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JPH0462799B2 - - Google Patents
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JPH0462799B2 - - Google Patents

Info

Publication number
JPH0462799B2
JPH0462799B2 JP19517985A JP19517985A JPH0462799B2 JP H0462799 B2 JPH0462799 B2 JP H0462799B2 JP 19517985 A JP19517985 A JP 19517985A JP 19517985 A JP19517985 A JP 19517985A JP H0462799 B2 JPH0462799 B2 JP H0462799B2
Authority
JP
Japan
Prior art keywords
waste liquid
fermentation
gas
pulp
methane
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 - Lifetime
Application number
JP19517985A
Other languages
Japanese (ja)
Other versions
JPS6257696A (en
Inventor
Hisao Teraoka
Yoshiro Kishimoto
Jun Kuroda
Yoshishige Masu
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Kanadevia Corp
Original Assignee
Hitachi Shipbuilding and Engineering Co Ltd
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Hitachi Shipbuilding and Engineering Co Ltd filed Critical Hitachi Shipbuilding and Engineering Co Ltd
Priority to JP60195179A priority Critical patent/JPS6257696A/en
Publication of JPS6257696A publication Critical patent/JPS6257696A/en
Publication of JPH0462799B2 publication Critical patent/JPH0462799B2/ja
Granted legal-status Critical Current

Links

Classifications

    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E50/00Technologies for the production of fuel of non-fossil origin
    • Y02E50/30Fuel from waste, e.g. synthetic alcohol or diesel

Landscapes

  • Purification Treatments By Anaerobic Or Anaerobic And Aerobic Bacteria Or Animals (AREA)
  • Treatment Of Sludge (AREA)

Description

【発明の詳細な説明】 産業上の利用分野 この発明は、クラフトパルプ製造工程におい
て、蒸解釜から出るブロー蒸気のコンデンセート
や、使用済み蒸解液の回収に使用される濃縮装置
から出る蒸発蒸気のコンデンセートなどの廃液
(この明細書全体を通して、これら廃液をパルプ
コンデンセート廃液と総称する)をメタン発酵に
より処理する方法に関し、さらに詳しくは、同廃
液処理の前に予め同廃液をメタン発酵に適した性
状に調整しておく前処理方法に関するものであ
る。
[Detailed Description of the Invention] Industrial Application Field The present invention is used in the kraft pulp manufacturing process to condensate blown steam from a digester or condensate evaporated steam from a concentrator used to recover used cooking liquor. (Throughout this specification, these waste liquids are collectively referred to as pulp condensate waste liquid) by methane fermentation. This relates to a pretreatment method that must be adjusted.

従来技術およびその問題点 一般に、パルプコンデンセート廃液は、硫化水
素、メチルメルカプタン、ジメチル硫黄、ジメチ
ルジ硫黄などの多量の臭気成分(総硫黄分として
200〜4000ppm)を含み、かつメタノールを主成
分とする多量の有機成分(COD測定値として
2000〜12000ppm)を含む廃液であつて、パルプ
製造の全廃棄の10〜30%の割合を占める。したが
つて同廃液は有機汚濁物の発生源となつており、
その有効な処理方法が切望されている。
Prior art and its problems In general, pulp condensate waste liquid contains a large amount of odor components (as a total sulfur content) such as hydrogen sulfide, methyl mercaptan, dimethyl sulfur, and dimethyl disulfur.
200 to 4000 ppm) and a large amount of organic components (as COD measurement value) containing methanol as the main component.
2,000 to 12,000 ppm), which accounts for 10 to 30% of all pulp manufacturing waste. Therefore, the waste liquid is a source of organic pollutants.
An effective treatment method is desperately needed.

従来、パルプコンデンセート廃液は、その臭気
対策を主眼とし、スチームストリツピングやエア
ストリツピングなどで処理され、ストリツピング
された臭気成分は燃焼処理され、ストリツピング
残留液は活性汚泥法に付されて、その中の有機成
分が処理されていた。
Conventionally, pulp condensate waste liquid has been treated with steam stripping, air stripping, etc. with the focus on odor control, the stripped odor components are treated by combustion, and the stripping residual liquid is subjected to the activated sludge method. The organic components inside had been treated.

しかし、上記処理はいずれもストリツピング操
作であるため、高価な蒸気を消費し、またエアス
トリツピングにおいてエア供給用コンプレツサの
駆動電力を消費し、処理コストがはなはだ高くつ
くうらみがあつた。しかもこの処理方法では、上
記のように高い出費が必要であるにも拘らず、そ
れに見合う有用な副産物は何も得られなかつた。
However, since all of the above treatments involve stripping operations, expensive steam is consumed, and air stripping consumes driving power for the air supply compressor, resulting in extremely high treatment costs. Moreover, this treatment method did not yield any useful by-products commensurate with the high expense required.

そこで本発明者らは、パルプコンデンセート廃
液をメタン発酵により処理すれば、高価な蒸気や
電力を消費することなく、有用なメタンを生成す
ることができるという着想のもとに、種々検討を
重ねた。
Therefore, the present inventors conducted various studies based on the idea that if pulp condensate waste liquid was treated by methane fermentation, useful methane could be generated without consuming expensive steam or electricity. .

一般にパルプコンデンセート廃液は蒸解液蒸発
時の飛沫同伴に由来するアルカリ成分を含み、ま
た硫化水素などの硫黄化合物をアルカリ塩として
含むため、PH9.5〜10.5のアルカリ性を示す。ま
たこれらアルカリ成分ないしアルカリ塩や硫黄化
合物はメタン発酵に対し阻害成分として作用す
る。
In general, pulp condensate waste liquid contains alkaline components derived from droplets entrained during evaporation of cooking liquor, and also contains sulfur compounds such as hydrogen sulfide as alkali salts, so it exhibits alkalinity with a pH of 9.5 to 10.5. Furthermore, these alkaline components, alkali salts, and sulfur compounds act as inhibitory components for methane fermentation.

他方、メタン発酵はメタノールを資化するバク
テリアを用いて行なわれ、このバクテリアの好ま
しい発酵条件は、温度30〜40℃、PH5.2〜6.3であ
る。
On the other hand, methane fermentation is carried out using bacteria that utilize methanol, and the preferred fermentation conditions for this bacteria are a temperature of 30 to 40°C and a pH of 5.2 to 6.3.

したがつてパルプコンデンセート廃液を直接メ
タン発酵に付すことはできず、予めそのPH値をメ
タン発酵の至適範囲に調整し、かつ阻害成分を除
去しておく必要がある。
Therefore, pulp condensate waste liquid cannot be directly subjected to methane fermentation, and it is necessary to adjust its pH value to an optimal range for methane fermentation in advance and to remove inhibiting components.

ただしPH値の調整を中和剤の添加によつて行な
つたのでは処理コストの節減が果たせず、また酸
性廃液の添加によつた場合にはその含有物質がや
はり発酵の阻害成分として作用するうらみがあ
る。
However, if the pH value is adjusted by adding a neutralizing agent, it is not possible to reduce the processing cost, and if the pH value is adjusted by adding an acidic waste liquid, the substances contained therein act as inhibitors of fermentation. I'm jealous.

この発明は、上記のような実情に鑑みて創案せ
られ、コスト的に有利に実施できしかも有用な副
産物を効率よく生成することのできるパルプコン
デンセート廃液の処理方法を提供することを目的
とする。
The present invention was devised in view of the above-mentioned circumstances, and an object of the present invention is to provide a method for treating pulp condensate waste liquid that can be carried out cost-effectively and efficiently generate useful by-products.

問題点の解決手段 この発明は、パルプコンデンセート廃液をメタ
ン発酵により処理するに当り、処理前の廃液をま
ず二酸化炭素ないし煙道ガスのような二酸化炭素
含有ガスに直接接触させ、ついでメタン発酵によ
り生じた発酵ガスに直接接触させて、廃液をメタ
ン発酵に適した性状に調整する方法である。
Means for Solving the Problems This invention provides that, in treating pulp condensate waste liquid by methane fermentation, the waste liquid before treatment is first brought into direct contact with carbon dioxide or a carbon dioxide-containing gas such as flue gas, and then the waste liquid is brought into contact with carbon dioxide or a carbon dioxide-containing gas such as flue gas, This method adjusts the properties of waste liquid to be suitable for methane fermentation by bringing it into direct contact with fermentation gas.

すなわち、この発明は、アルカリ性のパルプコ
ンデンセート廃液の中和に発酵ガス中の二酸化炭
素を使用し、かつ同廃液中の発酵阻害成分の除去
に同ガス中のメタンを使用して、メタン発酵によ
るパルプコンデンセート廃液処理の前に、予め同
廃液をメタン発酵に適した性状に調整しておくも
のである。
That is, this invention uses carbon dioxide in the fermentation gas to neutralize alkaline pulp condensate waste liquid, and uses methane in the gas to remove fermentation-inhibiting components in the waste liquid, thereby producing pulp by methane fermentation. Before processing condensate waste liquid, the waste liquid is adjusted in advance to properties suitable for methane fermentation.

この発明は、パルプコンデンセート廃液のアル
カリ成分含有量が多い場合に、特に有効に実施さ
れる。
This invention is particularly effectively carried out when the content of alkaline components in the pulp condensate waste liquid is high.

メタン発酵は、上述のとおり、メタノールを資
化するバクテリアを用いて行なわれ、このバクテ
リアの好ましい発酵条件は、温度30〜40℃、PH
5.2〜6.3である。そしてメタン発酵により生じた
発酵ガスはメタンのほかに二酸化炭素を含む。
As mentioned above, methane fermentation is carried out using bacteria that assimilate methanol, and the preferred fermentation conditions for this bacteria are a temperature of 30 to 40°C, a pH of
It is 5.2-6.3. The fermentation gas produced by methane fermentation contains carbon dioxide in addition to methane.

この発明に前処理によつて、通常、廃液のPHは
4.5〜8.1の範囲に調整され、廃液中の硫黄化合物
の含有量は総硫黄分として350ppm以下に低減さ
れる。そして発酵の結果、パルプコンデンセート
廃液中の有機成分の85〜95%が発酵ガスに変換さ
れ、得られた発酵ガスは燃料として有効に利用さ
れる。
By pre-treatment in this invention, the pH of waste liquid is usually
The content of sulfur compounds in the waste liquid is adjusted to a range of 4.5 to 8.1, and the total sulfur content is reduced to 350 ppm or less. As a result of fermentation, 85 to 95% of the organic components in the pulp condensate waste liquid are converted into fermentation gas, and the obtained fermentation gas is effectively used as fuel.

発明の作用効果 この発明によれば、パルプコンデンセート廃液
をメタン発酵により処理するに当り、処理前の廃
液をまず二酸化炭素ないし煙道ガスのような二酸
化炭素含有ガスに直接接触させ、ついでメタン発
酵により生じた発酵ガスを処理前の廃液に直接接
触させるので、アルカリ性のパルプコンデンセー
ト廃液を二酸化炭素の吸収により中和し、かつ同
廃液中の発酵阻害成分を同ガス中のメタンによつ
て同ガス中に移行させることができる。したがつ
てこの発明によれば、パルプコンデンセート廃液
をそのメタン発酵による廃液処理の前に、予めメ
タン発酵に適した性状に調整しておくことがで
き、その結果上記廃液処理をコスト的に有利に実
施できる上に、燃料として有効利用できる副産物
すなわちメタンガス含有発酵ガスを効率よく生成
することができる。
Effects of the Invention According to the present invention, when treating pulp condensate waste liquid by methane fermentation, the waste liquid before treatment is first brought into direct contact with carbon dioxide or a carbon dioxide-containing gas such as flue gas, and then by methane fermentation. Since the generated fermentation gas is brought into direct contact with the waste liquid before treatment, the alkaline pulp condensate waste liquid is neutralized by absorption of carbon dioxide, and the fermentation-inhibiting components in the waste liquid are removed by the methane contained in the gas. can be moved to. Therefore, according to the present invention, the pulp condensate waste liquid can be adjusted in advance to properties suitable for methane fermentation before the waste liquid is treated by methane fermentation, and as a result, the waste liquid treatment can be made cost-effective. In addition to being practical, it is possible to efficiently produce a by-product, ie, methane gas-containing fermentation gas, which can be effectively used as a fuel.

実施例 以下、この発明の実施例について図面に基づい
て具体的に説明する。
Embodiments Hereinafter, embodiments of the present invention will be specifically described based on the drawings.

図面において、PH10を越えるパルプコンデンセ
ート廃液は、まずライン19によつて予備スクラ
バー20に導入されて、ここでライン21から来
る二酸化炭素、煙道ガスなどと直接接触される。
ついで廃液はライン22によつて廃液タンク23
に送られ、ここからポンプ24を有するライン1
によつてスクラバー2に送られ、ここでライン3
によつて導かれた発酵ガスと直接接触される。そ
の結果、同廃液は発酵ガス中の二酸化炭素を吸収
して中和され、そのPH値は6〜7になる。また同
廃液中の硫黄化合物は、発酵ガス中のメタンによ
り同ガス中に移行され、廃液から除去される。こ
うしてパルプコンデンセート廃液は発酵ガスによ
つて前処理される。
In the drawing, pulp condensate waste with a pH above 10 is first introduced by line 19 into a pre-scrubber 20 where it is directly contacted with carbon dioxide, flue gas, etc. coming from line 21.
The waste liquid is then transferred to a waste liquid tank 23 via a line 22.
and from there line 1 with pump 24
is sent to scrubber 2 by line 3.
directly in contact with the fermentation gas guided by the As a result, the waste liquid absorbs carbon dioxide in the fermentation gas and is neutralized, resulting in a pH value of 6 to 7. In addition, sulfur compounds in the waste liquid are transferred into the fermentation gas by methane and removed from the waste liquid. The pulp condensate waste liquid is thus pretreated with fermentation gas.

発酵ガスはスクラバー2において二酸化炭素を
除去されかつ硫黄化合物を吸収した後、スクラバ
ー2からライン15によつて冷却器4に送られ、
ここで同伴水蒸気が凝縮除去される。そして、生
じた凝縮水はライン5によつて前処理後の廃液に
加えられる。ついで発酵ガスは必要に応じて脱硫
処理された後、ボイラや焼却炉の燃料として有効
利用される。
After the fermentation gas has been stripped of carbon dioxide and absorbed sulfur compounds in the scrubber 2, it is sent from the scrubber 2 via a line 15 to the cooler 4;
Here, the entrained water vapor is condensed and removed. The resulting condensed water is then added via line 5 to the pretreated waste liquid. The fermentation gas is then desulfurized if necessary, and then effectively used as fuel for boilers and incinerators.

他方、前処理後のパルプコンデンセート廃液
は、ライン6によつてスクラバー2からシールタ
ンク7に送られ、さらにライン8によつて混合槽
10に送られる。同槽10にはライン11から窒
素、燐などの発酵に必要な栄養剤が添加され、さ
らに後述する発酵槽14からの戻り液がライン1
2によつて送られる。そして同槽10内の液全体
が撹拌器9によつて混合される。
On the other hand, the pretreated pulp condensate waste liquid is sent from the scrubber 2 to the seal tank 7 via line 6, and further sent to the mixing tank 10 via line 8. Nutrients necessary for fermentation such as nitrogen and phosphorus are added to the tank 10 from a line 11, and return liquid from a fermentation tank 14, which will be described later, is added to the line 11.
Sent by 2. Then, the entire liquid in the tank 10 is mixed by the stirrer 9.

混合液は混合槽10からポンプ13を有するラ
イン16によつて発酵槽14に送られ、所要発酵
条件下でメタン発酵に付される。この結果パルプ
コンデンセート廃液中の有機成分の90%がメタン
ガスに変換される。また前処理後もなお廃液中に
残存した硫黄化合物は、生成したメタンガスによ
つて発酵処理液からストリツピングせられる。し
たがつてライン17によつて発酵槽14から出た
処理液は、硫黄化合物に起因する臭気を全く感じ
させない。
The mixed liquid is sent from the mixing tank 10 by a line 16 with a pump 13 to a fermenter 14, where it is subjected to methane fermentation under the required fermentation conditions. As a result, 90% of the organic components in the pulp condensate waste liquid are converted to methane gas. Further, the sulfur compounds remaining in the waste liquid even after the pretreatment are stripped from the fermentation liquid by the generated methane gas. Therefore, the treated liquid discharged from the fermenter 14 through the line 17 has no odor caused by sulfur compounds.

発酵槽14で発生した発酵ガスはライン18に
よつてシールタンク7に送られ、ついで前述した
ようにライン3によつてスクラバー2に導かれ、
パルプコンデンセート廃液との直接接触に供され
る。
The fermentation gas generated in the fermenter 14 is sent to the seal tank 7 via line 18 and then guided to the scrubber 2 via line 3 as described above.
Subjected to direct contact with pulp condensate waste liquid.

この実施例ではスクラバー2と発酵槽14の間
に閉ループが構成されているので、同ループ内に
おいて炭酸ガスは条件によつて液中のCO3−−や
HCO3−のような陰イオンの形態と発酵ガス中の
ガス形態とをとり、常に一定量が循環するように
なされている。したがつてメタン発酵に大きく影
響するPH値、アルカリ度などの発酵条件を常に一
定に保持することが容易となり、装置の安定運転
がなされる。
In this embodiment, a closed loop is constructed between the scrubber 2 and the fermenter 14, so within the loop, carbon dioxide gas is converted to CO 3 -- or CO3 in the liquid depending on the conditions.
It takes the form of anions such as HCO 3 − and the form of gas in fermentation gas, and a constant amount is always circulated. Therefore, it becomes easy to maintain constant fermentation conditions such as pH value and alkalinity, which greatly affect methane fermentation, and stable operation of the device is achieved.

なお、この実施例では混合槽10と発酵槽14
の間に液循環ループが構成されているが、発酵槽
14から出た処理液を処理前のパルプコンデンセ
ート廃液と合流してスクラバー2に供給し、発酵
槽14とスクラバー2の間に液循環ループを構成
してもよい。
In addition, in this embodiment, the mixing tank 10 and the fermentation tank 14
A liquid circulation loop is formed between the fermenter 14 and the scrubber 2, where the treated liquid from the fermenter 14 is combined with the unprocessed pulp condensate waste liquid and supplied to the scrubber 2. may be configured.

【図面の簡単な説明】[Brief explanation of the drawing]

図面はこの発明の実施例を示すフローシートで
ある。
The drawing is a flow sheet showing an embodiment of the invention.

Claims (1)

【特許請求の範囲】[Claims] 1 パルプコンデンセート廃液をメタン発酵によ
り処理するに当り、処理前の廃液をまず二酸化炭
素ないし煙道ガスのような二酸化炭素含有ガスに
直接接触させ、ついでメタン発酵により生じた発
酵ガスに直接接触させて、廃液をメタン発酵に適
した性状に調整する方法。
1. When treating pulp condensate waste liquid by methane fermentation, the waste liquid before treatment is first brought into direct contact with carbon dioxide or a carbon dioxide-containing gas such as flue gas, and then brought into direct contact with fermentation gas generated by methane fermentation. , a method for adjusting waste liquid to properties suitable for methane fermentation.
JP60195179A 1985-09-03 1985-09-03 Treatment by methane fermentation of waste liquid of pulp condensate Granted JPS6257696A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP60195179A JPS6257696A (en) 1985-09-03 1985-09-03 Treatment by methane fermentation of waste liquid of pulp condensate

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP60195179A JPS6257696A (en) 1985-09-03 1985-09-03 Treatment by methane fermentation of waste liquid of pulp condensate

Publications (2)

Publication Number Publication Date
JPS6257696A JPS6257696A (en) 1987-03-13
JPH0462799B2 true JPH0462799B2 (en) 1992-10-07

Family

ID=16336762

Family Applications (1)

Application Number Title Priority Date Filing Date
JP60195179A Granted JPS6257696A (en) 1985-09-03 1985-09-03 Treatment by methane fermentation of waste liquid of pulp condensate

Country Status (1)

Country Link
JP (1) JPS6257696A (en)

Families Citing this family (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP5471748B2 (en) * 2010-04-09 2014-04-16 株式会社Ihi Anaerobic treatment facility and anaerobic treatment method
JP2014030827A (en) * 2013-11-21 2014-02-20 Ihi Corp Anaerobic treatment facility and anaerobic treatment method

Also Published As

Publication number Publication date
JPS6257696A (en) 1987-03-13

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