-wood resources such as rice straw, wheat straw, and bagasse is known as a soda method and a kraft method. In these methods, rice straw and wheat straw as raw materials are heated to 140 to 170 degrees under alkaline conditions and treated at high temperature and high pressure, that is, they are cooked to remove lignin, but the yield is low in the soda method. That is, it is difficult to treat the cooking waste liquor, and the kraft method has the additional disadvantage of generating malodorous substances, which is one of the factors that prevent the spread of pulping from non-wood resources. Especially for cooking waste liquor, the content of silica (SiO 2 ) in rice straw and wheat straw as raw materials is high, and soluble Na 2 SiO 3 is dissolved in the black liquor during the cooking process to recover each process. Is known to cause trouble. For example, in an evaporator, the scale adheres remarkably and has a high viscosity, so that it is difficult to concentrate at a high concentration. Further, in the recovery boiler, silica (SiO 2 ) raises the melting point of ash, causing the boiler to become dirty and clogged. In the causticizing process, CaSiO 3 is produced, dissolved in white liquor and circulated to accumulate silica in the system. Due to such problems in collecting chemicals, it is practically impossible to collect chemicals, especially when rice straw having a high silica content is used as a raw material, and it is discarded as a waste liquid, which is a great environmental problem. Although it is sufficient to treat the waste liquid, it is one of the major reasons why it is economically unsuccessful because it requires a great deal of expense.
【0004】一方、非木材資源から酵素を用いたパルプ
の製造に関しては靭皮繊維から紙料用パルプを製造する
方法(特開昭53−28701)、非木材繊維のパルプ
化法(特公昭57−39636)、酵素によるパルプの
製造方法(特開昭59−223389)などが公知であ
るが、これら全ては亜麻や黄麻に代表される麻類、ミツ
マタ、コウゾなどの靭皮繊維を対象としたものである。
稲、麦、バガスなど草類の維管束からなる硬質繊維に適
した酵素によるパルプ製造方法は知られていない。On the other hand, regarding the production of pulp from enzymes from non-wood resources, a method for producing pulp for pulp from bast fibers (JP-A-53-28701) and a method for pulping non-wood fibers (JP-B-57). No. 39636), a method for producing pulp by an enzyme (Japanese Patent Laid-Open No. 59-223389) and the like are known, but all of them target hemp fibers represented by flax and jute, bast fibers such as Mitsumata and Kozo. It is a thing.
Enzyme pulp production methods suitable for hard fibers composed of grass vascular bundles such as rice, wheat and bagasse are not known.
【0005】[0005]
【発明が解決しようとする課題】本発明は、稲藁、麦
藁、バガス等の非木材資源の利用にあたり、廃水処理や
悪臭対策が困難である従来の化学的方法に代わる無公害
で新規なパルプの製造方法を提供することを目的とす
る。DISCLOSURE OF THE INVENTION The present invention relates to a novel pollution-free pulp alternative to conventional chemical methods, which is difficult to treat wastewater and to control malodor when utilizing non-wood resources such as rice straw, straw and bagasse. It aims at providing the manufacturing method of.
【0006】さらに、本発明は、前記の非木材資源のパ
ルプ化には適さない従来の酵素によるパルプ製造方法に
代わる、新規で有効なパルプ製造方法を提供することを
目的とする。また、本発明は新規な紙・板紙の製造方法
の提供を目的とする。Further, it is an object of the present invention to provide a new and effective pulp production method which replaces the conventional enzyme pulp production method which is not suitable for pulping non-wood resources. Another object of the present invention is to provide a novel method for manufacturing paper / paperboard.
【0007】[0007]
【課題を解決するための手段】植物体から製紙用原料と
なる繊維を取り出したものがパルプであり、製紙用繊維
の主体をなすのはセルロースである。原料となる稲藁、
麦藁やバガスなどの化学組成は複雑であるが、セルロー
ス、ヘミセルロース、リグニンの3大成分から成り立っ
ている。その他油脂分や少量のタンパク質、シリカなど
の灰分が含まれる。これら構成成分がお互いにどのよう
な状態で結合しているかは必ずしも全容は明かではな
い。しかし、断片的な知見ではあるが、麦わらリグニン
についての報告によれば、麦藁よりアルカリ抽出リグニ
ン、微粉砕抽出リグニン、酵素抽出リグニンの3種類の
リグニンを単離してその特性を検討した結果、麦藁中の
リグニンはヘミセルロースであるアラビノグルクロノキ
シランと強固な結合をしているが、それはフェルラ酸を
介した架橋結合であると推定されている。[Means for Solving the Problems] Pulp is obtained by taking out fibers, which are raw materials for papermaking, from a plant, and cellulose is the main constituent of the fibers for papermaking. Rice straw, which is the raw material,
Although the chemical composition of straw and bagasse is complex, it is composed of three major components: cellulose, hemicellulose, and lignin. Others include oils and fats, small amounts of protein, and ash such as silica. It is not always entirely clear how these components are bound to each other. However, although it is a fragmentary finding, according to a report on straw lignin, three types of lignin, that is, alkali-extracted lignin, finely-pulverized and extracted lignin, and enzyme-extracted lignin were isolated from wheat straw, and as a result, their characteristics were examined. The lignin in it has a strong bond with the hemicellulose, arabinoglucuronoxylan, but it is presumed that it is a cross-linking bond via ferulic acid.
【0008】また、バガスのリグニン糖複合体(Lig
nin−carbohydratecomplex:L
CC)の構造が解明され、フェルラ酸、p−クマル酸を
含み、糖成分はアラビノースとキシロースとが1:8か
らなるアラビノグルクロノキシランであった。リグニン
とのその結合様式はベンジルエステルあるいはベンジル
エーテル結合であろうと推定されている。In addition, the lignin sugar complex of bagasse (Lig
nin-carbohydrate complex: L
The structure of (CC) was elucidated, and it contained ferulic acid and p-coumaric acid, and the sugar component was arabinoglucuronoxylan consisting of arabinose and xylose at a ratio of 1: 8. It is presumed that its binding mode with lignin may be a benzyl ester or benzyl ether bond.
【0009】従来の方法ではリグニンを除去する目的で
アルカリ条件下高温高圧処理してパルプ化していたので
あるが、本発明者らはリグニンと結合しているヘミセル
ロースであるキシランを分解すれば容易にリグニンを除
去できるという考察に基づいて鋭意検討した結果本発明
を完成するに至った。即ち、本発明に係わるパルプの製
造方法は原料である稲藁、麦藁、バガス等を常温常圧下
で酵素処理することを特徴とするものであり、自然環境
に悪影響を及ぼすような廃水を生成せしめないことを特
徴とするものである。In the conventional method, high temperature and high pressure treatment under alkaline conditions was carried out for pulping for the purpose of removing lignin, but the present inventors easily decomposed xylan which is hemicellulose bound to lignin. As a result of intensive studies based on the consideration that lignin can be removed, the present invention has been completed. That is, the method for producing a pulp according to the present invention is characterized by subjecting raw materials rice straw, wheat straw, bagasse, etc. to enzyme treatment under normal temperature and normal pressure to generate waste water that adversely affects the natural environment. It is characterized by not having.
【0010】[0010]
【発明の開示】すなわち、本発明は以下のパルプ製造方
法及び紙・板紙の製造方法を提供する。 1)非木材系植物由来の繊維源を、キシラン分解活性を
有する酵素で処理することを特徴とするパルプの製造方
法。 2)繊維源が農産廃棄物である前記1)に記載のパルプ
の製造方法。 3)非木材系植物が単子葉植物である前記1)に記載の
パルプの製造方法。 4)非木材系植物由来の繊維源が稲藁、麦藁、バガス、
とうもろこし穂軸、綿実粕もしくは燕麦種皮である前記
1)に記載のパルプの製造方法。 5)前記1)ないし4)に記載の処理の後に、得られた
パルプを還元漂白及び/または酸化漂白することを特徴
とするパルプの製造方法。 6)前記1)ないし5)に記載の処理の後に、得られた
パルプを漉くことを特徴とする紙・板紙の製造方法。 7)前記1)ないし5)に記載の処理の後に、得られた
パルプに化学パルプを配合して漉くことを特徴とする紙
・板紙の製造方法。DISCLOSURE OF THE INVENTION That is, the present invention provides the following pulp production method and paper / paperboard production method. 1) A method for producing pulp, which comprises treating a fiber source derived from a non-wood plant with an enzyme having a xylan-decomposing activity. 2) The method for producing pulp as described in 1) above, wherein the fiber source is agricultural waste. 3) The method for producing pulp according to 1), wherein the non-woody plant is a monocot. 4) Fiber sources derived from non-wood type plants are rice straw, wheat straw, bagasse,
The method for producing a pulp according to 1) above, which is a corn cob, a cottonseed meal or an oat seed coat. 5) A method for producing pulp, which comprises subjecting the obtained pulp to reduction bleaching and / or oxidative bleaching after the treatment described in 1) to 4) above. 6) A method for producing paper / paperboard, which comprises filtering the obtained pulp after the treatment described in 1) to 5) above. 7) A method for producing paper / paperboard, characterized in that after the treatments described in 1) to 5) above, the obtained pulp is blended with chemical pulp and strained.
【0011】本発明で酵素処理の対象となるのは、非木
材系植物由来の繊維源であり、好ましくは単子葉植物由
来の繊維源もしくは農産廃棄物であり、より好ましくは
稲藁、麦藁、バガス、とうもろこし穂軸、綿実粕、燕麦
種皮などである。これら原料に付着している土や泥は酵
素を作用させる前に洗浄して取り除いておく方がよい。
また、原料を前処理すること即ち原料に対して酵素がよ
り働き易い状態にした後、酵素処理することでより容易
にパルプ化を行うことができる。前処理の方法は原料を
ハイドロパルパーやプレスなど用いた機械的処理で軽く
解繊する方法や水酸化ナトリウムのようなアルカリに浸
して化学的に処理し組織を膨潤させる方法あるいは機械
的処理と化学的処理を組み合わせた処理方法を用いるこ
とができる。The target of the enzyme treatment in the present invention is a fiber source derived from a non-wood plant, preferably a monocot plant derived fiber source or agricultural waste, more preferably rice straw, wheat straw, Examples include bagasse, corn cobs, cottonseed meal and oat seed coat. It is better to wash and remove the soil and mud adhering to these raw materials before applying the enzyme.
In addition, pulping can be performed more easily by pretreating the raw material, that is, after making the enzyme more easily act on the raw material, and then treating with the enzyme. The pretreatment method is a method in which the raw material is lightly defibrated by a mechanical treatment using a hydropulper or a press, a method in which it is chemically treated by immersing it in an alkali such as sodium hydroxide to swell the structure, or a mechanical treatment and a chemical treatment. It is possible to use a treatment method in which a specific treatment is combined.
【0012】キシラン分解酵素としては微生物、動物、
植物などいずれの起源のものであってもよく精製品のほ
か粗精製品であってもよい。これらの酵素は単独にまた
は併用してまたは順次用いることができ、非木材系由来
の繊維源の乾燥重量あたり0. 01重量%から10重量
%を添加する。As xylan-degrading enzymes, microorganisms, animals,
It may be of any origin such as a plant, and may be a crude product as well as a purified product. These enzymes can be used alone or in combination or sequentially and are added in an amount of 0.01 to 10% by weight based on the dry weight of the fiber source derived from a non-wood system.
【0013】酵素のキシラン分解活性の有無について
は、簡便法として以下に示す方法で調べることができ
る。即ち、任意のpHに調製した水溶液に市販のオート
麦由来のキシラン(SIGMA社)が1重量%の濃度に
なるよう懸濁し、寒天を2重量%となるように加えた
後、90〜100℃まで加熱して寒天プレートを作成す
る。酵素液を適当に希釈してあるいは濃縮して寒天プレ
ートにスポットした後、任意の温度で保温する。24時
間経過後に寒天プレートを観察しスポットした周辺部に
クリアゾーンが認められるならばキシラン分解活性を有
すると判定する。The presence or absence of xylan-degrading activity of the enzyme can be examined by the following method as a simple method. That is, commercially available oat-derived xylan (SIGMA) was suspended in an aqueous solution adjusted to an arbitrary pH so as to have a concentration of 1% by weight, and agar was added so as to have a concentration of 2% by weight, and then 90 to 100 ° C. Heat up to make agar plate. The enzyme solution is appropriately diluted or concentrated, spotted on an agar plate, and then kept at an arbitrary temperature. After 24 hours, the agar plate was observed, and if a clear zone was observed in the spotted peripheral area, it was determined to have xylan-decomposing activity.
【0014】酵素処理にあたっては、原料濃度は0. 1
重量%〜20重量%、好ましくは1〜10重量%であ
る。pH、温度条件は、分解活性の最適条件に近いほど
効果的ではあるが、そのことにこだわる必要はなく酵素
が作用する範囲内であればよい。通常、pHは3〜1
1、温度は10℃〜90℃の範囲内から選択できる。処
理時間は処理pH、処理温度、酵素量により影響され
る。また、稲藁、麦藁、バガスなどの原料の種類や前処
理の程度によっても影響を受ける。静置するかあるいは
静かに撹拌しながら処理すると短ければ1時間、長けれ
ば10日間程度必要となる。酵素処理条件は実生産上の
制約を考慮して決めればよい。予備試験を行った後に最
適な条件を設定することが望ましい。In the enzyme treatment, the raw material concentration is 0.1
% By weight to 20% by weight, preferably 1 to 10% by weight. The closer the pH and temperature conditions are to the optimum conditions for the decomposition activity, the more effective it is. Usually pH is 3-1
1. The temperature can be selected from the range of 10 ° C to 90 ° C. The treatment time is influenced by the treatment pH, the treatment temperature and the amount of enzyme. It is also affected by the type of raw material such as rice straw, wheat straw and bagasse, and the degree of pretreatment. If it is left standing or treated with gentle stirring, it takes about 1 hour if it is short and about 10 days if it is long. The enzyme treatment conditions may be determined in consideration of the constraints on actual production. It is desirable to set the optimum conditions after conducting a preliminary test.
【0015】さらにはまた、原料中に含まれている油脂
分やタンパク質を分解するために油脂分解酵素やタンパ
ク質分解酵素を予めあるいは同時に作用させればさらに
容易にパルプ化を行うことができる。セルロース分解酵
素の場合は繊維自体を分解して収率やパルプ強度を低下
させるので好ましくはないが、例えば、パルプ強度がそ
れほど要求されない場合にはセルロース分解酵素を予め
あるいは同時に作用させればより容易にパルプ化を行う
ことができる。これらの場合も使用する酵素の特性から
分解活性の最適条件に近いほど効果的ではあるが、それ
にこだわる必要はなく酵素が作用する範囲内であればよ
い。Furthermore, pulping can be more easily carried out by preliminarily or simultaneously acting an oil-degrading enzyme or a protein-degrading enzyme in order to decompose oils and fats and proteins contained in the raw material. In the case of a cellulolytic enzyme, it is not preferable because the fiber itself is decomposed to lower the yield and the pulp strength, but for example, when pulp strength is not so required, it is easier to act the cellulose degrading enzyme in advance or simultaneously. Can be pulped. In these cases as well, the closer to the optimum condition of the decomposition activity the more effective it is from the characteristics of the enzyme used, but it is not necessary to be particular about it and it may be within the range where the enzyme acts.
【0016】酵素処理された原料は、繊維がまだ結束し
ていたり、非繊維分が付着していて、直接紙を構成する
ことができるような状態にはなっていないことが多い。
そこで離解や叩解を行ってから繊維をよく分離取得す
る。離解や叩解はパルパー、ビーター、リファイナー、
PFIミルなどを用いて処理することができる。離解や
叩解は原料の組織をさらに膨潤させる目的とリグニンを
抽出する目的で、アルカリ条件下で行うのが好ましい
が、必ずしもこの限りではない。なお、ここでアルカリ
条件下で行うためには、酵素処理する前に原料をアルカ
リ液に浸すという方法を取るのが好ましいが、使用後の
アルカリ液はまた次の原料を浸すのに使え、何度もリサ
イクル出来るので、従来のソーダ法のような大量の廃液
を出すことはない。The enzyme-treated raw material is often in a state in which fibers are still bound or non-fiber components are attached, and the raw material cannot be directly formed into paper.
Therefore, after disintegrating or beating, the fibers are often separated and acquired. Disaggregation and beating are pulper, beater, refiner,
It can be processed using a PFI mill or the like. The disaggregation or beating is preferably carried out under alkaline conditions for the purpose of further swelling the tissue of the raw material and for the purpose of extracting lignin, but it is not always limited to this. In order to carry out under alkaline conditions here, it is preferable to take a method of immersing the raw material in the alkaline solution before the enzyme treatment, but the alkaline solution after use can also be used for immersing the next raw material. Since it can be recycled again, it does not generate a large amount of waste liquid unlike the conventional soda method.
【0017】分離処理は湿式の回転ふるい、フラットス
クリーン及びプレッシャースクリーン等で処理可能であ
る。2段以上、同種または異種のふるいを用いることは
繊維分と非繊維分との分離に有効である。The separation treatment can be performed with a wet rotary sieve, a flat screen, a pressure screen or the like. It is effective to separate the fiber and non-fiber components by using two or more sieves of the same type or different types.
【0018】その後、必要に応じて定法に従った還元漂
白及び/または酸化漂白をして紙・板紙用パルプにする
ことができる。例えば、還元漂白については、パルプ濃
度3〜5%、pH5〜6、温度50〜65℃の範囲で、
ハイドロサルファイトナトリウムを対乾燥パルプ0.5
〜1.0重量%添加して0.5〜1.0時間処理する。Thereafter, if necessary, reduction bleaching and / or oxidative bleaching according to a standard method can be carried out to obtain paper / paperboard pulp. For example, for reduction bleaching, the pulp concentration is 3 to 5%, the pH is 5 to 6, and the temperature is 50 to 65 ° C.
Sodium hydrosulfite vs. dry pulp 0.5
~ 1.0 wt% is added and treated for 0.5-1.0 hours.
【0019】また、酸化漂白については、塩素水、次亜
塩素酸ナトリウム、二酸化塩素、過酸化水素などを用い
ることが出来る。例えば、次亜塩素酸ナトリウムを用い
る場合には、パルプ濃度3〜5%、温度25〜50℃、
有効塩素量2〜9%で、2〜6時間処理する。酸化漂白
については、2種以上の薬品を用いて、多段階処理する
ことが好ましい。次亜塩素酸ナトリウム、塩素水、二酸
化塩素など塩素含有薬品を用いる場合はアルカリ抽出操
作を入れることが好ましい。For oxidative bleaching, chlorine water, sodium hypochlorite, chlorine dioxide, hydrogen peroxide, etc. can be used. For example, when sodium hypochlorite is used, the pulp concentration is 3 to 5%, the temperature is 25 to 50 ° C,
Treat with 2-9% of available chlorine for 2-6 hours. For oxidative bleaching, it is preferable to carry out multi-step treatment using two or more chemicals. When using a chlorine-containing chemical such as sodium hypochlorite, chlorine water or chlorine dioxide, it is preferable to carry out an alkali extraction operation.
【0020】得られたパルプから必要に応じて定法に従
った紙調製方法により、紙・板紙を製造することができ
る。例えばJIS P8209パルプ試験用手すき紙調
製方法により良好な手すき紙を得ることができる。ま
た、長網抄紙機や円網抄紙機などの抄紙機を用いて、機
械的に紙を調製することも可能である。Paper / paperboard can be produced from the obtained pulp, if necessary, by a paper preparation method according to a standard method. For example, good handmade paper can be obtained by the method for preparing handmade paper for JIS P8209 pulp test. Further, it is also possible to mechanically prepare paper using a paper machine such as a Fourdrinier paper machine or a cylinder paper machine.
【0021】[0021]
【実施例】以下に実施例を挙げて本発明をさらに詳細に
説明するが、かかる例に限定されるものではない。The present invention will be described in more detail with reference to the following examples, but the invention is not limited thereto.
【0022】実施例1 自然界からキシラン分解活性を有する酵素を生産する微
生物をスクリーニングした。スクリーニングの方法は以
下に示した組成の平板寒天培地に各地より採集した土壌
の懸濁液を適当に希釈して塗布した。50℃、24時間
培養した後平板寒天上に出現したコロニーの周辺にクリ
アゾーンが認められるもの(菌株A、菌株B、菌株C)
を選択した。スクリーニング用平板寒天培地の組成はキ
シラン(オート麦由来)1%、アスパラギン0. 1%、
酵母エキス0. 1%、KH2 PO4 0. 05%、MgS
O4 /7H2 O0. 02%、NaCl0. 02%、Fe
Cl3 0. 002%、寒天2%で、pH7に調整した後
121℃、20分オートクレーブ滅菌した。 Example 1 A microorganism producing an enzyme having a xylan-degrading activity was screened from nature. As a screening method, a suspension of soil collected from various places was appropriately diluted and applied to a plate agar medium having the composition shown below. Clear zones are found around colonies that appear on plate agar after culturing at 50 ° C for 24 hours (strain A, strain B, strain C)
Was selected. The composition of the plate agar medium for screening is 1% xylan (derived from oats), 0.1% asparagine,
Yeast extract 0.1%, KH 2 PO 4 0.05%, MgS
O 4 / 7H 2 O 0.02%, NaCl 0.02%, Fe
After adjusting the pH to 7 with Cl 3 0.002% and agar 2%, it was sterilized by autoclaving at 121 ° C. for 20 minutes.
【0023】得られた微生物をスクリーニング用平板寒
天培地から寒天を除いた液体培地を酵素生産培地として
3日間振盪培養し、その培養液の遠心上清を得た。上清
中のキシラン分解活性の有無をpH7、50℃の条件で
前記の簡便法により調べた後酵素液として用いた。The obtained microorganism was shake-cultured for 3 days with a liquid medium obtained by removing agar from a plate agar medium for screening as an enzyme-producing medium, to obtain a centrifugal supernatant of the culture solution. The presence or absence of xylan-degrading activity in the supernatant was examined by the above-mentioned simple method under the conditions of pH 7 and 50 ° C. and used as an enzyme solution.
【0024】乾燥重量100gの稲藁を5cm長に裁断
した後10重量%濃度NaOH水溶液16. 5lに浸漬
し、一昼夜室温で保持した。その後、稲藁を取り出し、
よく水洗してNaOHや溶出物や泥などの付着物を除去
し、遠心脱水して前処理済み原料とした。次に、この前
処理済み原料に5重量%となるように水を加え、pH7
に調整した。酵素は上記微生物の培養液上清を用いた。
対稲藁乾燥重量当り10重量%添加し、50℃に保持し
て、72時間静かに撹拌しながら反応させた。反応後、
稲藁を取り出してパルパーで十分離解した後、フラット
スクリーン(熊谷理機工業(株)製)でふるい分けして
パルプを得た。Rice straw having a dry weight of 100 g was cut into a length of 5 cm, immersed in 16.5 l of a 10% by weight NaOH aqueous solution, and kept at room temperature all day and night. After that, take out the rice straw,
It was washed well with water to remove NaOH, eluate and adhering matter such as mud, and centrifugally dehydrated to obtain a pretreated raw material. Next, water was added to this pretreated raw material so as to be 5% by weight to adjust the pH to 7
Adjusted to. As the enzyme, a culture supernatant of the above microorganism was used.
10% by weight based on the dry weight of straw against rice was added, and the mixture was kept at 50 ° C. and reacted for 72 hours while gently stirring. After the reaction,
The rice straw was taken out and dissociated with a pulper, and then sieved with a flat screen (manufactured by Kumagai Riki Kogyo Co., Ltd.) to obtain pulp.
【0025】それをPFIミル(熊谷理機工業(株)
製)を用いて、クリアランス0. 5mm、叩解圧1. 8
kgf/cm、パルプ濃度10%で、カナダ標準濾水度
(CSF)200mlまで叩解した後、JIS P82
09パルプ試験用手すき紙調製方法に従って手すき紙を
調製したところ良好な稲藁パルプ手すき紙が得られた。
JIS P8113とJIS P8116に従い、この
手すき紙の裂断長と比引裂き強さを求めた。結果を表1
に示す。PFI mill (Kumagaya Riki Kogyo Co., Ltd.)
Manufactured), clearance 0.5 mm, beating pressure 1.8
After beating to a Canadian standard freeness (CSF) of 200 ml at kgf / cm and a pulp concentration of 10%, JIS P82
When the handmade paper was prepared according to the method for preparing the handmade paper for 09 pulp test, good rice straw pulp handmade paper was obtained.
According to JIS P8113 and JIS P8116, the tear length and the specific tear strength of this handmade paper were obtained. The results are shown in Table 1.
Shown in
【0026】比較例1 実施例1におけるスクリーニング時に平板寒天培地上で
クリアゾーンを形成しなかった微生物(菌株D、菌株
E)を用いて実施例1と同様な操作を実施したところ、
表1に示すように稲藁をパルプ化はできなかった。 Comparative Example 1 The same operation as in Example 1 was carried out by using the microorganisms (strain D, strain E) which did not form a clear zone on the plate agar medium in the screening in Example 1,
As shown in Table 1, rice straw could not be pulped.
【0027】[0027]
【表1】 [Table 1]
【0028】実施例2 乾燥重量100gの稲藁を5cm長に裁断した後よく水
洗して表面に付着している不純物を除去して前処理済み
原料とした。次に、この前処理済み原料に5重量%とな
るように水を加え、pH5に調整した。酵素として市販
キシラナーゼ製剤(SIGMA社)を対稲藁乾燥重量当
り1重量%添加し、50℃に保持して、10日間静置し
て反応させた。反応後、稲藁を取り出しパルパーで十分
離解した後、フラットスクリーン(熊谷理機工業(株)
製)でふるい分けしてパルプを得た。 Example 2 Rice straw having a dry weight of 100 g was cut into a length of 5 cm and washed well with water to remove impurities adhering to the surface of the rice straw to obtain a pretreated raw material. Next, water was added to the pretreated raw material so as to be 5% by weight to adjust the pH to 5. A commercially available xylanase preparation (SIGMA) was added as an enzyme in an amount of 1% by weight based on the dry weight of rice straw, and the mixture was kept at 50 ° C. and allowed to stand for 10 days for reaction. After the reaction, the rice straw was taken out and separated by a pulper, and then flat screen (Kumagaya Riki Kogyo Co., Ltd.)
The product was screened to obtain pulp.
【0029】それを叩解にかけることなくJIS P8
209パルプ試験用手すき紙調製方法に従い手すき紙を
調製したところ良好な稲藁パルプ手すき紙が得られた。JIS P8 without beating it
When the handmade paper was prepared according to the method for preparing the handmade paper for the 209 pulp test, good rice straw pulp handmade paper was obtained.
【0030】比較例2 酵素処理することを除いて、実施例2と同様な操作を実
施したところ稲藁はパルパーで離解出来ずパルプ化はで
きなかった。 Comparative Example 2 When the same operation as in Example 2 was carried out except that the enzyme treatment was performed, rice straw could not be disintegrated with pulper and pulped.
【0031】実施例3 乾燥重量500gの麦藁を5cm長に裁断した後、10
重量%濃度NaOH水溶液16. 5lに浸漬して一昼夜
室温で保持した。その後、稲藁を取り出し、よく水洗し
てNaOHや溶出物や泥などの付着物を除去し、遠心脱
水して前処理済み原料とした。次に、この前処理済み原
料に3重量%となるように水を加え、pH6に調整し
た。市販ヘミセルラーゼ製剤(天野製薬社)を対稲藁乾
燥重量当り1重量%添加し、40℃に保持して、48時
間静かに撹はんしながら反応させた。反応後、稲藁を取
り出してパルパーで離解した後、フラットスクリーン
(熊谷理機工業(株)製)でふるい分けしてパルプを得
た。 Example 3 Straw having a dry weight of 500 g was cut into a length of 5 cm, and then 10
It was dipped in 16.5 l of an aqueous solution of NaOH with a concentration by weight of 1% and kept at room temperature for one day. After that, the rice straw was taken out, washed thoroughly with water to remove adhered substances such as NaOH, eluate and mud, and centrifugally dehydrated to obtain a pretreated raw material. Next, water was added to the pretreated raw material so as to be 3% by weight, and the pH was adjusted to 6. A commercially available hemicellulase preparation (Amano Pharmaceutical Co., Ltd.) was added in an amount of 1% by weight based on the dry weight of rice straw, and the mixture was kept at 40 ° C. and reacted for 48 hours while gently stirring. After the reaction, the rice straw was taken out, disintegrated with a pulper, and then sieved with a flat screen (manufactured by Kumagai Riki Kogyo Co., Ltd.) to obtain pulp.
【0032】それをナイアガラビーター(熊谷理機工業
(株)製)でカナダ標準濾水度で300mlまで叩解し
た後、JIS P8209パルプ試験用手すき紙調製方
法に従い、坪量125g/m2 になるように手すき紙を
調製したところ良好な麦藁紙が得られた。JIS P8
113及びJIS P8126に従って、得られた手す
き紙の裂断長と比圧縮強さを求めた。裂断長は10.
1、比圧縮強さは14.3であった。この値はJIS
P3904に示される段ボール用中しんの規定値を満た
している。After beating with a Niagara beater (manufactured by Kumagai Riki Kogyo Co., Ltd.) up to 300 ml at Canadian standard freeness, the basis weight was adjusted to 125 g / m 2 according to the method for preparing handsheets for JIS P8209 pulp test. When handmade paper was prepared, good straw paper was obtained. JIS P8
The tear length and specific compressive strength of the obtained handmade paper were obtained according to 113 and JIS P8126. Breaking length is 10.
1, the specific compressive strength was 14.3. This value is JIS
The specified value of corrugated cardboard shin shown in P3904 is satisfied.
【0033】比較例3 酵素処理することを除いて、実施例3と同様な操作を実
施したところ稲藁はパルパーで離解出来ずパルプ化はで
きなかった。 Comparative Example 3 When the same operation as in Example 3 was carried out except that the enzyme treatment was performed, rice straw could not be disintegrated with pulper and pulped.
【0034】実施例4 乾燥重量1000gの稲藁を1重量%濃度NaOH水溶
液33. 3lに0. 5時間浸漬した後、クリアランス1
mmの条件でディスクイファイナー(熊谷理機工業
(株)製)で軽く解繊した。その後、稲藁を取り出し、
よく水洗してNaOHや溶出物や泥などの付着物を除去
し、遠心脱水して前処理済み原料とした。次に、この前
処理済み原料に10重量%となるように水を加えてpH
5に調整した。酵素として市販キシラナーゼ製剤(SI
GMA社)を対稲藁乾燥重量当り0.05重量%添加し
てよくかき混ぜ、50℃で8時間静置して反応させた。
反応後、稲藁を取り出してパルパーで離解した後、フラ
ットスクリーン(熊谷理機工業(株)製)でふるい分け
してパルプを得た。 Example 4 Rice straw having a dry weight of 1000 g was immersed in 33.3 l of a 1 wt% NaOH aqueous solution for 0.5 hours, and then clearance 1 was applied.
It was lightly defibrated with a disc refiner (manufactured by Kumagai Riki Kogyo Co., Ltd.) under the condition of mm. After that, take out the rice straw,
It was washed well with water to remove NaOH, eluate and adhering matter such as mud, and centrifugally dehydrated to obtain a pretreated raw material. Next, water is added to the pretreated raw material so that the content of the pretreated raw material becomes 10 wt%,
Adjusted to 5. Commercially available xylanase preparation (SI
GMA) was added in an amount of 0.05% by weight based on the dry weight of rice straw, and the mixture was stirred well and allowed to stand at 50 ° C for 8 hours for reaction.
After the reaction, the rice straw was taken out, disintegrated with a pulper, and then sieved with a flat screen (manufactured by Kumagai Riki Kogyo Co., Ltd.) to obtain pulp.
【0035】それをナイアガラビーター(熊谷理機工業
(株)製)でカナダ標準濾水度(CSF)で200ml
まで叩解した後、JIS P8209パルプ試験用手す
き紙調製方法に従って手すき紙を調製したところ、良好
な稲藁パルプ手すき紙が得られた。JIS P8113
とJIS P8116に従い、この手すき紙の裂断長と
比引き裂き強さを求めたところ、それぞれ8. 5と9.
8であった。 比較例4 Niagara beater (Kumagaya Riki Kogyo)
200 ml with Canadian Standard Freeness (CSF)
After beating up to, JIS P8209 pulp test hand
When the handmade paper was prepared according to the paper making method, it was good.
A rice straw pulp handmade paper was obtained. JIS P8113
And according to JIS P8116, the tearing length of this handmade paper and
The specific tear strength was calculated to be 8.5 and 9.
It was 8. Comparative Example 4
【0036】酵素処理することを除いて、実施例4と同
様な操作を実施したところ稲藁をパルプ化はできなかっ
た。When the same operation as in Example 4 was carried out except that the enzyme treatment was performed, rice straw could not be pulped.
【0037】実施例5 実施例4で調製した稲藁パルプをPFIミル(熊谷理機
工業(株)製)を用いて、クリアランス0. 5mm、叩
解圧1. 8kgf/cm、パルプ濃度10%で叩解し、
カナダ標準濾水度(CSF)320mlの紙料を得た。 Example 5 Using the PFI mill (manufactured by Kumagai Riki Kogyo Co., Ltd.), the rice straw pulp prepared in Example 4 was subjected to a clearance of 0.5 mm, a beating pressure of 1.8 kgf / cm and a pulp concentration of 10%. Beat up,
A Canadian Standard Freeness (CSF) 320 ml stock was obtained.
【0038】市販広葉樹BKPをPFIミル(熊谷理機
工業(株)製)で上記と同条件にて叩解して得られたC
SF560mlの紙料を70に対して、上記稲藁パルプ
からの紙料を30の割合で混合して、JIS P820
9パルプ試験用手すき紙調製方法に従って手すき紙を調
製したところ、良好な稲藁パルプ手すき紙が得られた。
JIS P8113とJIS P8119に従い、この
手すき紙の裂断長と平滑度を求めたところ、それぞれ
4. 5と65であった。C obtained by beating commercially available hardwood BKP with a PFI mill (manufactured by Kumagai Riki Kogyo Co., Ltd.) under the same conditions as above.
SF 560 ml of stock material is mixed with 70 of rice straw pulp stock material in a ratio of 30 to obtain JIS P820.
9 When the handmade paper was prepared according to the method for preparing handmade paper for pulp test, good rice straw handmade paper was obtained.
According to JIS P8113 and JIS P8119, the breaking length and the smoothness of this handmade paper were determined to be 4.5 and 65, respectively.
【0039】比較例5 稲藁パルプからの紙料を配合しないで、市販広葉樹BK
Pからの紙料だけで実施例5に記載の方法で手すき紙を
作成し、裂断長と平滑度を求めたところそれぞれ4. 0
と40であった。 Comparative Example 5 Commercial hardwood BK without blending paper stock from rice straw pulp
A handsheet was prepared by the method described in Example 5 using only the paper material from P, and the breaking length and smoothness were determined to be 4.0.
And 40.
【0040】[0040]
【発明の効果】本発明によれば、従来の方法の欠点であ
った環境破壊につながる大量の廃液を出すことなく、今
まで有効に利用されてこなかった稲藁、麦藁、バガスな
どの農産廃棄物に代表される非木材資源から効率的にパ
ルプを製造できる。また、このようにして製造されたパ
ルプは定法に従って抄紙することで紙・板紙を造ること
ができ、また、木材パルプに配合して抄紙すると紙力強
度が高く地合のよい表面の平滑な紙・板紙を造ることが
できる。EFFECTS OF THE INVENTION According to the present invention, agricultural wastes such as rice straw, wheat straw, and bagasse that have not been effectively used until now without producing a large amount of waste liquid which leads to environmental damage, which is a drawback of the conventional method. Pulp can be efficiently produced from non-wood resources represented by products. The pulp thus produced can be made into paper or paperboard by papermaking according to a standard method, and when it is mixed with wood pulp to make paper, it has high paper strength and a well-textured surface.・ Can make paperboard.
Claims (7)
分解活性を有する酵素で処理することを特徴とするパル
プの製造方法。1. A method for producing pulp, which comprises treating a fiber source derived from a non-wood plant with an enzyme having a xylan-decomposing activity.
載のパルプの製造方法。2. The method for producing pulp according to claim 1, wherein the fiber source is agricultural waste.
1に記載のパルプの製造方法。3. The method for producing pulp according to claim 1, wherein the non-woody plant is a monocot.
藁、バガス、とうもろこし穂軸、綿実粕もしくは燕麦種
皮である請求項1に記載のパルプの製造方法。4. The method for producing pulp according to claim 1, wherein the fiber source derived from a non-wood plant is rice straw, wheat straw, bagasse, corn cob, cottonseed meal or oat seed coat.
得られたパルプを還元漂白及び/または酸化漂白するこ
とを特徴とするパルプの製造方法。5. After the processing according to claims 1 to 4,
A method for producing pulp, which comprises subjecting the obtained pulp to reduction bleaching and / or oxidative bleaching.
得られたパルプを漉くことを特徴とする紙・板紙の製造
方法。6. After the processing according to claims 1 to 5,
A method for producing paper / paperboard, which comprises filtering the obtained pulp.
得られたパルプに化学パルプを配合して漉くことを特徴
とする紙・板紙の製造方法。7. After the processing according to claims 1 to 5,
A method for producing paper / paperboard, which comprises blending the obtained pulp with chemical pulp and straining.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP14497694A JPH0813367A (en) | 1994-06-27 | 1994-06-27 | Production of pulp |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP14497694A JPH0813367A (en) | 1994-06-27 | 1994-06-27 | Production of pulp |
Publications (1)
Publication Number | Publication Date |
---|---|
JPH0813367A true JPH0813367A (en) | 1996-01-16 |
Family
ID=15374586
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP14497694A Pending JPH0813367A (en) | 1994-06-27 | 1994-06-27 | Production of pulp |
Country Status (1)
Country | Link |
---|---|
JP (1) | JPH0813367A (en) |
Cited By (10)
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WO2002025014A1 (en) * | 2000-09-18 | 2002-03-28 | Et Eitoku Corporation | Processed board-type products made of non-wooden fibers |
JP2004269351A (en) * | 2003-03-06 | 2004-09-30 | Yuen Foong Yu Paper Mfg Co Ltd | Nutrient liquid for plant and its preparing method |
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JP2022520891A (en) * | 2019-01-22 | 2022-04-01 | イーナ トレーディング アンパーツゼルスカブ | Preparation of cellulose fibers |
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1994
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Cited By (11)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2002025014A1 (en) * | 2000-09-18 | 2002-03-28 | Et Eitoku Corporation | Processed board-type products made of non-wooden fibers |
JP2004269351A (en) * | 2003-03-06 | 2004-09-30 | Yuen Foong Yu Paper Mfg Co Ltd | Nutrient liquid for plant and its preparing method |
CN100402275C (en) * | 2004-02-11 | 2008-07-16 | 徐华 | Degradable plant fiber packaging bag and preparation method thereof |
JP2008514824A (en) * | 2004-09-25 | 2008-05-08 | ▲力▼州摩▲維▼天然▲繊▼▲維▼材料有限公司 | How to remove rubber from jute |
JP4774404B2 (en) * | 2004-09-25 | 2011-09-14 | ▲力▼州摩▲維▼天然▲繊▼▲維▼材料有限公司 | How to remove rubber from jute |
CN100357504C (en) * | 2006-01-23 | 2007-12-26 | 青岛大学 | Preparation method of corn ear shell fiber for textile |
KR20160063348A (en) * | 2013-09-27 | 2016-06-03 | 킴벌리-클라크 월드와이드, 인크. | Tree-free fiber compositions and uses in containerboard packaging |
JP2019510892A (en) * | 2016-04-05 | 2019-04-18 | エスダブリュエム・ルクセンブルク・エスアーアールエル | Vegetable paper containing vegetable fiber |
JP2022520891A (en) * | 2019-01-22 | 2022-04-01 | イーナ トレーディング アンパーツゼルスカブ | Preparation of cellulose fibers |
CN109930413A (en) * | 2019-04-18 | 2019-06-25 | 丹东东方轻工机械有限公司 | Plant raw material biological environmental production pulping system |
CN114921999A (en) * | 2022-05-19 | 2022-08-19 | 陕西科技大学 | Method for preparing filling paper by adding OCC paper pulp into wheat straw and utilizing resources |
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