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JP2531482B2 - Waste liquid treatment device - Google Patents
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JP2531482B2 - Waste liquid treatment device - Google Patents

Waste liquid treatment device

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Publication number
JP2531482B2
JP2531482B2 JP5038940A JP3894093A JP2531482B2 JP 2531482 B2 JP2531482 B2 JP 2531482B2 JP 5038940 A JP5038940 A JP 5038940A JP 3894093 A JP3894093 A JP 3894093A JP 2531482 B2 JP2531482 B2 JP 2531482B2
Authority
JP
Japan
Prior art keywords
waste liquid
indirect heating
hearth
heating
heating means
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
JP5038940A
Other languages
Japanese (ja)
Other versions
JPH06249420A (en
Inventor
茂 山崎
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.)
OOSAKA NETSU KANRI KOGYO KK
Original Assignee
OOSAKA NETSU KANRI KOGYO KK
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 OOSAKA NETSU KANRI KOGYO KK filed Critical OOSAKA NETSU KANRI KOGYO KK
Priority to JP5038940A priority Critical patent/JP2531482B2/en
Publication of JPH06249420A publication Critical patent/JPH06249420A/en
Application granted granted Critical
Publication of JP2531482B2 publication Critical patent/JP2531482B2/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

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  • Heat Treatment Of Water, Waste Water Or Sewage (AREA)

Description

【発明の詳細な説明】Detailed Description of the Invention

【0001】[0001]

【産業上の利用分野】本発明は、各種産業の生産設備や
消費設備などから発生する廃液や廃棄物、あるいは水処
理装置で水処理された後に残留する廃液や含水率の高い
廃棄物の処理装置に関する。
FIELD OF THE INVENTION The present invention relates to the treatment of waste liquids and wastes generated from production facilities and consumption facilities of various industries, or waste liquids and wastes having a high water content remaining after water treatment by a water treatment device. Regarding the device.

【0002】[0002]

【従来の技術】90%以上の含水率の高い廃棄物や廃液
を処理する方法としては、大別して水処理によって行う
場合と、濃縮焼却して処理する方法がある。
2. Description of the Related Art Methods for treating wastes and waste liquids having a high water content of 90% or more are roughly classified into water treatment and concentrated incineration treatment.

【0003】前者の水処理方法では、有機質や特に溶剤
を含んだ廃水を水処理によって処理するには大きな設置
面積と設備を必要とするばかりでなく維持管理のための
ランニングコストが嵩み、且つ例え水処理を行っても最
終的には汚泥が発生し、これを焼却しなければならな
い。また水処理後の処理水も水質汚濁法の規制により規
制値以下に落とすことは非常に困難であり、これを外部
に放流することができないのが現状である。
In the former water treatment method, not only a large installation area and equipment are required to treat wastewater containing organic substances and especially solvents by water treatment, but also running costs for maintenance are high, and Even if water is treated, sludge will eventually be generated and must be incinerated. In addition, it is very difficult to reduce the treated water after the water treatment to the regulated value or less due to the regulation of the Water Pollution Law, and it is the current situation that this cannot be discharged to the outside.

【0004】また後者の濃縮焼却処理方法では、廃液ま
たは廃棄物を濃縮装置で水分を蒸発させて焼却可能な程
度まで乾燥させた上で焼却処理を行っているが、この場
合でも濃縮装置、乾燥焼却装置がそれぞれ別個に必要な
ため、大きな設置面積、設備費、人件費、あるいは維持
管理のためのランニングコストが嵩み、企業の廃液、廃
棄物処理に対する悩みは深刻なものがある。
In the latter method of concentrating incineration, the waste liquid or waste is incinerated after being dried to the extent that it can be incinerated by evaporating the water content in the concentrating device. Since each incinerator is required separately, a large installation area, equipment cost, labor cost, or running cost for maintenance and management increase, and there are serious worries about waste liquid and waste disposal by companies.

【0005】[0005]

【発明が解決しようとする課題】本発明は、上述の問題
点に鑑み、生産設備や消費設備あるいは水処理設備より
発生する廃液や含水率の高い廃棄物を単一の装置で焼却
処理することが可能な処理装置を提案することを目的と
する。
SUMMARY OF THE INVENTION In view of the above-mentioned problems, the present invention is to incinerate waste liquid or waste having a high water content generated from production equipment, consumption equipment or water treatment equipment by a single device. an object of the present invention is to propose a capable processing apparatus.

【0006】[0006]

【課題を解決するための手段】上記目的を達成するため
に、請求項1の発明に係る廃液処理装置にあっては、実
施例の参照符号を付して示すと、中空部7に加熱蒸気を
流通させる加熱用中空炉床5による間接加熱によって
液に含まれる水分を蒸発させて濃縮する間接加熱手段
と、この間接加熱手段によって蒸発され生成されたケ
ーキ状物と残留液とからなる濃縮物を焼却する焼却手段
とを上下に連続して一体的に設け、焼却手段4の焼却
室10に外部に通ずる連通路16,19を設け、この連
通路16,19に、上記間接加熱手段によって廃液を
濃縮する際に発生する廃棄蒸気上記焼却手段によっ
て濃縮物を焼却する際に発生する排熱ガスなどを脱臭す
るための高温加熱脱臭装置18と、この脱臭装置18
より脱臭された高温ガスを加熱蒸気に変換させる排熱ボ
イラー20とを介在させ、この排熱ボイラー20によっ
て発生した加熱蒸気を蒸気供給路22によって間接加熱
手段3の上記加熱用中空炉床5の中空部7にその熱源と
して供給すると共に、排熱ボイラー20からの排気ガス
を集塵機25に送給するように構成を採用するものであ
る。
In order to achieve the above-mentioned object, in the waste liquid treatment apparatus according to the invention of claim 1, the reference numeral of the embodiment is attached to the waste liquid treatment apparatus , and the hollow portion 7 is heated by steam. To
Indirect heating means 3 for evaporating and concentrating the water contained in the waste liquid by indirect heating by the heating hollow hearth 5 for circulation.
And an incineration means for incinerating a concentrate consisting of a cake-like material generated by evaporation by the indirect heating means 3 and a residual liquid.
4 and upper and lower are continuously and integrally provided, and the incineration means 4 is incinerated.
When the chamber 10 is provided with communication passages 16 and 19 communicating with the outside, waste vapors generated when the waste liquid is concentrated by the indirect heating means 3 and incinerating the concentrate by the incineration means 4 are provided in the communication passages 16 and 19. A high-temperature heating deodorizing device 18 for deodorizing exhaust heat gas and the like generated in the exhaust gas, and an exhaust heat boiler 20 for converting the high-temperature gas deodorized by the deodorizing device 18 into heating steam are intervened by the exhaust heat boiler 20 . The generated heating steam is indirectly heated by the steam supply path 22.
A structure is adopted so that the exhaust gas from the exhaust heat boiler 20 is supplied to the dust collector 25 while being supplied as a heat source to the hollow part 7 of the heating hollow hearth 5 of the means 3 .

【0011】また請求項2の発明に係る廃液処理装置に
あっては、前記間接加熱手段に接する廃液を連続的に
移送する移送手段13を間接加熱手段の伝熱面に接す
るようにして設けてなる請求項1に記載の構成を採用す
るものである。
[0011] In the waste liquid treatment apparatus according to the invention of claim 2, in the contact transfer means 13 for transferring the waste in contact with the indirect heating means 3 continuously to the heat transfer surface of the indirect heating means 3 The configuration according to claim 1 provided is adopted.

【0012】[0012]

【作用】請求項1の発明に係る廃液処理装置によれば、
廃液を間接加熱手段3により該廃液に含まれる水分を蒸
発させて濃縮することを特徴とする。廃液に直接的に焼
却用バーナーなどで加熱することも考えられるが、この
場合には熱損失が大きく、また排煙の発生率が大である
が、廃液を加熱管などの間接加熱手段によって加熱し、
これによって水分を蒸発させるようにすることによって
熱エネルギーを有効に利用することができると共に、排
煙の発生がなく公害の発生率が格段に少ない。またこの
間接加熱手段に連続して一体的に設けた焼却手段によっ
て、蒸発され生成されたケーキ状物と残留液とからなる
濃縮物を焼却し、焼却廃材として外部に取り出すように
したため、設置面積や設備を最小限に抑えることがで
き、またこれらの処理を連続一体的に行うことによって
維持管理が容易であり、ランニングコストも最小限に抑
えることが可能である。
According to the waste liquid treatment apparatus of the invention of claim 1,
It is characterized in that the waste liquid is concentrated by evaporating the water contained in the waste liquid by the indirect heating means 3. Although it is possible to heat the waste liquid directly with a burner for incineration, in this case, the heat loss is large and the smoke generation rate is high, but the waste liquid is heated by an indirect heating means such as a heating pipe. Then
As a result, the heat energy can be effectively utilized by evaporating the water content, and no smoke is emitted and the pollution rate is significantly low. In addition, the incineration means that is continuously provided integrally with the indirect heating means incinerates the concentrate consisting of the cake-like material that has been vaporized and generated and the residual liquid, and is taken out as incineration waste material. And equipment can be minimized, and maintenance and management can be facilitated by continuously performing these processes, and running costs can be minimized.

【0013】また、この廃液処理装置によれば、上記間
接加熱手段3によって廃液を濃縮する際に発生する廃棄
蒸気上記焼却手段4によって濃縮物を焼却する際に発
生する排熱ガスなどは、高温加熱脱臭装置18に吸引導
入されて、その高温加熱によりほとんど完全に脱臭され
る。脱臭された高温ガスは、排熱ボイラー20により加
熱蒸気に変換されて蒸気供給路22を通って上記間接加
熱手段3の加熱用中空炉床5の中空部7に供給され、
間接加熱手段3の熱源に利用される一方、排熱ボイラー
20からの排気ガスは、集塵機25に送給されて、清浄
ガスとして外部に放出される。従って、悪臭や排煙によ
る公害の発生を防止し、周辺環境の清浄化を確保できる
と共に、上記排熱ガスに含まれる腐食性ガス成分が間接
加熱手段を腐食損傷したり、焼却手段と間接加熱手段と
を連通する連通管を腐食損傷することがなく、長期間に
わたる安定使用が可能となる。
Further, according to the waste liquid treatment apparatus, such as a waste heat gas generated during the incineration of the concentrate by waste steam or the incineration unit 4 which occurs when concentrating waste by the indirect heating means 3, It is sucked into the high-temperature heating deodorizing device 18 and almost completely deodorized by the high-temperature heating. The deodorized high-temperature gas is converted into heating steam by the exhaust heat boiler 20 and passes through the steam supply path 22 to indirectly add the steam.
While being supplied to the hollow portion 7 of the heating hollow hearth 5 of the heating means 3 and used as a heat source of the indirect heating means 3, the exhaust gas from the exhaust heat boiler 20 is sent to the dust collector 25 for cleaning. It is released to the outside as gas. Therefore, it is possible to prevent pollution caused by foul odors and smoke, to ensure the cleanliness of the surrounding environment, and the corrosive gas components contained in the exhaust heat gas corrode and damage the indirect heating means or incinerate and indirect heating. The communication pipe communicating with the means can be stably used for a long period of time without being corroded and damaged.

【0017】また請求項2の発明に係る廃液処理装置に
あっては、前記間接加熱手段に接する廃液または廃棄物
を連続的に移送する移送手段を間接加熱手段の伝熱面に
接するようにして設けてなるため、その攪拌作用によっ
て効率的に水分を蒸発させることができると共に、移送
手段によって間接加熱手段の伝熱面を常に清掃して熱効
率の減退を防ぐことができる。
In the waste liquid treatment apparatus according to the second aspect of the present invention, the transfer means for continuously transferring the waste liquid or waste in contact with the indirect heating means is in contact with the heat transfer surface of the indirect heating means. Since it is provided, it is possible to efficiently evaporate the water by the stirring action, and it is possible to prevent the heat transfer surface of the indirect heating means from being constantly cleaned by the transfer means to prevent the heat efficiency from deteriorating.

【0018】[0018]

【実施例】図1は、本発明の一実施例を示し、多段廃液
処理炉とその系統図を示す。該図において、多段廃液処
理炉1を形成する竪形炉本体2の内部の略上半分には間
接加熱手段3が設けられ、略下半分には焼却手段4が設
けられている。
DESCRIPTION OF THE PREFERRED EMBODIMENTS FIG. 1 shows an embodiment of the present invention and shows a multistage waste liquid treatment furnace and its system diagram. In the figure, an indirect heating means 3 is provided in substantially the upper half of the interior of the vertical furnace body 2 forming the multistage waste liquid treatment furnace 1, and an incineration means 4 is provided in the substantially lower half thereof.

【0019】間接加熱手段3は、炉本体2の内壁に沿っ
て多段状に設けられた加熱用炉床5と各炉床上に形成さ
れる加熱室6とからなり、後述のように、各炉床5は、
内部に加熱蒸気を流通させるための多数の円環状の中空
部7を有している。
The indirect heating means 3 comprises a heating hearth 5 arranged in a multi-step manner along the inner wall of the furnace body 2 and heating chambers 6 formed on the respective hearths. Floor 5
It has a large number of annular hollow portions 7 for circulating the heating steam therein.

【0020】焼却手段4は、同じく炉本体2の内壁に沿
って多段状に設けられた焼却用炉床8と、各炉床間にあ
って、重油バーナーなどの焼却用バーナー9を設置した
焼却室10からなる。
The incineration means 4 includes an incinerator hearth 8 which is also provided in multiple stages along the inner wall of the furnace body 2 and an incinerator 10 in which an incinerator burner 9 such as a heavy oil burner is provided between the incinerator hearths 8. Consists of.

【0021】炉本体2の中心部には電動機11によって
回転駆動する中空状の回転軸12が縦設されており、該
回転軸12には加熱用及び焼却用の各炉床5,8に対応
して移送手段13が設けられる。この移送手段13は、
回転軸12から水平方向に突設された移送用アーム14
と、該アームに垂設されその下端部が炉床面に接する金
属チェンなど移送用紐状体15とからなる。従って、回
転軸12の回転に伴って移送用紐状体15は炉床面を摺
接しながら円運動を行うようになっている。
At the center of the furnace body 2, a hollow rotary shaft 12 is rotatably driven by an electric motor 11, and the rotary shaft 12 corresponds to the hearths 5 and 8 for heating and incineration. Then, the transfer means 13 is provided. This transfer means 13
A transfer arm 14 horizontally protruding from the rotary shaft 12.
And a transfer cord-shaped body 15 such as a metal chain which is vertically hung on the arm and whose lower end is in contact with the hearth surface. Therefore, with the rotation of the rotating shaft 12, the transfer string-like body 15 makes a circular motion while slidingly contacting the hearth surface.

【0022】焼却手段4の焼却室10は一次連通管16
によって、燃焼用バーナー17の設置されている脱臭炉
18に連通され、更に該脱臭炉18は二次連通管19に
よって排熱ボイラー20に連通されている。該排熱ボイ
ラー20の蒸気取り出し口21は更に蒸気供給管22に
よって炉本体2に設置している前記の各加熱用炉床5の
環状中空部7に連通され、一方、該排熱ボイラー20の
排気ガス取り出し口23は、図2に示すように排気管2
4によって集塵機25(例えば、マルチサイクロン)及
び吸引通風機26を介して排気筒27に連通されてい
る。従ってこれら一次および二次連通管16,19,蒸
気供給管22、排気管24及び排気筒27の連続した通
路によって前記焼却用炉床8,8間の各焼却室10には
これら連通管側への吸引作用が発揮されている。
The incineration chamber 10 of the incinerator 4 has a primary communication pipe 16
Is connected to a deodorizing furnace 18 in which a combustion burner 17 is installed, and the deodorizing furnace 18 is further connected to a waste heat boiler 20 by a secondary communication pipe 19. The steam outlet 21 of the exhaust heat boiler 20 is further connected by a steam supply pipe 22 to the annular hollow portion 7 of each of the heating hearths 5 installed in the furnace main body 2, while the exhaust heat boiler 20 of the exhaust heat boiler 20 is connected. As shown in FIG. 2, the exhaust gas outlet 23 is provided in the exhaust pipe 2
4 communicates with an exhaust pipe 27 via a dust collector 25 (for example, a multi cyclone) and a suction fan 26. Therefore, these primary and secondary communication pipes 16, 19 and steam
Due to the continuous passage of the air supply pipe 22, the exhaust pipe 24, and the exhaust pipe 27, the incineration chamber 10 between the incinerator hearths 8 and 8 exerts a suction action toward the communication pipes.

【0023】焼却手段4の焼却用炉床8は、内部を中空
部28とした二重構造になっており、押し込み通風機2
9からのエアーが一次エアー管30によって前記の各焼
却用炉床8の中空部28に強制的に導入され、このエア
ーの冷却作用によって焼却用炉床8の過熱を防止するよ
うになっており、この焼却用炉床8の中空部28を通過
して予熱されたエアーは、二次エアー管31によって焼
却室10に設置した焼却用バーナー9及び脱臭炉18に
設置した脱臭用バーナー17に燃焼用エアーとして導入
されると共に、回転軸12の中空部32にも導入される
ようになっている。
The incinerator hearth 8 of the incinerator 4 has a double structure with a hollow portion 28 inside, and the push-in fan 2
The air from 9 is forcibly introduced into the hollow portion 28 of each of the incinerator hearths 8 by the primary air pipe 30, and the cooling action of this air prevents overheating of the incinerator hearth 8. The air preheated after passing through the hollow portion 28 of the incinerator hearth 8 is burned by the secondary air pipe 31 to the incinerator burner 9 installed in the incinerator 10 and the deodorizing burner 17 installed in the deodorizing furnace 18. In addition to being introduced as air for use, it is also introduced into the hollow portion 32 of the rotary shaft 12.

【0024】上記焼却用バーナー9及び脱臭用、即ち燃
焼用バーナー17には焼却及び燃焼用の重油が重油導入
管33によって導入される。
Heavy oil for incineration and combustion is introduced into the burner 9 for incineration and the burner 17 for deodorization, that is, for combustion by a heavy oil introduction pipe 33.

【0025】なお、炉本体2の頂部には炉本体内に発生
した廃棄蒸気(ベーパー)を吸引作用の発揮している前
記一次連通管16に送り出すためのベーパー管34が設
けられている。
At the top of the furnace main body 2, there is provided a vapor pipe 34 for sending out waste vapor (vapor) generated in the furnace main body to the primary communication pipe 16 which exerts a suction action.

【0026】しかして、廃液ポンプ35により送液され
る廃液は廃液導入管36によって炉本体2の頂部より間
接加熱手段3の加熱室6に導入されるようになってい
る。
The waste liquid sent by the waste liquid pump 35 is introduced into the heating chamber 6 of the indirect heating means 3 from the top of the furnace body 2 by the waste liquid introducing pipe 36.

【0027】図3は、間接加熱手段3を形成する加熱用
炉床5の平面図であり、回転軸12から放射状に延びる
移送用アーム13の移送用紐状体14が加熱用炉床5の
炉床面に充分な接触面積を持って接触し、矢印方向に一
分間に0.4〜3回転の割合でゆっくりと回転するよう
になっており、これによって該炉床上の廃液を攪拌しな
がら落下口37に向かって移送するようになっている。
なお、この間接加熱手段3における加熱用炉床5は、前
述のように中空部7を有するため、表面が凹凸を呈して
おり、これがために単に一条の紐状体ではその先端部が
凹凸面の特に凸面に接触しにくいため、図示のように放
射状に延びる移送用アーム13に対して吊られる移送用
紐状体14を、隣接する紐状体の先端部どうしを互いに
連結して吊り環状に形成し、この吊り環状の移送用紐状
体14を周方向に交互に設けるようにすることが好まし
い。これによって、加熱用炉床5の凹凸面の凸部に吊り
環状の紐状体14が効率的に接触して該凸部も良好に清
掃することができる。
FIG. 3 is a plan view of the heating hearth 5 forming the indirect heating means 3, and the transfer cords 14 of the transfer arms 13 extending radially from the rotary shaft 12 of the heating hearth 5 are provided. It makes contact with the hearth surface with a sufficient contact area and rotates slowly in the direction of the arrow at a rate of 0.4 to 3 revolutions per minute, thereby stirring the waste liquid on the hearth. It is adapted to be transported toward the drop port 37.
Since the heating hearth 5 in the indirect heating means 3 has the hollow portion 7 as described above, the surface has unevenness. Therefore, in the case of only one string-like body, the tip end has an uneven surface. Since it is difficult to contact the convex surface of the cord, the transfer string 14 suspended from the transfer arm 13 extending radially as shown in FIG. It is preferable to form the suspension-shaped transfer string-like bodies 14 alternately in the circumferential direction. As a result, the hanging annular cord-shaped body 14 efficiently contacts the convex portion of the uneven surface of the heating hearth 5 and the convex portion can be cleaned well.

【0028】図4の(a)は、該加熱用炉床5の一部横
断面を示すもので、該炉床の内部には前述のように円環
状の中空部7が同心状に多重層に設けられ、その各円環
状の中空部7の一部は切欠されて前記落下口37を形成
し、その落下口37を挟んで各中空部7に連通する導入
管38と排出管39とが略径方向に設けられている。
FIG. 4 (a) shows a partial cross section of the heating hearth 5. Inside the hearth, an annular hollow portion 7 is concentrically provided in multiple layers as described above. A part of each annular hollow part 7 is cut out to form the drop port 37, and an introduction pipe 38 and a discharge pipe 39 that communicate with each hollow part 7 with the drop port 37 interposed therebetween are provided. It is provided in a substantially radial direction.

【0029】図4の(b)は、上記落下口37を挟んだ
断面を示すもので、各加熱用炉床5の上面において前記
導入管38に沿った部分と、前記排出管39に沿った部
分と、炉床5の中心側の部分、即ち回転軸12側の端縁
とにはそれぞれ堰壁40,41,42が設けられ、その
うち排出管39に沿う堰壁41の高さは他の堰壁40,
42よりも若干低く形成され、これによって炉床5上に
滞留する廃液が導入管38側の炉床5上面から矢印のよ
うに排出管39側上面に移送され、落下口37から廃液
が落下するようにしてある。
FIG. 4B shows a cross section sandwiching the drop port 37. The upper surface of each heating hearth 5 extends along the inlet pipe 38 and the discharge pipe 39. Weir walls 40, 41, and 42 are provided in the portion and the portion on the center side of the hearth 5, that is, the end on the rotating shaft 12 side, of which the height of the weir wall 41 along the discharge pipe 39 is different. Weir wall 40,
It is formed slightly lower than 42, whereby the waste liquid staying on the hearth 5 is transferred from the upper surface of the hearth 5 on the inlet pipe 38 side to the upper surface on the discharge pipe 39 side as shown by the arrow, and the waste liquid falls from the drop port 37. Is done.

【0030】図5は、焼却手段4を形成する焼却用炉床
8上の焼却室10の断面を示し、前記間接加熱手段3と
同じように回転軸12から放射状に延びる移送用アーム
14と移送用紐状体15が焼却用炉床8の炉床面に充分
な接触面積を持って接触し、矢印方向にゆっくりと回転
するようになっており、これによって該炉床上の濃縮物
あるいは焼却物を攪拌しながら落下口43に向かって移
送するようになっている。
FIG. 5 shows a cross section of an incineration chamber 10 on the incinerator hearth 8 forming the incineration means 4, and is similar to the indirect heating means 3 in that the transfer arm 14 and the transfer arm 14 extending radially from the rotary shaft 12 are transferred. The cord-like body 15 comes into contact with the hearth surface of the incinerator hearth 8 with a sufficient contact area and rotates slowly in the direction of the arrow, whereby the concentrate or incinerator on the hearth can be rotated. Is agitated and transferred to the drop port 43.

【0031】該炉床8の中心側,即ち回転軸12側と落
下口43の近くにもそれそれ堰壁44,45が設けら
れ、該炉床8上に落下した濃縮物が該炉床8の回転軸側
端縁と回転軸12との間から、あるいは直ちに落下口4
3から下方に落下しないようにしている。焼却室10の
側壁には焼却用重油バーナー9のノズル46が設けら
れ、且つ該焼却室10内の排熱ガスを前記一次連通路1
6に導出するための導出口47が設けられている。
Weir walls 44 and 45 are provided near the center side of the hearth 8, that is, near the rotating shaft 12 side and the dropping port 43, so that the concentrate dropped on the hearth 8 is contained in the hearth 8. Between the rotary shaft side edge of the rotary shaft 12 and the rotary shaft 12 or immediately.
I'm trying not to fall down from 3. A nozzle 46 of the heavy oil burner 9 for incineration is provided on the side wall of the incinerator 10, and the exhaust heat gas in the incinerator 10 is transferred to the primary communication passage 1
A lead-out port 47 is provided for leading out to 6.

【0032】なお図1において、前述のように回転軸1
2の下端部から中空部32に導入されるエアーは、焼却
手段4の各焼却用炉床8に対抗して設けた移送手段13
の移送用アーム14の中空部48からこれに設けた多数
のノズル49から炉床面に向けて放出されるようになっ
ており、これによって焼却作用を一層助長するようにな
っている(図5参照)。
In FIG. 1, as described above, the rotary shaft 1
The air introduced into the hollow portion 32 from the lower end of 2 is the transfer means 13 provided so as to oppose each incinerator hearth 8 of the incinerator 4.
The air is discharged from the hollow portion 48 of the transfer arm 14 toward the hearth surface from a large number of nozzles 49 provided therein (FIG. 5). reference).

【0033】また回転軸12の下端部にはその回りに水
封手段50,51を設けて、炉本体2内の圧力が外部に
漏出しないように配慮されている。
Further, water sealing means 50 and 51 are provided around the lower end of the rotary shaft 12 so as to prevent the pressure in the furnace body 2 from leaking to the outside.

【0034】しかして廃液ポンプ35により多段廃液処
理炉1の頂部より炉本体2内の間接加熱手段3の加熱室
6に廃液が導入され、該廃液は、該手段3の加熱用炉床
5上において移送手段13によって図3に示すように回
転軸12回りに順次攪拌移送され、その移送途上におい
て加熱室6で間接加熱され、その落下口37より下段の
加熱用炉床5上に落下され、該炉床5上で同様に攪拌移
送され、その移送途上で該廃液に含まれた水分は蒸発し
て濃縮され、これによって生成されたケーキ状物と濃縮
液とからなる濃縮物は落下口37から間接加熱手段3に
連続して一体的に設けられた焼却手段4の焼却用炉床8
上に落下され、該炉床8上に落下した濃縮物は、同じく
移送手段13によって攪拌されながら同様に回転軸12
回りに移送され、その移送途上において焼却室10で焼
却用バーナー9の直火焔により濃縮物が焼却され、更に
上段の焼却用炉床8の落下口43より下段の炉床8上に
落下され、ここの焼却室10でより完全に焼却される。
焼却された焼却物は、取出し口52より最下端部に設置
した貯留タンク53に送り出される。
Then, the waste liquid is introduced into the heating chamber 6 of the indirect heating means 3 in the furnace body 2 from the top of the multi-stage waste liquid treatment furnace 1 by the waste liquid pump 35, and the waste liquid is placed on the heating hearth 5 of the means 3. 3 is sequentially agitated and transferred around the rotary shaft 12 by the transfer means 13 as shown in FIG. 3, and is indirectly heated in the heating chamber 6 during the transfer, and is dropped from the dropping port 37 onto the heating hearth 5 at the lower stage, Similarly, the mixture is stirred and transferred on the hearth 5, and the water contained in the waste liquid is evaporated and concentrated on the way of the transfer, and the concentrate formed of the cake and the concentrate is dropped through the drop port 37. Incinerator hearth 8 of incineration means 4 which is continuously provided integrally with indirect heating means 3 from
The concentrate, which has been dropped onto the hearth 8 and has been dropped onto the hearth 8, is similarly stirred by the transfer means 13 and is similarly rotated by the rotary shaft 12.
The concentrate is incinerated by direct flame burning of the incinerator burner 9 in the incineration chamber 10 during the transfer, and is further dropped onto the lower hearth 8 from the drop port 43 of the upper incinerator hearth 8. It is incinerated more completely in the incinerator room 10 here.
The incinerated material that has been incinerated is sent out from the outlet 52 to the storage tank 53 installed at the lowermost end.

【0035】上述のように廃液または濃縮物あるいは焼
却物が加熱用炉床5または焼却用炉床8上を移送される
際に、移送手段13による攪拌作用によって効率良く濃
縮あるいは焼却処理を行うことができると共に、移送手
段13が回転軸12によって上記炉床5,8上を接触し
ながら円周方向に回転されることによって、該移送手段
13が炉床5,8の各上面を清掃して熱効率の減退を防
ぐことができる。
As described above, when the waste liquid, the concentrate, or the incineration product is transferred on the heating hearth 5 or the incinerator hearth 8, the transfer means 13 efficiently performs the concentration or incineration process by the stirring action. In addition, the transfer means 13 is rotated in the circumferential direction while being in contact with the above-mentioned hearths 5, 8 by the rotating shaft 12, so that the transfer means 13 cleans the respective upper surfaces of the hearths 5, 8. It is possible to prevent a decrease in thermal efficiency.

【0036】焼却手段4の焼却室10で発生した排熱ガ
ス、廃液の濃縮により発生した廃棄蒸気(ベーパー)並
びに焼却によって生じた有機質の有毒異臭ガスは、図5
に示す導出口47より一次連通路16を通って脱臭炉1
8に吸引導入され、ここで重油バーナー17により70
0〜900度に昇温されて、これらの排熱ガスなどは炉
内の滞留時間1〜2秒の間に脱臭される。脱臭された高
温の排熱ガスは二次連通路19を通って排熱ボイラ20
に導入され、該排熱ボイラー20に導入された排熱ガス
は熱交換され、これにより生成された170°〜180
°の加熱蒸気は該排熱ボイラー20の蒸気取り出し口2
1より三次連通管22を通って炉本体2に設置している
前記の各加熱用炉床5の環状中空部7に連通され、間接
加熱手段3の加熱源として利用される。即ち加熱用炉床
5の環状中空部7に導入された加熱蒸気は環状中空部7
を通過する途上で加熱蒸気は該加熱用炉床5に接する廃
液と熱交換され、これにより熱交換の終わって低温とな
った蒸気は、図1に示すようにドレン管54により所要
場所に排出される。一方前記排熱ボイラー20で熱交換
の終わった排気ガスは200〜250度に降温されて排
熱ボイラー20の排気ガス取り出し口23から排気管2
4によって集塵機25(例えば、マルチサイクロン)及
び吸引通風機26を介して排気筒27に連通され清浄ガ
スとして外部に放出される。
The exhaust heat gas generated in the incineration chamber 10 of the incineration means 4, the waste steam (vapor) generated by the concentration of the waste liquid, and the organic poisonous off-flavor gas generated by the incineration are shown in FIG.
From the outlet 47 shown in FIG.
8 is introduced by suction into the heavy oil burner 17
When the temperature is raised to 0 to 900 degrees, these exhaust heat gases and the like are deodorized during the residence time in the furnace of 1 to 2 seconds. The deodorized high temperature exhaust heat gas passes through the secondary communication passage 19 and the exhaust heat boiler 20.
The exhaust heat gas introduced into the exhaust heat boiler 20 is heat-exchanged, and 170 ° to 180 ° generated thereby.
The heating steam of ° is the steam outlet 2 of the exhaust heat boiler 20.
1 through the tertiary communication pipe 22 to communicate with the annular hollow portion 7 of each of the heating hearths 5 installed in the furnace body 2 and used as a heating source of the indirect heating means 3. That is, the heating steam introduced into the annular hollow portion 7 of the heating hearth 5 is
The heated steam is heat-exchanged with the waste liquid in contact with the heating hearth 5 on the way of passing through, and the steam having a low temperature after the heat exchange is discharged to a required place by a drain pipe 54 as shown in FIG. To be done. On the other hand, the exhaust gas that has undergone heat exchange in the exhaust heat boiler 20 is cooled to 200 to 250 degrees, and is exhausted from the exhaust gas outlet 23 of the exhaust heat boiler 20 to the exhaust pipe 2.
4 communicates with the exhaust pipe 27 via the dust collector 25 (for example, a multi-cyclone) and the suction fan 26, and is discharged to the outside as clean gas.

【0037】また前記間接加熱手段3で、廃液に含まれ
る水分は蒸発してその大半は、前記焼却手段4の吸引作
用によって該間接加熱手段3からこれに一体的に連続す
る焼却手段4の焼却室10に吸引されるが、蒸発して生
成される一部の廃棄蒸気(ベーパー)は炉本体2の頂部
よりベーパー管34を通って前記一次連通路16に導入
され、前述の工程を経るようになっている。
In the indirect heating means 3, the water contained in the waste liquid evaporates, and most of the water is incinerated in the incineration means 4 continuous with the indirect heating means 3 by the suction action of the incineration means 4. A part of the waste vapor (vapor) that is sucked into the chamber 10 but is generated by evaporation is introduced from the top of the furnace main body 2 into the primary communication passage 16 through the vapor pipe 34, and the above-described steps are performed. It has become.

【0038】[0038]

【発明の効果】請求項1の発明に係る廃液処理装置によ
れば、廃液を間接加熱手段により該廃液に含まれる水分
を蒸発させて濃縮するようにしたため、熱エネルギーを
有効に利用することができると共に、排煙の発生がなく
公害の発生率が格段に少ない処理を行うことができる。
According to the waste liquid treatment apparatus of the first aspect of the present invention, since the waste liquid is concentrated by evaporating the water contained in the waste liquid by the indirect heating means, the heat energy can be effectively utilized. In addition, it is possible to perform a process in which no smoke is emitted and the pollution rate is significantly low.

【0039】またこの発明によれば、間接加熱手段に連
続して一体的に設けた間接加熱手段によって、蒸発され
生成されたケーキ状物と残留液とからなる濃縮物を焼却
し、焼却材として外部に取り出すようにしたため、設置
面積や設備を最小限に抑えることができ、またこれらの
処理を連続一体的に行うことによって、維持管理が容易
であり、ランニングコストも最小限に抑えることが可能
である。
According to the invention, the indirect heating means continuously provided integrally with the indirect heating means incinerates the concentrate consisting of the cake-like substance evaporated and produced and the residual liquid, and uses it as an incineration material. Since it is taken out to the outside, the installation area and equipment can be minimized, and by continuously performing these treatments, maintenance can be facilitated and running costs can be minimized. Is.

【0040】さらにこの発明によれば、間接加熱手段に
よる廃液の濃縮の際に発生する廃棄蒸気焼却手段によ
る濃縮物の焼却の際に発生する排熱ガスなどは、高温加
熱脱臭装置によりほとんど完全に脱臭でき、しかもこの
脱臭された高温ガスは、排熱ボイラーにより加熱蒸気に
変換して間接加熱手段の熱源として利用する一方、排熱
ボイラーからの排気ガスを集塵機により清浄化して外部
に放出できるため、悪臭や排煙による公害の発生を防止
し、周辺環境の清浄化を確保できると共に、熱エネルギ
ーの有効利用を図ることができ、さらに上記排熱ガスに
含まれる腐食性ガス成分が間接加熱手段を腐食損傷した
り、焼却手段と間接加熱手段とを連通する連通管を腐食
損傷することがなく、長期間にわたって安定して使用す
ることができる。
Further, according to the present invention, the waste steam generated when the waste liquid is concentrated by the indirect heating means and the exhaust heat gas generated when the concentrate is incinerated by the incineration means are almost completely removed by the high-temperature heating deodorizing device. The deodorized high-temperature gas can be converted into heating steam by the exhaust heat boiler and used as a heat source for the indirect heating means, while the exhaust gas from the exhaust heat boiler can be cleaned by the dust collector and released to the outside. Therefore, it is possible to prevent pollution caused by foul odors and smoke, ensure the cleanliness of the surrounding environment, and effectively utilize heat energy. Furthermore, the corrosive gas components contained in the exhaust heat gas are indirectly heated. The means can be stably used for a long period of time without corrosive damage to the means or the communication pipe connecting the incineration means and the indirect heating means.

【0046】また請求項2の発明に係る廃液処理装置に
あっては、前記間接加熱手段に接する廃液または廃棄物
を連続的に移送する移送手段を間接加熱手段の伝熱面に
接するようにして設けてなるため、その攪拌作用によっ
て効率的に水分を蒸発させることができると共に、移送
手段によって間接加熱手段の伝熱面を常に清掃して熱効
率の減退を防ぐことができる。
In the waste liquid treatment apparatus according to the second aspect of the present invention, the transfer means for continuously transferring the waste liquid or waste in contact with the indirect heating means is in contact with the heat transfer surface of the indirect heating means. Since it is provided, it is possible to efficiently evaporate the water by the stirring action, and it is possible to prevent the heat transfer surface of the indirect heating means from being constantly cleaned by the transfer means to prevent the heat efficiency from deteriorating.

【図面の簡単な説明】[Brief description of drawings]

【図1】本発明に係る廃液処理装置の一実施例を示す全
体図とその系統図である。
FIG. 1 is an overall view and a system diagram showing an embodiment of a waste liquid treatment apparatus according to the present invention.

【図2】同後半部分の系統図である。FIG. 2 is a system diagram of the latter half of the same.

【図3】同要部の間接過熱手段の加熱用炉床の平面図で
ある。
FIG. 3 is a plan view of a heating hearth of the indirect heating means of the main part.

【図4】図4の(a)は、同加熱用炉床のの内部構造を
一部切欠して示す一部欠切平面図である。図4の(b)
は、同加熱用炉床の要部縦断面図である。
FIG. 4 (a) is a partially cutaway plan view showing a partially cutaway internal structure of the heating hearth. FIG. 4B
[Fig. 3] is a longitudinal sectional view of an essential part of the heating hearth.

【図5】同要部の焼却手段の焼却用炉床と焼却室との横
断平面図である。
FIG. 5 is a cross-sectional plan view of the incinerator hearth and the incinerator of the incineration means of the main part.

【符号の説明】[Explanation of symbols]

1 多段廃液処理炉 2 炉本体 3 間接加熱手段 4 焼却手段 5 加熱用炉床 6 加熱室 7 加熱用炉床の中空部 8 焼却用炉床 9 焼却用バーナー 10 焼却室 12 回転軸 13 移送手段 14 移送用アーム 15 移送用紐状体 16 一次連通管 18 脱臭炉 20 排熱ボイラー 1 multi-stage waste liquid treatment furnace 2 furnace body 3 indirect heating means 4 incineration means 5 heating hearth 6 heating chamber 7 hollow part of heating hearth 8 incineration hearth 9 incinerator 10 incinerator 12 rotating shaft 13 transfer means 14 Transfer arm 15 Transfer string 16 Primary communication pipe 18 Deodorizing furnace 20 Exhaust heat boiler

Claims (2)

(57)【特許請求の範囲】(57) [Claims] 【請求項1】中空部に加熱蒸気を流通させる加熱用中空
炉床による間接加熱によって廃液に含まれる水分を蒸発
させて濃縮する間接加熱手段と、この間接加熱手段によ
って蒸発され生成されたケーキ状物と残留液とからなる
濃縮物を焼却する焼却手段とを上下に連続して一体的に
設け、焼却手段の焼却室に外部に通ずる連通路を設け、
この連通路に、上記間接加熱手段によって廃液を濃縮す
る際に発生する廃棄蒸気上記焼却手段によって濃縮物
を焼却する際に発生する排熱ガスなどを脱臭するための
高温加熱脱臭装置と、この脱臭装置により脱臭された高
温ガスを加熱蒸気に変換させる排熱ボイラーとを介在さ
せ、この排熱ボイラーによって発生した加熱蒸気を蒸気
供給路によって間接加熱手段の上記加熱用中空炉床の中
空部にその熱源として供給すると共に、排熱ボイラーか
らの排気ガスを集塵機に送給するように構成してなる廃
液処理装置。
1. A heating hollow for allowing heated steam to flow through the hollow portion.
An indirect heating means for evaporating and concentrating the water contained in the waste liquid by indirect heating by the hearth , and an incineration means for incinerating the concentrate consisting of the cake-like material evaporated by the indirect heating means and the residual liquid. The upper and lower parts are continuously and integrally provided, and a communication passage communicating with the outside is provided in the incinerator of the incinerator .
In this communication passage, a high-temperature heating deodorizing device for deodorizing waste steam generated when the waste liquid is concentrated by the indirect heating means and exhaust heat gas generated when the concentrate is incinerated by the incineration means, An exhaust heat boiler that converts high-temperature gas deodorized by the deodorizing device into heating steam is interposed, and the heating steam generated by this exhaust heat boiler is steamed.
Inside the hollow hearth for heating of the indirect heating means by the supply path
A waste liquid treatment device configured to supply the exhaust gas from the exhaust heat boiler to the dust collector while supplying it to the empty space as its heat source.
【請求項2】前記間接加熱手段に接する廃液を連続的に
移送する移送手段を間接加熱手段の伝熱面に接するよう
にして設けてなる請求項1に記載の廃液処理装置。
2. The waste liquid treatment apparatus according to claim 1, wherein transfer means for continuously transferring the waste liquid in contact with the indirect heating means is provided so as to be in contact with the heat transfer surface of the indirect heating means.
JP5038940A 1993-02-26 1993-02-26 Waste liquid treatment device Expired - Lifetime JP2531482B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP5038940A JP2531482B2 (en) 1993-02-26 1993-02-26 Waste liquid treatment device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP5038940A JP2531482B2 (en) 1993-02-26 1993-02-26 Waste liquid treatment device

Publications (2)

Publication Number Publication Date
JPH06249420A JPH06249420A (en) 1994-09-06
JP2531482B2 true JP2531482B2 (en) 1996-09-04

Family

ID=12539230

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Application Number Title Priority Date Filing Date
JP5038940A Expired - Lifetime JP2531482B2 (en) 1993-02-26 1993-02-26 Waste liquid treatment device

Country Status (1)

Country Link
JP (1) JP2531482B2 (en)

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JPS5142435A (en) * 1974-10-09 1976-04-10 Nippon Telegraph & Telephone
JPS5315316A (en) * 1976-07-29 1978-02-13 Nissan Chem Ind Ltd Preparation of itaconic acid and citraconic acid

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