JP2010077191A - Method for converting water-containing organic waste into fuel and biomass fuel - Google Patents

Method for converting water-containing organic waste into fuel and biomass fuel Download PDF

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JP2010077191A
JP2010077191A JP2008244184A JP2008244184A JP2010077191A JP 2010077191 A JP2010077191 A JP 2010077191A JP 2008244184 A JP2008244184 A JP 2008244184A JP 2008244184 A JP2008244184 A JP 2008244184A JP 2010077191 A JP2010077191 A JP 2010077191A
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organic waste
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JP5633102B2 (en
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Kanehiro Saito
兼広 斉藤
Mikio Hayashi
幹夫 林
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Sumitomo Osaka Cement Co Ltd
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    • 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
    • Y02E50/10Biofuels, e.g. bio-diesel
    • 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
    • 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
    • Y02WCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO WASTEWATER TREATMENT OR WASTE MANAGEMENT
    • Y02W10/00Technologies for wastewater treatment
    • Y02W10/20Sludge processing
    • 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
    • Y02WCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO WASTEWATER TREATMENT OR WASTE MANAGEMENT
    • Y02W10/00Technologies for wastewater treatment
    • Y02W10/30Wastewater or sewage treatment systems using renewable energies
    • Y02W10/37Wastewater or sewage treatment systems using renewable energies using solar energy

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Abstract

<P>PROBLEM TO BE SOLVED: To provide a method for converting organic waste with high water content into a fuel, provided that the organic fuel contains livestock excrement such as swine feces and cattle feces and has water content of ≤85 mass%, and a biomass fuel. <P>SOLUTION: The method for converting the water-containing organic waste into a fuel includes the steps of: dehydrating the water-containing organic waste containing highly fibrous livestock excrement such as cattle feces which is discharged from an emission source 1, or a slurry or rinsing water containing the water-containing organic waste by desalination equipment 2 so as to obtain dechlorinated organic waste with chlorine concentration of ≤4,000 ppm and water content of ≤90 mass%; drying or heat-drying the dechlorinated organic waste and/or adding fibrous moisture-adjusting material to the dechlorinated organic waste in moisture-adjustment equipment 21 so as to obtain dechlorinated organic waste having water content of ≤85 mass%; and introducing the dechlorinated organic waste into a fermentation tank 22 and subjecting the same to fermentation in an open state to obtain dry dechlorinated organic waste having chlorine concentration of ≤4,000 ppm and water content of ≤35 mass%. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

本発明は、含水有機廃棄物の燃料化方法及びバイオマス燃料に関し、更に詳しくは、豚糞、牛糞等の家畜***物を含有する含水有機廃棄物を脱塩、発酵させることによりバイオマス燃料としての利用が可能な含水有機廃棄物の燃料化方法、及び、この家畜***物を脱塩し発酵してなるバイオマス燃料に関するものである。   The present invention relates to a method for fuelizing hydrous organic waste and biomass fuel, and more particularly, utilization as biomass fuel by desalting and fermenting hydrous organic waste containing livestock excrement such as swine dung and cow dung. The present invention relates to a method for converting a water-containing organic waste into a fuel, and a biomass fuel obtained by desalting and fermenting the livestock waste.

従来、豚糞、牛糞等の畜糞尿を含む家畜***物は、そのままの状態もしくは発酵させた状態で肥料として利用するのが一般的であり、場合によっては、これらの家畜***物を焼却することにより減容化され、その焼却灰が肥料として利用されることもある。
この家畜***物は、含水率が35質量%以下の低含水率状態では高位の発熱量を有するものの、総体的にはエネルギーとしての利用は進んでいない。
従来における家畜***物をエネルギー利用した例としては、鶏糞をバイオマス発電設備やバイオマスボイラー等の燃料として用いる例、牛糞や豚糞を発酵させた発酵品を固形燃料として用いる例、牛糞や豚糞を発酵させてメタンガス等のバイオガスを発生させ、このバイオガスを燃料として用いる例等がある。 Conventionally, livestock excrement including livestock excrement such as pig excrement and cattle excrement is generally used as fertilizer as it is or after being fermented. In some cases, incinerate these livestock excrement. The incinerated ash may be used as fertilizer.
Although this livestock excretion has a high calorific value in a low moisture content state with a moisture content of 35% by mass or less, its use as energy is not progressing overall.
Examples of conventional use of livestock excrement as energy include the use of poultry manure as fuel for biomass power generation facilities and biomass boilers, the use of fermented products obtained by fermenting cattle manure and pig manure as solid fuel, cattle manure and pig manure There is an example in which biogas such as methane gas is generated by fermentation and this biogas is used as fuel.

近年、環境保護や化石燃料の代替等の観点から、家畜***物もエネルギー源として見直されつつあり、そのために様々な方法が提案されている。
例えば、畜舎から排出される糞尿汚水(床洗浄水を含む)を脱水処理して固液分離する処理方法(特許文献1)、家畜糞その他の含水廃棄処理物に乾燥炭化炉を用いて乾燥炭化処理を施し、この乾燥炭化処理過程で発生した蒸気を再加熱して高温蒸気とし、この高温蒸気を乾燥炭化炉の乾燥熱源とする方法(特許文献2)、家畜***物に固液分離を助長する繊維性の助材を添加混錬し、得られた混錬物を静置し、この混錬物の液体成分の一部を除液し、この除液により残渣した湿潤固体成分を発酵させ、固形化する方法(特許文献3)等である。 In recent years, livestock excrement is being reconsidered as an energy source from the viewpoint of environmental protection and fossil fuel substitution, and various methods have been proposed for this purpose.
For example, a treatment method (Patent Document 1) for dewatering manure wastewater (including floor washing water) discharged from a livestock barn and solid-liquid separation, and dry carbonization using live carbonized manure and other hydrous waste treatment products Process, reheat the steam generated in this dry carbonization process into high-temperature steam, and use this high-temperature steam as a drying heat source for the drying carbonization furnace (Patent Document 2), promote solid-liquid separation of livestock excrement Add and knead the fibrous auxiliary material, leave the resulting kneaded product, remove a part of the liquid component of this kneaded product, and ferment the residual wet solid component And a solidifying method (Patent Document 3).

また、有機廃棄物の有するエネルギーを有効利用するために、畜糞を減圧条件下において一定の温度の油中に浸漬し、その後搾油し、固形物を助燃材として使用しうるようにした畜糞の燃料化方法(特許文献4)等も提案されている。
特開平1−297195号公報 特開2004−330092号公報 特開2007−321121号公報 特開平10−121074号公報 In addition, in order to effectively use the energy of organic waste, livestock manure fuel is prepared by immersing livestock feces in oil at a constant temperature under reduced pressure conditions, and then squeezing the oil so that the solid matter can be used as a combustion aid. A conversion method (Patent Document 4) is also proposed.
JP-A-1-297195 JP 2004-330092 A JP 2007-321121 A JP-A-10-121074

ところで、従来より豚や牛の糞尿がエネルギー利用され難い理由は、含水率が85%〜95%と高く、塩素含有量も高いことにあった。
例えば、豚舎等から排出される洗浄水や尿が混入している高含水率の有機廃棄物は、含水率が85%〜95%と高く、塩素含有量も高く、この高含水率の有機廃棄物を従来の堆肥化のための処理方法や処理システム等で処理した場合、得られた処理物の含水率も40%〜60%と高くなる。したがって、この処理物を燃料として用いた場合、燃焼時に発生する熱エネルギーが処理物に含まれる水分の蒸発潜熱に奪われてしまい、燃料としてのエネルギーの有効利用を図ることが難しいという問題点があった。 By the way, the reason why the energy of pig and cow manure has been difficult to use is that the water content is as high as 85% to 95% and the chlorine content is also high.
For example, high water content organic waste mixed with washing water and urine discharged from pig houses has a high water content of 85% to 95% and high chlorine content. When a thing is processed with the processing method, processing system, etc. for the conventional composting, the moisture content of the obtained processed goods will also be as high as 40%-60%. Therefore, when this processed product is used as fuel, the heat energy generated during combustion is lost to the latent heat of vaporization of moisture contained in the processed product, and it is difficult to effectively use the energy as fuel. there were.

また、この高含水率の有機廃棄物をセメント焼成設備のセメント焼成用燃料として用いた場合、この有機廃棄物中の塩素成分がセメントの品質に悪影響を及ぼす虞があり、また、この有機廃棄物中の塩素成分がセメント焼成設備を腐食させる等のトラブルが発生する虞があり、セメントの操業に悪影響を及ぼす虞がある。
また、豚や牛の糞尿を発酵させたものについては、含水率は低下しているものの、得られた発酵品の品質にバラツキがあり、一定の品質の発酵品を得るまでには至っていない。
以上の理由により、豚や牛の糞尿のエネルギー利用については、進捗がはかばかしくないのが現状である。 In addition, when this high water content organic waste is used as a cement firing fuel for cement firing equipment, the chlorine component in the organic waste may adversely affect the quality of the cement. There is a possibility that troubles such as corrosion of the chlorine components in the cement corrodes the cement firing equipment, which may adversely affect the operation of the cement.
Moreover, about the thing which fermented manure of pigs and cows, although the moisture content has fallen, the quality of the obtained fermented product varies, and it has not reached to obtain the fermented product of fixed quality.
For the above reasons, the current situation is that the progress of the energy use of pig and cattle manure is not ridiculous.

本発明は、上記の課題を解決するためになされたものであって、豚糞、牛糞等の家畜***物を含有する含水有機廃棄物に含まれる塩素、塩素化合物のうちのいずれか一方または双方を効果的に除去するとともに、得られた脱塩素有機廃棄物の含水率が85質量%以下の高含水率であっても、容易に発酵させることができ、エネルギー源としての有効利用を図ることができ、さらにはセメント焼成設備の燃料として有効利用することができる含水有機廃棄物の燃料化方法及びバイオマス燃料を提供することを目的とする。   The present invention has been made to solve the above-described problem, and is one or both of chlorine and chlorine compounds contained in water-containing organic waste containing livestock excrement such as pig dung and cow dung. Is effectively removed, and even if the water content of the obtained dechlorinated organic waste is a high water content of 85% by mass or less, it can be easily fermented and effectively used as an energy source. It is another object of the present invention to provide a method for converting water-containing organic waste into a fuel and a biomass fuel that can be effectively used as a fuel for cement burning facilities.

本発明者等は、上記課題を解決するために、豚糞、牛糞等の家畜***物を含有する含水有機廃棄物の燃料化について鋭意研究を重ねた結果、牛糞等の高繊維質の家畜***物を含有する含水有機廃棄物に脱水処理を施して得られた脱塩素有機廃棄物に、乾燥または加熱乾燥、水分調整材の添加、のいずれか一方または双方を施すことにより含水率を85質量%以下に調整するか、あるいは、豚糞等の家畜***物を含有する含水有機廃棄物に脱水処理を施して得られた脱塩素有機廃棄物に繊維質の水分調整材を添加することにより含水率を85質量%以下に調整するか、のいずれかを行い、その後、この含水率を調整した脱塩素有機廃棄物を発酵させれば、塩素濃度が4000ppm以下かつ含水率が35質量%以下の乾燥脱塩素有機廃棄物を得ることができることを見出し、さらに、この乾燥脱塩素有機廃棄物をセメント焼成設備等のバイオマス燃料等として有効利用することができ、しかもセメント焼成設備の操業やセメント品質に悪影響を及ぼす虞が無いことを見出し、本発明を完成するに至った。   In order to solve the above-mentioned problems, the present inventors have conducted earnest research on the fueling of water-containing organic waste containing livestock excrement such as pig excrement and cattle excrement. The moisture content is 85 mass by subjecting the dechlorinated organic waste obtained by dehydrating the water-containing organic waste containing the product to either or both of drying or heat drying and adding a moisture adjusting material. Water content by adjusting to less than% or by adding a fibrous water conditioning material to dechlorinated organic waste obtained by dehydration treatment of water-containing organic waste containing livestock excrement such as pig dung The rate is adjusted to 85% by mass or less, and then, if the dechlorinated organic waste with adjusted moisture content is fermented, the chlorine concentration is 4000 ppm or less and the moisture content is 35% by mass or less. Obtain dry dechlorinated organic waste In addition, this dry dechlorinated organic waste can be effectively used as biomass fuel for cement firing facilities, etc., and there is no risk of adverse effects on cement firing facility operations and cement quality. The headline and the present invention were completed.

すなわち、本発明の請求項1記載の含水有機廃棄物の燃料化方法は、高繊維質の家畜***物を含有する含水有機廃棄物を燃料化するための方法であって、前記含水有機廃棄物、あるいは前記含水有機廃棄物を含むスラリーまたは洗浄処理水に、脱水処理を施すことにより、この含水有機廃棄物に含まれる塩素、塩素化合物のうちのいずれか一方または双方を除去して脱塩素有機廃棄物とし、次いで、この脱塩素有機廃棄物に、乾燥または加熱乾燥、水分調整材の添加、のいずれか一方または双方を施すことにより、含水率を85質量%以下に調整し、次いで、この含水率を調整した脱塩素有機廃棄物を発酵させ、発酵過程にて発生する発酵熱を用いて塩素濃度が4000ppm以下かつ含水率が35質量%以下の乾燥脱塩素有機廃棄物とすることを特徴とする。   That is, the method for fuelizing water-containing organic waste according to claim 1 of the present invention is a method for converting water-containing organic waste containing high-fibre livestock excrement into fuel. Or, by dehydrating the slurry containing water-containing organic waste or washed water, either or both of chlorine and chlorine compounds contained in the water-containing organic waste are removed, and dechlorinated organic Then, the moisture content is adjusted to 85% by mass or less by subjecting the dechlorinated organic waste to one or both of drying or heat drying and addition of a moisture adjusting material. Fermented dechlorinated organic waste with adjusted moisture content, and dried dechlorinated organic waste with a chlorine concentration of 4000 ppm or less and a moisture content of 35 mass% or less using fermentation heat generated in the fermentation process And wherein the door.

この含水有機廃棄物の燃料化方法では、高繊維質の家畜***物を含有する含水有機廃棄物に脱水処理を施して得られた脱塩素有機廃棄物に、乾燥または加熱乾燥、水分調整材の添加、のいずれか一方または双方を施して含水率を85質量%以下に調整し、次いで、この含水率を調整した脱塩素有機廃棄物を発酵させることにより、塩素濃度が3000ppm以下かつ含水率が35質量%以下の乾燥脱塩素有機廃棄物が得られる。
このようにして得られた乾燥脱塩素有機廃棄物は、塩素濃度が極めて低くかつ高位の発熱量を有しており、燃焼効率が高いバイオマス燃料として有効利用することが可能である。
また、この乾燥脱塩素有機廃棄物をセメント焼成設備に燃料として投入した場合においても、セメントの操業や品質に悪影響を及ぼす虞が無い。 In this method of fueling hydrous organic waste, dechlorinated organic waste obtained by subjecting hydrous organic waste containing high-fibre livestock excrement to dehydration treatment is dried or heat-dried, and a moisture adjusting material is added. The moisture content is adjusted to 85% by mass or less by applying one or both of the addition, and then the chlorine concentration is 3000 ppm or less and the moisture content is fermented by dechlorinated organic waste adjusted for this moisture content. A dry dechlorinated organic waste of 35% by weight or less is obtained.
The dry dechlorinated organic waste thus obtained has a very low chlorine concentration and a high calorific value, and can be effectively used as a biomass fuel with high combustion efficiency.
Further, even when this dry dechlorinated organic waste is introduced as fuel into a cement firing facility, there is no possibility of adversely affecting cement operation and quality.

本発明の請求項2記載の含水有機廃棄物の燃料化方法は、家畜***物を含有する含水有機廃棄物を燃料化するための方法であって、前記含水有機廃棄物、あるいは前記含水有機廃棄物を含むスラリーまたは洗浄処理水に、脱水処理を施すことにより、この含水有機廃棄物に含まれる塩素、塩素化合物のうちのいずれか一方または双方を除去して脱塩素有機廃棄物とし、次いで、この脱塩素有機廃棄物に繊維質の水分調整材を添加することにより、含水率を85質量%以下に調整し、次いで、この含水率を調整した脱塩素有機廃棄物を発酵させ、発酵過程にて発生する発酵熱を用いて塩素濃度が4000ppm以下かつ含水率が35質量%以下の乾燥脱塩素有機廃棄物とすることを特徴とする。   The method for fuelizing hydrous organic waste according to claim 2 of the present invention is a method for converting hydrous organic waste containing livestock excreta into fuel, the hydrous organic waste, or the hydrous organic waste. The slurry or washing water containing the waste is subjected to a dehydration treatment to remove either or both of chlorine and chlorine compounds contained in the water-containing organic waste to form dechlorinated organic waste, By adding a fibrous moisture adjusting material to this dechlorinated organic waste, the moisture content is adjusted to 85% by mass or less, and then the dechlorinated organic waste adjusted to this moisture content is fermented to enter the fermentation process. The dry dechlorinated organic waste having a chlorine concentration of 4000 ppm or less and a water content of 35% by mass or less is produced by using the fermentation heat generated.

この含水有機廃棄物の燃料化方法では、家畜***物を含有する含水有機廃棄物に脱水処理を施して得られた脱塩素有機廃棄物に繊維質の水分調整材を添加することにより、含水率を85質量%以下に調整し、次いで、この含水率を調整した脱塩素有機廃棄物を発酵させることにより、塩素濃度が3000ppm以下かつ含水率が35質量%以下の乾燥脱塩素有機廃棄物が得られる。
このようにして得られた乾燥脱塩素有機廃棄物は、塩素濃度が極めて低くかつ高位の発熱量を有しており、燃焼効率が高いバイオマス燃料として有効利用することが可能である。
また、この乾燥脱塩素有機廃棄物をセメント焼成設備に燃料として投入した場合においても、セメントの操業や品質に悪影響を及ぼす虞が無い。 In this method of fueling hydrous organic waste, the moisture content is increased by adding a fibrous moisture regulator to dechlorinated organic waste obtained by dehydrating hydrous organic waste containing livestock excreta. Is then adjusted to 85% by mass or less, and then the dechlorinated organic waste having the adjusted moisture content is fermented to obtain a dry dechlorinated organic waste having a chlorine concentration of 3000 ppm or less and a moisture content of 35% by mass or less. It is done.
The dry dechlorinated organic waste thus obtained has a very low chlorine concentration and a high calorific value, and can be effectively used as a biomass fuel with high combustion efficiency.
Further, even when this dry dechlorinated organic waste is introduced as fuel into a cement firing facility, there is no possibility of adversely affecting cement operation and quality.

本発明の請求項3記載の含水有機廃棄物の燃料化方法は、請求項1または2記載の含水有機廃棄物の燃料化方法において、前記含水有機廃棄物は、含水率が60%以上の高含水率有機廃棄物であることを特徴とする。
この高含水率有機廃棄物に脱水処理を施すことにより、この高含水率有機廃棄物に含まれる塩素および/または塩素化合物が効率的に除去され、低塩素濃度の脱塩素有機廃棄物が得られる。 The method for fuelizing hydrous organic waste according to claim 3 of the present invention is the method for fuelizing hydrous organic waste according to claim 1 or 2, wherein the hydrous organic waste has a high moisture content of 60% or more. It is characterized by being a water content organic waste.
By dehydrating the high water content organic waste, chlorine and / or chlorine compounds contained in the high water content organic waste are efficiently removed, and a low chlorine concentration dechlorinated organic waste is obtained. .

本発明の請求項4記載の含水有機廃棄物の燃料化方法は、請求項1記載の含水有機廃棄物の燃料化方法において、前記水分調整材は、繊維質の水分調整材であることを特徴とする。
この繊維質の水分調整材を上記の脱塩素有機廃棄物に添加すると、この繊維質の水分調整材の有する異方性により、脱塩素有機廃棄物中に空隙が形成され、通気性が確保される。これにより、この脱塩素有機廃棄物の発酵が進行する。 The water-containing organic waste fueling method according to claim 4 of the present invention is the water-containing organic waste fueling method according to claim 1, wherein the moisture adjusting material is a fibrous moisture adjusting material. And
When this fibrous moisture adjusting material is added to the above-mentioned dechlorinated organic waste, voids are formed in the dechlorinated organic waste due to the anisotropy of this fibrous moisture adjusting material, and air permeability is ensured. The Thereby, fermentation of this dechlorinated organic waste proceeds.

本発明の請求項5記載の含水有機廃棄物の燃料化方法は、請求項1ないし4のいずれか1項記載の含水有機廃棄物の燃料化方法において、前記脱塩素有機廃棄物を発酵させた後、この発酵した脱塩素有機廃棄物を乾燥または加熱乾燥させ、塩素濃度が4000ppm以下かつ含水率が35質量%以下の乾燥脱塩素有機廃棄物とすることを特徴とする。
この脱塩素有機廃棄物を発酵させた後、この発酵した脱塩素有機廃棄物を乾燥または加熱乾燥させることにより、得られた乾燥脱塩素有機廃棄物は、発酵熱のみを用いた乾燥脱塩素有機廃棄物と比べて高位の発熱量を有しており、燃焼効率がより高いバイオマス燃料として有効利用することが可能である。 The method for fuelizing hydrous organic waste according to claim 5 of the present invention is the method for fuelizing hydrous organic waste according to any one of claims 1 to 4, wherein the dechlorinated organic waste is fermented. Thereafter, the fermented dechlorinated organic waste is dried or heat-dried to obtain a dry dechlorinated organic waste having a chlorine concentration of 4000 ppm or less and a water content of 35% by mass or less.
After fermenting the dechlorinated organic waste, the fermented dechlorinated organic waste is dried or heat-dried so that the obtained dry dechlorinated organic waste is dried dechlorinated organic using only fermentation heat. It has a higher calorific value than waste and can be effectively used as a biomass fuel with higher combustion efficiency.

本発明の請求項6記載の含水有機廃棄物の燃料化方法は、請求項1ないし5のいずれか1項記載の含水有機廃棄物の燃料化方法において、前記脱塩素有機廃棄物を乾燥または加熱乾燥した後に、分級、粉砕、解砕のいずれか1つまたは2つ以上を行うことを特徴とする。
脱塩素有機廃棄物は、乾燥または加熱乾燥した後では、通常、球状、塊状(ブロック状)、板状等、比較的大きな形状を有している。そこで、乾燥または加熱乾燥した脱塩素有機廃棄物に対して、分級、粉砕、解砕のいずれか1つまたは2つ以上を行うことにより、燃焼効率の高い所望の形状の粉粒体とすることが可能である。 The method for fuelizing hydrous organic waste according to claim 6 of the present invention is the method for fuelizing hydrous organic waste according to any one of claims 1 to 5, wherein the dechlorinated organic waste is dried or heated. After drying, one or more of classification, pulverization, and pulverization are performed.
The dechlorinated organic waste usually has a relatively large shape such as a spherical shape, a lump shape (block shape), or a plate shape after being dried or heat-dried. Therefore, the dried or heat-dried dechlorinated organic waste is subjected to any one or more of classification, pulverization, and pulverization to obtain a powder having a desired shape with high combustion efficiency. Is possible.

本発明の請求項7記載のバイオマス燃料は、高繊維質の家畜***物を含有する含水有機廃棄物に含まれる塩素、塩素化合物のうちのいずれか一方または双方を除去して脱塩素有機廃棄物とし、この脱塩素有機廃棄物を発酵してなるバイオマス燃料であって、塩素濃度が4000ppm以下かつ含水率が35質量%以下であることを特徴とする。   The biomass fuel according to claim 7 of the present invention is a dechlorinated organic waste obtained by removing either or both of chlorine and a chlorine compound contained in a hydrous organic waste containing a high-fibre livestock excreta. And a biomass fuel obtained by fermenting the dechlorinated organic waste, wherein the chlorine concentration is 4000 ppm or less and the water content is 35 mass% or less.

本発明の請求項8記載のバイオマス燃料は、家畜***物を含有する含水有機廃棄物に含まれる塩素、塩素化合物のうちのいずれか一方または双方を除去して脱塩素有機廃棄物とし、この脱塩素有機廃棄物に繊維質の水分調整材を添加し、発酵してなるバイオマス燃料であって、塩素濃度が4000ppm以下かつ含水率が35質量%以下であることを特徴とする。   The biomass fuel according to claim 8 of the present invention removes one or both of chlorine and chlorine compounds contained in the water-containing organic waste containing livestock excreta to obtain dechlorinated organic waste, A biomass fuel obtained by adding a fibrous moisture adjusting material to a chlorinated organic waste and fermenting it, wherein the chlorine concentration is 4000 ppm or less and the moisture content is 35 mass% or less.

これらのバイオマス燃料では、塩素濃度を4000ppm以下かつ含水率を35質量%以下としたことにより、燃料として用いた場合においても、燃焼時に発生する熱エネルギーがバイオマス燃料に含まれる水分の蒸発潜熱に奪われてしまう虞が無くなり、燃料としてのエネルギーの有効利用を図ることが可能になる。
また、塩素濃度が極めて低いので、燃焼装置等においても腐食や配管等の閉塞等のトラブルが発生する虞がなく、また、セメント焼成設備に投入した場合においても、セメントの操業や品質に悪影響を及ぼす虞が無い。 In these biomass fuels, the chlorine concentration is 4000 ppm or less and the moisture content is 35 mass% or less, so that even when used as fuel, the thermal energy generated during combustion is deprived of the latent heat of evaporation of moisture contained in the biomass fuel. There is no risk of breakage, and it is possible to effectively use energy as fuel.
In addition, since the chlorine concentration is extremely low, there is no risk of problems such as corrosion or blockage of pipes in the combustion device, etc., and even when it is put into a cement firing facility, it adversely affects the operation and quality of the cement. There is no risk of influence.

本発明の含水有機廃棄物の燃料化方法によれば、塩素濃度が極めて低くかつ高位の発熱量を有する乾燥脱塩素有機廃棄物を容易かつ安価に得ることができる。したがって、この乾燥脱塩素有機廃棄物を燃焼効率が高いバイオマス燃料として有効利用することができる。
また、この乾燥脱塩素有機廃棄物をセメント焼成設備に燃料として投入した場合においても、セメントの操業や品質に悪影響を及ぼす虞が無い。 According to the fueled organic waste method of the present invention, dry dechlorinated organic waste having an extremely low chlorine concentration and a high calorific value can be obtained easily and inexpensively. Therefore, this dry dechlorinated organic waste can be effectively used as a biomass fuel with high combustion efficiency.
Further, even when this dry dechlorinated organic waste is introduced as fuel into a cement firing facility, there is no possibility of adversely affecting cement operation and quality.

本発明のバイオマス燃料によれば、塩素濃度を4000ppm以下かつ含水率を35質量%以下としたので、燃焼装置等においても腐食や配管等の閉塞等のトラブルを防止することができ、このバイオマス燃料をセメント焼成設備に投入した場合においても、燃焼効率が低下する虞がなく、セメントの操業や品質に悪影響を及ぼす虞も無い。   According to the biomass fuel of the present invention, since the chlorine concentration is 4000 ppm or less and the water content is 35 mass% or less, troubles such as corrosion and blockage of pipes can be prevented even in a combustion apparatus, etc. Even when is put into a cement firing facility, there is no possibility that the combustion efficiency is lowered and there is no possibility that the operation and quality of the cement will be adversely affected.

本発明の含水有機廃棄物の燃料化方法及びバイオマス燃料を実施するための最良の形態について、図面に基づき説明する。
なお、本実施形態は、発明の趣旨をより良く理解させるために具体的に説明するものであり、特に指定のない限り、本発明を限定するものではない。 BEST MODE FOR CARRYING OUT THE INVENTION The best mode for carrying out the method for fueling hydrous organic waste and biomass fuel of the present invention will be described with reference to the drawings.
The present embodiment is specifically described for better understanding of the gist of the invention, and does not limit the invention unless otherwise specified.

[第1の実施の形態]
図1は、本発明の第1の実施形態の含水有機廃棄物の燃料化方法に用いられる脱塩・燃料化設備を示す模式図であり、高繊維質の家畜***物を含有する含水有機廃棄物を燃料化するための設備である。
図において、1は高繊維質の家畜***物を含む含水有機廃棄物を排出する排出源、2は含水有機廃棄物の脱塩設備、3は燃料化設備である。 [First Embodiment]
FIG. 1 is a schematic diagram showing a desalination and fueling facility used in the method for fuelizing hydrous organic waste according to the first embodiment of the present invention, and hydrous organic waste containing high-fiber livestock excreta It is equipment for fueling things.
In the figure, 1 is a discharge source for discharging water-containing organic waste containing high-fiber livestock excrement, 2 is a desalination facility for water-containing organic waste, and 3 is a fueling facility.

ここで用いる含水有機廃棄物とは、高繊維質の家畜***物を含有する含水率が60質量%以上の有機廃棄物のことであり、この高繊維質の家畜***物としては、飼料に由来する消化しきれない繊維状のセルロースを多く含む糞尿、例えば、牛糞尿等の畜糞尿が挙げられる。   The water-containing organic waste used here is an organic waste containing 60% by mass or more of water containing high-fiber livestock excreta, and the high-fiber livestock waste is derived from feed. Examples thereof include manure containing a large amount of fibrous cellulose that cannot be digested, for example, animal manure such as cow manure.

この含水有機廃棄物は、スラリーまたは洗浄処理水の状態としても用いることができる。
このスラリーとしては、例えば、牛糞尿等の高繊維質の畜糞尿を所定量の水に投入し、撹拌したスラリーが好適である。
また、洗浄処理水としては、例えば、牛舎等の畜舎を水洗により洗浄した際に排出される牛糞尿等の畜糞尿と多量の洗浄水とを含む***物含有処理水等が挙げられる。
これらは、その用途や必要に応じて、1種のみ、または2種以上を混合して用いることができる。 This water-containing organic waste can also be used in the state of slurry or washing treated water.
As this slurry, for example, a slurry in which high-fibre animal manure such as cow manure is introduced into a predetermined amount of water and stirred is suitable.
Examples of the cleaning treatment water include excrement-containing treatment water containing livestock manure such as cattle manure discharged when washing livestock such as a cowshed by washing with water and a large amount of washing water.
These can be used alone or in admixture of two or more as required.

排出源1は、上記の含水有機廃棄物、あるいは上記の含水有機廃棄物を含むスラリーまたは洗浄処理水を排出する源であり、例えば、牛の糞や尿を含む***物を水洗により洗浄した***物含有処理水を排出する牛舎等が挙げられる。
これらの施設から排出される含水有機廃棄物、あるいは含水有機廃棄物を含むスラリーまたは洗浄処理水は、その用途によっては、2種類以上を混合してもよい。 The discharge source 1 is a source that discharges the above-mentioned water-containing organic waste, or the slurry containing the above-mentioned water-containing organic waste or the washing treated water. For example, excretion obtained by washing excrement including cow dung and urine by washing Examples include barns that discharge treated water.
Two or more kinds of water-containing organic waste discharged from these facilities, slurry containing water-containing organic waste, or washed water may be mixed depending on the application.

脱塩設備2は、排出源1から排出される含水有機廃棄物、あるいはスラリーまたは洗浄処理水に含まれる有機廃棄物を脱塩処理するための設備であり、上記の含水有機廃棄物、あるいは上記の含水有機廃棄物を含むスラリーまたは洗浄処理水を貯留する1次槽11と、上記の含水有機廃棄物、あるいは上記のスラリーまたは洗浄処理水を、有機廃棄物と1次スラリー(水溶液)とに固液分離するスクリーン等からなる1次固液分離器12と、固液分離により生じた1次スラリー(水溶液)を貯留し流量を調整する調整槽13と、この1次スラリーを1次曝気処理する1次曝気槽14と、1次曝気処理されたスラリーを固液分離するスクリーン等からなる2次固液分離器15と、この固液分離により生じた2次スラリー(水溶液)を2次曝気処理する2次曝気槽16と、この2次曝気処理されたスラリーを膜浸漬処理により汚泥と処理水とに分離する膜浸漬槽17と、この汚泥を脱水処理して含水率が85質量%以下の脱塩素有機廃棄物と処理水とに分離する脱水処理装置18と、膜浸漬槽17及び脱水処理装置18から排出される処理水を一旦貯留し放流する処理水受槽19とにより構成されている。   The desalination facility 2 is a facility for desalinating the organic organic waste discharged from the discharge source 1 or the organic waste contained in the slurry or the washing water, and the above-mentioned aqueous organic waste or the above-mentioned The primary tank 11 for storing the slurry containing water-containing organic waste or cleaning water, and the water-containing organic waste, or the slurry or cleaning water, into organic waste and primary slurry (aqueous solution). A primary solid-liquid separator 12 composed of a screen for solid-liquid separation, an adjustment tank 13 for storing a primary slurry (aqueous solution) generated by solid-liquid separation and adjusting the flow rate, and a primary aeration process for the primary slurry. The secondary aeration tank 14, the secondary solid-liquid separator 15 including a screen or the like for solid-liquid separation of the slurry subjected to the primary aeration treatment, and the secondary slurry (aqueous solution) generated by the solid-liquid separation are subjected to secondary aeration. place The secondary aeration tank 16, the membrane immersion tank 17 that separates the slurry subjected to the secondary aeration treatment into sludge and treated water by membrane immersion treatment, and the moisture content is 85 mass% or less by dehydrating the sludge. A dehydration processing device 18 that separates into dechlorinated organic waste and treated water, and a treated water receiving tank 19 that temporarily stores and discharges the treated water discharged from the membrane immersion tank 17 and the dehydration processing apparatus 18 are configured.

燃料化設備3は、脱塩設備2から送り出される脱塩素有機廃棄物を燃料化するための設備であり、脱塩素有機廃棄物に、乾燥または加熱乾燥、水分調整材の添加、のいずれか一方または双方を施すことにより、含水率を85質量%以下に調整する水分調整設備21と、含水率を85質量%以下に調整した脱塩素有機廃棄物を発酵させ、この発酵過程にて発生する発酵熱を用いて乾燥させる発酵設備22と、この発酵した脱塩素有機廃棄物をさらに乾燥させるために自然エネルギーを用いて乾燥または加熱乾燥を施す乾燥装置23と、発酵設備22あるいは乾燥装置23から取り出された固形状の乾燥脱塩素有機廃棄物に対して、分級、粉砕、解砕のいずれか1つまたは2つ以上を行うことにより直径10mm以下の粒子状とする分級機能を有する粉砕機24と、発酵設備22、乾燥装置23及び粉砕機24のうち1種以上の装置から排出される乾燥脱塩素有機廃棄物を仕様別や品種別に選別し保管する保管庫25とにより構成されている。
ここで、自然エネルギーを用いた乾燥とは、風力による乾燥等であり、また、自然エネルギーを用いた加熱乾燥とは、太陽熱による加熱乾燥、太陽熱及び風力を併用した加熱乾燥等である。 The fueling facility 3 is a facility for converting the dechlorinated organic waste sent from the desalination facility 2 into fuel, and either dehydration or heat drying or addition of a moisture adjusting material is added to the dechlorinated organic waste. Or by performing both, the moisture adjustment equipment 21 that adjusts the moisture content to 85% by mass or less and the dechlorinated organic waste adjusted to a moisture content of 85% by mass or less are fermented, and fermentation that occurs in this fermentation process It is taken out from the fermentation facility 22 that is dried using heat, the drying device 23 that performs drying or heat drying using natural energy to further dry the fermented dechlorinated organic waste, and the fermentation facility 22 or the drying device 23. The resulting solid dry dechlorinated organic waste has a function of classifying it into particles having a diameter of 10 mm or less by performing any one or more of classification, pulverization and crushing. And a storage 25 for selecting and storing dry dechlorinated organic waste discharged from one or more of the fermentation equipment 22, the drying device 23, and the pulverizer 24 according to specifications and varieties. Has been.
Here, the drying using natural energy is drying by wind power or the like, and the heating drying using natural energy is heating drying by solar heat, heating drying using solar heat and wind power or the like.

水分調整設備21は、脱塩素有機廃棄物に、乾燥または加熱乾燥、水分調整材の添加、のいずれか一方または双方を同時に施すための設備であり、脱塩素有機廃棄物を貯留する槽と、この槽内の脱塩素有機廃棄物を撹拌する攪拌機と、この槽内の脱塩素有機廃棄物を加熱するヒータとを備えている。   The moisture adjustment facility 21 is a facility for simultaneously performing either or both of drying or heat drying and addition of a moisture adjusting material on the dechlorinated organic waste, and a tank for storing the dechlorinated organic waste; A stirrer for stirring the dechlorinated organic waste in the tank and a heater for heating the dechlorinated organic waste in the tank are provided.

発酵設備22は、含水率を85質量%以下に調整した脱塩素有機廃棄物を発酵させるとともに、この発酵過程にて発生する発酵熱を用いて乾燥させる設備であり、例えば、直線型開放式発酵槽が好適に用いられる。
この直線型開放式発酵槽は、含水率を85質量%以下に調整した脱塩素有機廃棄物を貯留する開放式の発酵槽と、この脱塩素有機廃棄物を撹拌・混合する撹拌機とを備えている。
この直線型開放式発酵設備は、含水率を85質量%以下に調整した脱塩素有機廃棄物を撹拌しながら発酵させ、この発酵に伴う発熱により乾燥して含水率が低くなった脱塩素有機廃棄物とすることにより、脱塩素有機廃棄物の発酵の促進及び含水率の調整を行うようになっている。 The fermentation facility 22 is a facility for fermenting dechlorinated organic waste whose water content is adjusted to 85% by mass or less and drying using fermentation heat generated in the fermentation process. For example, linear open fermentation A tank is preferably used.
This linear open fermenter includes an open fermenter that stores dechlorinated organic waste whose water content is adjusted to 85% by mass or less, and an agitator that stirs and mixes this dechlorinated organic waste. ing.
This linear open-type fermentation facility fermented dechlorinated organic waste whose water content has been adjusted to 85% by mass or less while stirring, and dehydrated organic waste that has been dried due to the heat generated by this fermentation and has a low water content. By making it into a product, the fermentation of dechlorinated organic waste is promoted and the moisture content is adjusted.

乾燥装置23としては、太陽熱及び風力を用いた天日乾燥器等が好適に用いられる。また、粉砕機24としては、自動乳鉢、スタンパ、ニーダー、ロールミル等が好適に用いられる。   As the drying device 23, a solar dryer or the like using solar heat and wind power is preferably used. As the pulverizer 24, an automatic mortar, stamper, kneader, roll mill or the like is preferably used.

次に、高繊維質の家畜***物を含有する含水有機廃棄物の燃料化方法について詳細に説明する。
排出源1から排出される上記の含水有機廃棄物、あるいは上記の含水有機廃棄物を含むスラリーまたは洗浄処理水を脱塩設備2の1次槽11に一旦貯留した後、1次固液分離器12に投入し、この含水有機廃棄物、あるいは、この含水有機廃棄物を含むスラリーまたは洗浄処理水をケーキ(固形分)と1次スラリー(水溶液)に固液分離する。次いで、この固液分離により生じた1次スラリーを調整槽13に投入して一旦貯留した後、1次曝気槽14に導入し、この1次スラリーに1次曝気処理を施す。 Next, a method for fuelizing hydrous organic waste containing high-fiber livestock excreta will be described in detail.
After the water-containing organic waste discharged from the discharge source 1 or the slurry containing the water-containing organic waste or the washed water is temporarily stored in the primary tank 11 of the desalination facility 2, the primary solid-liquid separator The water-containing organic waste, or the slurry or water containing the water-containing organic waste is subjected to solid-liquid separation into a cake (solid content) and a primary slurry (aqueous solution). Next, the primary slurry generated by the solid-liquid separation is put into the adjustment tank 13 and temporarily stored, and then introduced into the primary aeration tank 14, and the primary slurry is subjected to the primary aeration process.

次いで、この1次曝気処理が施されたスラリーを2次固液分離器15に投入し、このスラリーをケーキ(固形分)と2次スラリー(水溶液)に分離し、この固液分離により生じた2次スラリーを2次曝気槽16に投入し、2次曝気処理を施す。次いで、この2次曝気処理されたスラリーを膜浸漬槽17に投入して膜浸漬処理を施し、汚泥と処理水とに分離する。次いで、この汚泥を脱水処理装置18に導入し、脱水処理を施す。   Next, the slurry subjected to the primary aeration treatment is put into the secondary solid-liquid separator 15, and the slurry is separated into a cake (solid content) and a secondary slurry (aqueous solution). The secondary slurry is put into the secondary aeration tank 16 and subjected to secondary aeration treatment. Next, the slurry subjected to the secondary aeration treatment is put into the membrane immersion tank 17 and subjected to the membrane immersion treatment to be separated into sludge and treated water. Next, the sludge is introduced into the dehydration apparatus 18 and subjected to a dehydration process.

これにより、上記の含水有機廃棄物、あるいは上記の含水有機廃棄物を含むスラリーまたは洗浄処理水は、効果的に脱塩処理が施され、塩素濃度が4000ppm以下、好ましくは3000ppm以下であり、かつ含水率が90質量%以下の脱塩素有機廃棄物となる。
この膜浸漬槽17及び脱水処理装置18から排出される処理水は、処理水受槽19に一旦貯留された後、放流される。 As a result, the above-mentioned water-containing organic waste, or the slurry or washing water containing the above-mentioned water-containing organic waste is effectively subjected to a desalting treatment, and the chlorine concentration is 4000 ppm or less, preferably 3000 ppm or less, and It becomes a dechlorinated organic waste having a water content of 90% by mass or less.
The treated water discharged from the membrane immersion tank 17 and the dehydration processing apparatus 18 is temporarily stored in the treated water receiving tank 19 and then discharged.

次いで、脱水処理装置18から排出される脱塩素有機廃棄物、あるいは、この脱塩素有機廃棄物に1次固液分離器12及び2次固液分離器15各々から取り出されたケーキ状の脱塩素有機廃棄物を混合した脱塩素有機廃棄物を、次工程である燃料化設備3に送り、水分調整設備21にて、乾燥または加熱乾燥、水分調整材の添加、のいずれか一方または双方を施し、その含水率を85質量%以下、好ましくは40質量%以上かつ80質量%以下、より好ましくは40質量%以上かつ75質量%以下に調整する。   Subsequently, the dechlorinated organic waste discharged from the dehydration apparatus 18 or the cake-like dechlorination taken out from the primary solid-liquid separator 12 and the secondary solid-liquid separator 15 to the dechlorinated organic waste, respectively. The dechlorinated organic waste mixed with the organic waste is sent to the fueling equipment 3 which is the next process, and the moisture adjusting equipment 21 performs either or both of drying or heat drying and adding a moisture adjusting material. The water content is adjusted to 85% by mass or less, preferably 40% by mass to 80% by mass, more preferably 40% by mass to 75% by mass.

ここで、脱塩素有機廃棄物の含水率を85質量%以下に調整する理由は、含水率が85質量%を超えた場合、次工程で脱塩素有機廃棄物を発酵させる際に、水分が多すぎるために発酵が進行せず、したがって、十分な発酵効果が得られないからである。   Here, the reason for adjusting the moisture content of the dechlorinated organic waste to 85% by mass or less is that when the moisture content exceeds 85% by mass, when the dechlorinated organic waste is fermented in the next step, there is a lot of water. This is because the fermentation does not proceed because the amount is too high, and therefore a sufficient fermentation effect cannot be obtained.

水分調整材は、脱塩素有機廃棄物に添加し攪拌・混合することにより、脱塩素有機廃棄物及び水分調整材の全体量の含水率を85質量%以下に調整するものであり、この水分調整材としては、特に限定しないが、高繊維質の家畜***物を含有する脱塩素有機廃棄物の含水率を調整することを考慮すれば、繊維質の水分調整材が好ましい。
繊維質の水分調整材は、それ自体が吸水性に富んでおり、脱塩素有機廃棄物に添加・混合した場合、この脱塩素有機廃棄物中の水分を吸収するとともに、この脱塩素有機廃棄物の粒子間に空隙を形成し、通気性を確保することにより、発酵を促進する発酵促進材としての機能を有する。 The moisture adjusting material adjusts the moisture content of the total amount of the dechlorinated organic waste and the moisture adjusting material to 85% by mass or less by adding to the dechlorinated organic waste and stirring and mixing. Although it does not specifically limit as a material, In consideration of adjusting the moisture content of the dechlorination organic waste containing a high fiber livestock excrement, a fibrous moisture adjustment material is preferable.
The fiber moisture conditioning material itself has high water absorption, and when added to and mixed with dechlorinated organic waste, it absorbs moisture in the dechlorinated organic waste and this dechlorinated organic waste. By forming voids between these particles and ensuring air permeability, it has a function as a fermentation promoting material that promotes fermentation.

なお、水分調整材を添加した脱塩素有機廃棄物をヒータを用いて乾燥または加熱乾燥すれば、脱塩素有機廃棄物の含水率調整を速やかかつ効率的に行うことができる。   If the dechlorinated organic waste to which the moisture adjusting material is added is dried or heat-dried using a heater, the moisture content of the dechlorinated organic waste can be adjusted quickly and efficiently.

この含水率を85質量%以下に調整した脱塩素有機廃棄物を発酵設備22に投入し、開放状態で発酵させる。
発酵設備22として直線型開放式発酵槽を用いた場合、脱塩素有機廃棄物を撹拌しながら発酵させることにより、この発酵熱により乾燥し、含水率が低下する。 所定時間、撹拌を行った後、この低含水率の脱塩素有機廃棄物に、さらに、含水率を85質量%以下に調整した新たな脱塩素有機廃棄物を投入し、撹拌しながら発酵させる。
これにより、発酵設備22に貯留された脱塩素有機廃棄物は、撹拌・混合により水分調整が行われ、その結果、発酵が促進されることとなる。
以上により、塩素濃度が4000ppm以下かつ含水率が35質量%以下の乾燥脱塩素有機廃棄物が得られる。 The dechlorinated organic waste whose water content is adjusted to 85% by mass or less is charged into the fermentation facility 22 and fermented in an open state.
When a linear open fermenter is used as the fermentation facility 22, the dechlorinated organic waste is fermented while being stirred, so that it is dried by the heat of fermentation and the water content is reduced. After stirring for a predetermined time, a new dechlorinated organic waste whose water content is adjusted to 85% by mass or less is further added to this low moisture content dechlorinated organic waste and fermented while stirring.
Thereby, the dechlorinated organic waste stored in the fermentation facility 22 is subjected to moisture adjustment by stirring and mixing, and as a result, fermentation is promoted.
As described above, a dry dechlorinated organic waste having a chlorine concentration of 4000 ppm or less and a moisture content of 35% by mass or less is obtained.

この乾燥脱塩素有機廃棄物を乾燥装置23に投入し、自然エネルギーを用いて乾燥または加熱乾燥を施すことにより、発酵熱のみを用いた乾燥脱塩素有機廃棄物と比べて高位の発熱量を有する乾燥脱塩素有機廃棄物を得ることができる。この乾燥脱塩素有機廃棄物は、燃焼効率がより高いバイオマス燃料として有効利用することが可能である。   This dry dechlorinated organic waste is put into the drying device 23 and dried or heated and dried using natural energy, so that it has a higher calorific value than dry dechlorinated organic waste using only fermentation heat. Dry dechlorinated organic waste can be obtained. This dry dechlorinated organic waste can be effectively used as a biomass fuel with higher combustion efficiency.

この乾燥脱塩素有機廃棄物は、単に乾燥しただけでは、球状、塊状、板状等、比較的大きな形状をしていることが多い。用途によってはこのままの形状でもよいが、セメント焼成設備等にて用いる場合等では、燃焼効率を向上させるために、粉砕機24を用いて分級、粉砕、解砕のいずれか1つまたは2つ以上を行い、直径10mm以下の粒子状とする。
発酵設備22または粉砕機24から取り出される乾燥脱塩素有機廃棄物は、保管庫25に搬入され、仕様別や品種別に選別され、保管される。 The dry dechlorinated organic waste often has a relatively large shape such as a spherical shape, a lump shape, or a plate shape when it is simply dried. Depending on the application, the shape may be used as it is. However, when used in cement firing facilities, etc., any one or more of classification, pulverization, and pulverization may be performed using a pulverizer 24 in order to improve combustion efficiency. To form particles having a diameter of 10 mm or less.
The dried and dechlorinated organic waste taken out from the fermentation facility 22 or the pulverizer 24 is carried into the storage 25 and sorted and stored according to specifications and varieties.

このようにして得られた乾燥脱塩素有機廃棄物は、塩素濃度が4000ppm以下と極めて低く、かつ含水率も35質量%以下と低いので、高位の発熱量を有する乾燥脱塩素有機廃棄物を容易かつ安価に得ることができる。したがって、この乾燥脱塩素有機廃棄物を燃焼効率が高いバイオマス燃料として有効利用することができる。
このようにして得られた乾燥脱塩素有機廃棄物は、高位の発熱量を有しているので、セメント焼成設備のセメントキルンの窯尻部等に投入することによりセメント焼成用燃料として有効利用することができる。 The dry dechlorinated organic waste thus obtained has an extremely low chlorine concentration of 4000 ppm or less and a low moisture content of 35% by mass or less. Therefore, it is easy to obtain dry dechlorinated organic waste having a high calorific value. And it can be obtained at a low cost. Therefore, this dry dechlorinated organic waste can be effectively used as a biomass fuel with high combustion efficiency.
Since the dry dechlorinated organic waste obtained in this way has a high calorific value, it can be effectively used as a cement firing fuel by putting it in the kiln bottom of a cement kiln of a cement firing facility. be able to.

なお、発酵設備22に導入した脱塩素有機廃棄物の発酵を途中で停止し、この発酵が停止された脱塩素有機廃棄物を、乾燥または加熱乾燥させることによっても、塩素濃度が4000ppm以下かつ含水率が35質量%以下の乾燥脱塩素有機廃棄物を得ることができる。   In addition, fermentation of the dechlorinated organic waste introduced into the fermentation facility 22 is stopped on the way, and the dechlorinated organic waste whose fermentation has been stopped is dried or heat-dried. Dry dechlorinated organic waste having a rate of 35% by mass or less can be obtained.

本実施形態のバイオマス燃料は、上記の高繊維質の家畜***物を含有する含水有機廃棄物に含まれる塩素、塩素化合物のうちのいずれか一方または双方を除去して脱塩素有機廃棄物とし、この脱塩素有機廃棄物を発酵してなるバイオマス燃料であり、その塩素濃度は4000ppm以下が好ましく、より好ましくは3000ppm以下、さらに好ましくは2000ppm以下である。
また、含水率は35質量%以下が好ましく、より好ましくは30質量%以下、さらに好ましくは20質量%以下である。 The biomass fuel of this embodiment is a chlorine-free organic waste by removing either or both of chlorine and chlorine compounds contained in the water-containing organic waste containing the above high-fibre livestock excreta, It is a biomass fuel obtained by fermenting this dechlorinated organic waste, and its chlorine concentration is preferably 4000 ppm or less, more preferably 3000 ppm or less, and still more preferably 2000 ppm or less.
The moisture content is preferably 35% by mass or less, more preferably 30% by mass or less, and still more preferably 20% by mass or less.

このバイオマス燃料は、上記の含水有機廃棄物あるいは上記の含水有機廃棄物を含むスラリーまたは洗浄処理水に脱水処理を施して得られた脱塩素有機廃棄物に、乾燥または加熱乾燥、繊維質の水分調整材の添加、のいずれか一方または双方を施すことにより、含水率を85質量%以下に調整し、この含水率を調整した脱塩素有機廃棄物を発酵させ、必要に応じて分級、粉砕、解砕のいずれか1つまたは2つ以上を行い、塩素濃度が4000ppm以下かつ含水率が35質量%以下の乾燥脱塩素有機廃棄物とすることで、得ることができる。
なお、この乾燥脱塩素有機廃棄物を、例えば、ニーダー、ロールミル等の解砕手段を用いて直径10mm以下の粒子状に解砕すれば、燃焼効率が向上するので好ましい。 This biomass fuel is obtained by drying or heat-drying, fiber moisture to the dehydrated organic waste obtained by subjecting the above-mentioned water-containing organic waste, the slurry containing the above-mentioned water-containing organic waste, or washing water to dehydration treatment. By adding any one or both of the adjustment materials, the moisture content is adjusted to 85% by mass or less, the dechlorinated organic waste adjusted to this moisture content is fermented, and classified, pulverized, if necessary. It can be obtained by performing any one or two or more of crushing to obtain a dry dechlorinated organic waste having a chlorine concentration of 4000 ppm or less and a moisture content of 35 mass% or less.
It is preferable to crush the dried dechlorinated organic waste into particles having a diameter of 10 mm or less using a crushing means such as a kneader or a roll mill because the combustion efficiency is improved.

以上説明したように、本実施形態の含水有機廃棄物の燃料化方法によれば、高繊維質の家畜***物を含有する含水有機廃棄物、あるいは、この含水有機廃棄物を含むスラリーまたは洗浄処理水を脱水処理して得られた脱塩素有機廃棄物の含水率を85質量%以下に調整し、この含水率を調整した脱塩素有機廃棄物を発酵させて乾燥脱塩素有機廃棄物とするので、塩素濃度が4000ppm以下かつ含水率が35質量%以下であり、かつ高位の発熱量を有する乾燥脱塩素有機廃棄物を容易かつ安価に得ることができる。したがって、この乾燥脱塩素有機廃棄物を燃焼効率が高いバイオマス燃料として有効利用することができる。
また、塩素濃度が極めて低いので、燃焼装置等においても腐食や配管等の閉塞等のトラブルを防止することができる。また、この脱塩素有機廃棄物をセメント焼成設備に投入したとしても、セメントの操業や品質に悪影響を及ぼす虞が無い。 As described above, according to the method for fuelizing hydrous organic waste according to the present embodiment, hydrous organic waste containing high-fiber livestock excrement, or slurry or cleaning treatment containing the hydrous organic waste Since the moisture content of dechlorinated organic waste obtained by dehydrating water is adjusted to 85% by mass or less, and the dechlorinated organic waste adjusted to this moisture content is fermented to dry dechlorinated organic waste In addition, a dry dechlorinated organic waste having a chlorine concentration of 4000 ppm or less and a water content of 35% by mass or less and having a high calorific value can be obtained easily and inexpensively. Therefore, this dry dechlorinated organic waste can be effectively used as a biomass fuel with high combustion efficiency.
Further, since the chlorine concentration is extremely low, troubles such as corrosion and blockage of piping can be prevented even in a combustion apparatus or the like. Moreover, even if this dechlorinated organic waste is put into a cement firing facility, there is no possibility of adversely affecting cement operation and quality.

本実施形態のバイオマス燃料によれば、塩素濃度を4000ppm以下かつ含水率を35質量%以下としたので、燃焼装置等においても腐食や配管等の閉塞等のトラブルを防止することができ、このバイオマス燃料をセメント焼成設備に投入した場合においても、燃焼効率が低下する虞がなく、セメントの操業や品質に悪影響を及ぼす虞も無い。   According to the biomass fuel of the present embodiment, since the chlorine concentration is 4000 ppm or less and the water content is 35 mass% or less, troubles such as corrosion and blockage of piping etc. can be prevented even in a combustion apparatus, etc. Even when fuel is put into a cement firing facility, there is no possibility that the combustion efficiency is lowered, and there is no possibility that the operation and quality of the cement will be adversely affected.

[第2の実施の形態]
図2は、本発明の第2の実施形態の含水有機廃棄物の燃料化方法に用いられる脱塩・燃料化設備を示す模式図であり、図1と同一の構成要素については同一の符号を付し、説明を省略する。
図において、31は家畜***物を含む含水有機廃棄物を排出する排出源、32は燃料化設備である。 [Second Embodiment]
FIG. 2 is a schematic diagram showing a desalination / fuel conversion facility used in the method for fuelizing hydrous organic waste according to the second embodiment of the present invention. The same components as those in FIG. The description is omitted.
In the figure, 31 is a discharge source for discharging water-containing organic waste including livestock excrement, and 32 is a fueling facility.

ここで用いる含水有機廃棄物とは、例えば、豚糞尿、鶏糞尿等の家畜***物を含有する含水率が60質量%以上の有機廃棄物のことである。
この含水有機廃棄物は、スラリーまたは洗浄処理水の状態としても用いることができる。
このスラリーとしては、例えば、豚糞尿、鶏糞等の畜糞尿を所定量の水に投入し、撹拌したスラリーが好適である。
また、洗浄処理水としては、例えば、豚舎、鶏舎等の畜舎を水洗により洗浄した際に排出される豚糞尿、鶏糞等の畜糞尿と多量の洗浄水とを含む***物含有処理水等が挙げられる。
これらは、その用途や必要に応じて、1種のみ、または2種以上を混合して用いることができる。 The water-containing organic waste used here is, for example, organic waste containing 60% by mass or more of water containing livestock excreta such as pig manure and chicken manure.
This water-containing organic waste can also be used in the state of slurry or washing treated water.
As this slurry, for example, a slurry in which livestock manure such as pig manure and chicken manure is introduced into a predetermined amount of water and stirred is suitable.
Moreover, examples of the cleaning treatment water include excrement-containing treatment water containing swine manure such as pig manure, poultry manure, etc., and feces urine such as chicken manure and a large amount of washing water. It is done.
These can be used alone or in admixture of two or more as required.

排出源31は、上記の含水有機廃棄物、あるいは上記の含水有機廃棄物を含むスラリーまたは洗浄処理水を排出する源であり、例えば、豚の糞や尿を含む***物を水洗により洗浄した***物含有処理水を排出する豚舎、鶏の糞や尿を含む***物を水洗により洗浄した***物含有処理水を排出する鶏舎等が挙げられる。
これらの施設から排出される含水有機廃棄物、あるいは含水有機廃棄物を含むスラリーまたは洗浄処理水は、その用途によっては、2種類以上を混合してもよい。 The discharge source 31 is a source that discharges the above-mentioned water-containing organic waste, or the slurry containing the above-mentioned water-containing organic waste or the washing treated water. For example, the excretion obtained by washing the excrement containing pig feces and urine with water Examples include a piggery that discharges waste-containing treated water, and a chickenhouse that discharges excrement-containing treated water obtained by washing excreta containing chicken feces and urine with water.
Two or more kinds of water-containing organic waste discharged from these facilities, slurry containing water-containing organic waste, or washed water may be mixed depending on the application.

燃料化設備32は、脱塩設備2から送り出される脱塩素有機廃棄物を燃料化するための設備であり、脱塩素有機廃棄物に繊維質の水分調整材を添加することにより含水率を85質量%以下に調整する水分調整設備33と、発酵設備22と、乾燥装置23と、粉砕機24と、保管庫25とにより構成されている。
ここで、自然エネルギーを用いた乾燥とは、風力による乾燥等であり、また、自然エネルギーを用いた加熱乾燥とは、太陽熱による加熱乾燥、太陽熱及び風力を併用した加熱乾燥等である。 The fueling facility 32 is a facility for converting the dechlorinated organic waste sent from the desalination facility 2 into fuel, and the moisture content is 85 mass by adding a fibrous moisture adjusting material to the dechlorinated organic waste. % Moisture adjustment equipment 33, fermentation equipment 22, drying device 23, crusher 24, and storage 25.
Here, the drying using natural energy is drying by wind power or the like, and the heating drying using natural energy is heating drying by solar heat, heating drying using solar heat and wind power or the like.

水分調整設備33は、脱塩素有機廃棄物に繊維質の水分調整材を添加し撹拌することにより、この脱塩素有機廃棄物の含水率を85質量%以下に調整する設備であり、脱塩素有機廃棄物を貯留する槽と、この槽内の脱塩素有機廃棄物を撹拌する攪拌機と、脱塩素有機廃棄物を加熱するヒータとを備えている。   The moisture adjusting equipment 33 is a facility for adjusting the moisture content of the dechlorinated organic waste to 85% by mass or less by adding a fibrous moisture adjusting material to the dechlorinated organic waste and stirring it. A tank for storing waste, a stirrer for stirring the dechlorinated organic waste in the tank, and a heater for heating the dechlorinated organic waste are provided.

次に、家畜***物を含む含水有機廃棄物の燃料化方法について詳細に説明する。
排出源31から排出される上記の含水有機廃棄物、あるいは上記の含水有機廃棄物を含むスラリーまたは洗浄処理水を、脱塩設備2に投入して脱塩処理を施し、塩素濃度が4000ppm以下、好ましくは3000ppm以下であり、かつ含水率が90質量%以下の脱塩素有機廃棄物とする。
この脱塩設備2による脱塩処理は、第1の実施形態と全く同様である。 Next, a method for fueling hydrous organic waste containing livestock excreta will be described in detail.
The above-mentioned water-containing organic waste discharged from the discharge source 31 or the slurry containing the above-mentioned water-containing organic waste or the washing treated water is introduced into the desalination facility 2 to perform a desalting treatment, and the chlorine concentration is 4000 ppm or less, Preferably, it is a dechlorinated organic waste having a content of 3000 ppm or less and a water content of 90% by mass or less.
The desalting treatment by the desalting equipment 2 is exactly the same as in the first embodiment.

次いで、この脱塩素有機廃棄物を燃料化設備32に送り、水分調整設備33にて、繊維質の水分調整材を添加して撹拌し、その含水率を85質量%以下、好ましくは40質量%以上かつ80質量%以下、より好ましくは40質量%以上かつ75質量%以下に調整する。   Next, the dechlorinated organic waste is sent to the fueling facility 32, and the moisture adjusting device 33 is added with a fibrous moisture adjusting material and stirred. The moisture content is 85% by mass or less, preferably 40% by mass. It is adjusted to not less than 80% by mass and more preferably not less than 40% by mass and not more than 75% by mass.

繊維質の水分調整材は、それ自体が吸水性に富んでおり、脱塩素有機廃棄物に添加・混合した場合、この脱塩素有機廃棄物中の水分を吸収するとともに、この脱塩素有機廃棄物の粒子間に空隙を形成し、通気性を確保することにより、発酵を促進する発酵促進材としての機能を有する。   The fiber moisture conditioning material itself has high water absorption, and when added to and mixed with dechlorinated organic waste, it absorbs moisture in the dechlorinated organic waste and this dechlorinated organic waste. By forming voids between these particles and ensuring air permeability, it has a function as a fermentation promoting material that promotes fermentation.

繊維質の水分調整材としては、異方性を有するもの、例えば、アスペクト比(長さ/幅または厚み)が5以上のものが好ましく、バーク材、稲藁、牧草、籾殻、木屑等が挙げられる。これらの水分調整材は複数種組み合わせて用いることができる。
この水分調整材の塩素濃度は特に限定するものではないが、塩素濃度が4000ppm以下であれば、燃料として用いる場合に塩素濃度低減効果があるので好ましい。 As the fibrous moisture adjusting material, those having anisotropy, for example, those having an aspect ratio (length / width or thickness) of 5 or more are preferable, and examples thereof include bark materials, rice straw, grass, rice husks, and wood chips. It is done. These moisture adjusting materials can be used in combination of plural kinds.
The chlorine concentration of the moisture adjusting material is not particularly limited, but a chlorine concentration of 4000 ppm or less is preferable because it has a chlorine concentration reducing effect when used as a fuel.

なお、水分調整材を添加した脱塩素有機廃棄物をヒータを用いて乾燥または加熱乾燥すれば、脱塩素有機廃棄物の含水率調整を速やかかつ効率的に行うことができる。   If the dechlorinated organic waste to which the moisture adjusting material is added is dried or heat-dried using a heater, the moisture content of the dechlorinated organic waste can be adjusted quickly and efficiently.

この含水率を85質量%以下に調整した脱塩素有機廃棄物を発酵槽22に投入し、開放状態で発酵させる。
この発酵工程以降は、第1の実施形態と全く同様である。 The dechlorinated organic waste whose water content is adjusted to 85% by mass or less is charged into the fermenter 22 and fermented in an open state.
Subsequent to this fermentation step, the process is exactly the same as in the first embodiment.

このようにして得られた乾燥脱塩素有機廃棄物は、塩素濃度が4000ppm以下と極めて低く、かつ含水率も35質量%以下と低いので、高位の発熱量を有する乾燥脱塩素有機廃棄物を容易かつ安価に得ることができる。したがって、この乾燥脱塩素有機廃棄物を燃焼効率が高いバイオマス燃料として有効利用することができる。
このようにして得られた乾燥脱塩素有機廃棄物は、高位の発熱量を有しているので、セメント焼成設備のセメントキルンの窯尻部等に投入することによりセメント焼成用燃料として有効利用することができる。 The dry dechlorinated organic waste thus obtained has an extremely low chlorine concentration of 4000 ppm or less and a moisture content of 35% by mass or less, so that it is easy to use dry dechlorinated organic waste having a high calorific value. And it can be obtained at a low cost. Therefore, this dry dechlorinated organic waste can be effectively used as a biomass fuel with high combustion efficiency.
Since the dry dechlorinated organic waste obtained in this way has a high calorific value, it can be effectively used as a cement firing fuel by putting it in the kiln bottom of a cement kiln of a cement firing facility. be able to.

本実施形態のバイオマス燃料は、上記の家畜***物を含有する含水有機廃棄物に含まれる塩素および/または塩素化合物を除去して脱塩素有機廃棄物とし、この脱塩素有機廃棄物に繊維質の水分調整材を添加し、発酵してなるバイオマス燃料であり、その塩素濃度は4000ppm以下が好ましく、より好ましくは3000ppm以下、さらに好ましくは2000ppm以下である。
また、含水率は35質量%以下が好ましく、より好ましくは30質量%以下、さらに好ましくは20質量%以下である。 The biomass fuel of the present embodiment removes chlorine and / or chlorine compounds contained in the water-containing organic waste containing the livestock excrement to form dechlorinated organic waste, and the dechlorinated organic waste contains fibrous material. It is a biomass fuel obtained by adding a moisture adjusting material and fermenting, and its chlorine concentration is preferably 4000 ppm or less, more preferably 3000 ppm or less, and still more preferably 2000 ppm or less.
The moisture content is preferably 35% by mass or less, more preferably 30% by mass or less, and still more preferably 20% by mass or less.

このバイオマス燃料は、上記の含水有機廃棄物あるいは上記の含水有機廃棄物を含むスラリーまたは洗浄処理水に脱水処理を施して得られた脱塩素有機廃棄物に繊維質の水分調整材を添加することにより、含水率を85質量%以下に調整し、この含水率を調整した脱塩素有機廃棄物を発酵させ、必要に応じて分級、粉砕、解砕のいずれか1つまたは2つ以上を行い、塩素濃度が4000ppm以下かつ含水率が35質量%以下の乾燥脱塩素有機廃棄物とすることで、得ることができる。
なお、この乾燥脱塩素有機廃棄物を、例えば、ニーダー、ロールミル等の解砕手段を用いて直径10mm以下の粒子状に解砕すれば、燃焼効率が向上するので好ましい。 This biomass fuel is obtained by adding a fibrous moisture adjusting material to the dechlorinated organic waste obtained by dehydrating the above-mentioned water-containing organic waste, the slurry containing the above-mentioned water-containing organic waste, or the washed water. By adjusting the moisture content to 85% by mass or less, fermenting the dechlorinated organic waste with this moisture content adjusted, performing any one or more of classification, pulverization, and crushing as necessary, It can be obtained by using a dry dechlorinated organic waste having a chlorine concentration of 4000 ppm or less and a water content of 35% by mass or less.
It is preferable to crush the dried dechlorinated organic waste into particles having a diameter of 10 mm or less using a crushing means such as a kneader or a roll mill because the combustion efficiency is improved.

本実施形態においても、第1の実施形態と同様の効果を奏することができる。
しかも、脱塩素有機廃棄物に繊維質の水分調整材を添加して撹拌することにより、発酵を促進させることができる。 In this embodiment, the same effect as that of the first embodiment can be obtained.
Moreover, fermentation can be promoted by adding a fibrous moisture regulator to the dechlorinated organic waste and stirring.

以下、実施例及び比較例により本発明を具体的に説明するが、本発明はこれらの実施例により限定されるものではない。   EXAMPLES Hereinafter, although an Example and a comparative example demonstrate this invention concretely, this invention is not limited by these Examples.

(実施例1)
含水率90質量%、塩素濃度8000ppmの牛糞100kg及び脱塩処理を施した上水道水100Lを含むスラリーを、脱水機を用いて脱水し、含水率75質量%、塩素濃度1260ppmのケーキ状の脱塩素牛糞40kgを得た。
次いで、この脱塩素牛糞を直線型開放式発酵槽に投入し、発酵熱を用いて乾燥し、乾燥脱塩素牛糞を得た。この乾燥脱塩素牛糞の塩素濃度は1260ppm、含水率は20質量%であった。
また、この乾燥脱塩素牛糞をセメント焼成設備のセメントキルンの窯前部の燃焼バーナーより吹き込み、燃焼させたところ、セメントキルンの燃焼効率が低下することはなく、セメントの操業や品質に影響は無かった。 Example 1
A slurry containing 100 kg of cow dung having a water content of 90 mass% and a chlorine concentration of 8000 ppm and 100 L of tap water subjected to desalination is dehydrated using a dehydrator, and a cake-like dechlorination having a moisture content of 75 mass% and a chlorine concentration of 1260 ppm is obtained. 40 kg of cow dung was obtained.
Next, this dechlorinated cow dung was put into a linear open fermenter and dried using fermentation heat to obtain dry dechlorinated cow dung. The dry dechlorinated cow dung had a chlorine concentration of 1260 ppm and a water content of 20% by mass.
Also, when this dry dechlorinated cow dung was blown from the combustion burner at the front of the kiln of the cement kiln of the cement firing equipment and burned, the combustion efficiency of the cement kiln was not reduced and the cement operation and quality were not affected. It was.

(実施例2)
含水率95質量%、塩素濃度7000ppmの牛糞100kgを、脱水機を用いて脱水し、含水率75質量%、塩素濃度1100ppmのケーキ状の脱塩素牛糞20kgを得た。
次いで、この脱塩素牛糞を直線型開放式発酵槽に投入し、発酵熱を用いて乾燥し、乾燥脱塩素牛糞を得た。この乾燥脱塩素牛糞の塩素濃度は1100ppm、含水率は25質量%であった。 (Example 2)
100 kg of cow dung having a moisture content of 95% by mass and a chlorine concentration of 7000 ppm was dehydrated by using a dehydrator to obtain 20 kg of cake-like dechlorinated cow dung having a moisture content of 75% by mass and a chlorine concentration of 1100 ppm.
Next, this dechlorinated cow dung was put into a linear open fermenter and dried using fermentation heat to obtain dry dechlorinated cow dung. The dry dechlorinated cow dung had a chlorine concentration of 1100 ppm and a water content of 25% by mass.

また、この乾燥脱塩素牛糞を解砕機で解砕し、次いで分級して、平均粒径が2mmの顆粒状としたのち、セメント焼成設備のセメントキルンの窯前部の燃焼バーナーより吹き込み、燃焼させたところ、セメントキルンの燃焼効率が低下することはなく、セメントの操業や品質に影響は無かった。   The dry dechlorinated cow dung is crushed with a crusher, then classified into granules with an average particle size of 2 mm, and then blown and burned from the combustion burner at the front of the cement kiln of the cement firing facility. As a result, the combustion efficiency of the cement kiln was not reduced, and the operation and quality of the cement were not affected.

(実施例3)
含水率90質量%、塩素濃度6500ppmの豚糞100kg及び脱塩処理を施した上水道水50Lを含むスラリーを、脱水機を用いて脱水し、含水率80質量%、塩素濃度1860ppmのケーキ状の脱塩素豚糞50kgを得た。
次いで、この脱塩素豚糞に、水分調整材として粉砕処理バーク材(含水率45%)10kgを撹拌・混合し、含水率74質量%、塩素濃度1200ppmの脱塩素豚糞60kgを得た。
次いで、この脱塩素豚糞を直線型開放式発酵槽に投入し、発酵熱を用いて乾燥し、乾燥脱塩素豚糞を得た。この乾燥脱塩素豚糞の塩素濃度は1200ppm、含水率は40質量%であった。 (Example 3)
A slurry containing 100 kg of pig feces having a water content of 90% by mass and a chlorine concentration of 6500 ppm and 50 L of tap water subjected to desalination is dehydrated by using a dehydrator, and the cake is removed with a water content of 80% by mass and a chlorine concentration of 1860 ppm. 50 kg of chlorine pig feces was obtained.
Subsequently, 10 kg of pulverized bark material (water content 45%) as a moisture adjusting material was agitated and mixed with this dechlorinated pork droppings to obtain 60 kg of dechlorinated pork droppings having a moisture content of 74 mass% and a chlorine concentration of 1200 ppm.
Next, this dechlorinated pork droppings was put into a linear open fermenter and dried using fermentation heat to obtain dry dechlorinated pork droppings. The dry dechlorinated pig feces had a chlorine concentration of 1200 ppm and a water content of 40% by mass.

さらに、この乾燥脱塩素豚糞を天日乾燥にて乾燥させ、塩素濃度1200ppm、含水率25質量%の乾燥脱塩素豚糞を得た。
また、この乾燥脱塩素豚糞をセメント焼成設備のセメントキルンの窯前部の燃焼バーナーより吹き込み、燃焼させたところ、セメントキルンの燃焼効率が低下することはなく、セメントの操業や品質に影響は無かった。 Furthermore, this dry dechlorinated pork droppings was dried by sun drying to obtain dry dechlorinated pork droppings having a chlorine concentration of 1200 ppm and a water content of 25% by mass.
Also, when this dry dechlorinated pork manure was blown from the combustion burner at the front of the kiln of the cement kiln of the cement firing facility and burned, the combustion efficiency of the cement kiln was not reduced, and the cement operation and quality were not affected. There was no.

(比較例)
含水率80質量%、塩素濃度8000ppmの豚糞100kg及び脱塩処理を施した上水道水300Lを含むスラリーを、脱水機を用いて脱水し、含水率95質量%のケーキ状の脱塩素豚糞を得た。
次いで、この脱塩素豚糞を、乾燥器に搬入し、太陽熱及び風力を用いて天日乾燥を行った。得られた乾燥脱塩素豚糞の塩素濃度は5200ppm、含水率は50質量%であった。
また、この乾燥脱塩素豚糞をセメント焼成設備のセメントキルンの窯前部の燃焼バーナーより吹き込み、燃焼させたところ、セメントキルンの燃焼効率が低下し、得られたセメントの塩素濃度も高く、セメントの操業や品質に大きな影響があった。 (Comparative example)
A slurry containing 100 kg of pig feces having a water content of 80% by mass and a chlorine concentration of 8000 ppm and 300 L of tap water having been desalted is dehydrated using a dehydrator, and cake-like dechlorinated pork feces having a moisture content of 95% by mass is obtained. Obtained.
Next, the dechlorinated pork droppings were carried into a dryer and sun-dried using solar heat and wind power. The obtained dry dechlorinated pork feces had a chlorine concentration of 5200 ppm and a water content of 50% by mass.
In addition, when this dry dechlorinated pork dung was blown from the combustion burner at the front of the kiln of the cement kiln of the cement firing equipment and burned, the combustion efficiency of the cement kiln decreased, the resulting cement had a high chlorine concentration, There was a big impact on the operation and quality of the.

本発明の第1の実施形態の含水有機廃棄物の燃料化方法に用いられる脱塩・燃料化設備を示す模式図である。It is a schematic diagram which shows the desalination and fuel conversion equipment used for the fuel conversion method of the water-containing organic waste of the 1st Embodiment of this invention. 本発明の第2の実施形態の含水有機廃棄物の燃料化方法に用いられる脱塩・燃料化設備を示す模式図である。It is a schematic diagram which shows the desalination and fuel conversion equipment used for the fuel conversion method of the water-containing organic waste of the 2nd Embodiment of this invention.

符号の説明Explanation of symbols

1 排出源
2 脱塩設備
3 燃料化設備
11 1次槽
12 1次固液分離器
13 調整槽
14 1次曝気槽
15 2次固液分離器
16 2次曝気槽
17 膜浸漬槽
18 脱水処理装置
19 処理水受槽
21 水分調整設備
22 発酵槽
23 乾燥装置
24 粉砕機
25 保管庫
31 排出源
32 燃料化設備
33 水分調整設備 DESCRIPTION OF SYMBOLS 1 Discharge source 2 Desalination equipment 3 Fuelization equipment 11 Primary tank 12 Primary solid-liquid separator 13 Adjustment tank 14 Primary aeration tank 15 Secondary solid-liquid separator 16 Secondary aeration tank 17 Membrane immersion tank 18 Dehydration processing equipment 19 Treated Water Receiving Tank 21 Moisture Conditioning Equipment 22 Fermenter 23 Drying Device 24 Crusher 25 Storage Room 31 Discharge Source 32 Fueling Equipment 33 Moisture Conditioning Equipment

Claims (8)

高繊維質の家畜***物を含有する含水有機廃棄物を燃料化するための方法であって、
前記含水有機廃棄物、あるいは前記含水有機廃棄物を含むスラリーまたは洗浄処理水に、脱水処理を施すことにより、この含水有機廃棄物に含まれる塩素、塩素化合物のうちのいずれか一方または双方を除去して脱塩素有機廃棄物とし、
次いで、この脱塩素有機廃棄物に、乾燥または加熱乾燥、水分調整材の添加、のいずれか一方または双方を施すことにより、含水率を85質量%以下に調整し、
次いで、この含水率を調整した脱塩素有機廃棄物を発酵させ、発酵過程にて発生する発酵熱を用いて塩素濃度が4000ppm以下かつ含水率が35質量%以下の乾燥脱塩素有機廃棄物とすることを特徴とする含水有機廃棄物の燃料化方法。 A method for fueling hydrous organic waste containing high fiber livestock waste,
By dehydrating the water-containing organic waste, or the slurry or washed water containing the water-containing organic waste, either or both of chlorine and chlorine compounds contained in the water-containing organic waste are removed. Dechlorinated organic waste,
Next, the moisture content is adjusted to 85% by mass or less by subjecting the dechlorinated organic waste to either or both of drying or heat drying and addition of a moisture adjusting material.
Subsequently, the dechlorinated organic waste adjusted in moisture content is fermented, and dried dechlorinated organic waste having a chlorine concentration of 4000 ppm or less and a moisture content of 35% by mass or less using the heat of fermentation generated in the fermentation process. A method for converting water-containing organic waste into fuel. 家畜***物を含有する含水有機廃棄物を燃料化するための方法であって、
前記含水有機廃棄物、あるいは前記含水有機廃棄物を含むスラリーまたは洗浄処理水に、脱水処理を施すことにより、この含水有機廃棄物に含まれる塩素、塩素化合物のうちのいずれか一方または双方を除去して脱塩素有機廃棄物とし、
次いで、この脱塩素有機廃棄物に繊維質の水分調整材を添加することにより、含水率を85質量%以下に調整し、
次いで、この含水率を調整した脱塩素有機廃棄物を発酵させ、発酵過程にて発生する発酵熱を用いて塩素濃度が4000ppm以下かつ含水率が35質量%以下の乾燥脱塩素有機廃棄物とすることを特徴とする含水有機廃棄物の燃料化方法。 A method for fueling hydrous organic waste containing livestock waste,
By dehydrating the water-containing organic waste, or the slurry or washed water containing the water-containing organic waste, either or both of chlorine and chlorine compounds contained in the water-containing organic waste are removed. Dechlorinated organic waste,
Next, by adding a fibrous moisture adjusting material to this dechlorinated organic waste, the moisture content is adjusted to 85% by mass or less,
Subsequently, the dechlorinated organic waste adjusted in moisture content is fermented, and dried dechlorinated organic waste having a chlorine concentration of 4000 ppm or less and a moisture content of 35% by mass or less using the heat of fermentation generated in the fermentation process. A method for converting water-containing organic waste into fuel. 前記含水有機廃棄物は、含水率が60%以上の高含水率有機廃棄物であることを特徴とする請求項1または2記載の含水有機廃棄物の燃料化方法。   3. The method for fuelizing hydrous organic waste according to claim 1, wherein the hydrous organic waste is high moist organic waste having a moisture content of 60% or more. 前記水分調整材は、繊維質の水分調整材であることを特徴とする請求項1記載の含水有機廃棄物の燃料化方法。   The water-containing organic waste fueling method according to claim 1, wherein the moisture adjusting material is a fibrous moisture adjusting material. 前記脱塩素有機廃棄物を発酵させた後、この発酵した脱塩素有機廃棄物を乾燥または加熱乾燥させ、塩素濃度が4000ppm以下かつ含水率が35質量%以下の乾燥脱塩素有機廃棄物とすることを特徴とする請求項1ないし4のいずれか1項記載の含水有機廃棄物の燃料化方法。   After fermenting the dechlorinated organic waste, the fermented dechlorinated organic waste is dried or heat-dried to obtain a dry dechlorinated organic waste having a chlorine concentration of 4000 ppm or less and a water content of 35% by mass or less. The method for fuelizing hydrous organic waste according to any one of claims 1 to 4. 前記脱塩素有機廃棄物を乾燥または加熱乾燥した後に、分級、粉砕、解砕のいずれか1つまたは2つ以上を行うことを特徴とする請求項1ないし5のいずれか1項記載の含水有機廃棄物の燃料化方法。   The water-containing organic material according to any one of claims 1 to 5, wherein after the dechlorinated organic waste is dried or heat-dried, any one or more of classification, pulverization, and pulverization is performed. Waste fueling method. 高繊維質の家畜***物を含有する含水有機廃棄物に含まれる塩素、塩素化合物のうちのいずれか一方または双方を除去して脱塩素有機廃棄物とし、この脱塩素有機廃棄物を発酵してなるバイオマス燃料であって、
塩素濃度が4000ppm以下かつ含水率が35質量%以下であることを特徴とするバイオマス燃料。 Either or both of chlorine and chlorine compounds contained in hydrous organic waste containing high-fibre livestock excreta are removed to make dechlorinated organic waste, and this dechlorinated organic waste is fermented. A biomass fuel,
A biomass fuel having a chlorine concentration of 4000 ppm or less and a water content of 35 mass% or less. 家畜***物を含有する含水有機廃棄物に含まれる塩素、塩素化合物のうちのいずれか一方または双方を除去して脱塩素有機廃棄物とし、この脱塩素有機廃棄物に繊維質の水分調整材を添加し、発酵してなるバイオマス燃料であって、
塩素濃度が4000ppm以下かつ含水率が35質量%以下であることを特徴とするバイオマス燃料。 Either or both of chlorine and chlorine compounds contained in water-containing organic waste containing livestock excrement are removed to make dechlorinated organic waste, and fiber moisture conditioner is added to this dechlorinated organic waste. A biomass fuel that is added and fermented,
A biomass fuel having a chlorine concentration of 4000 ppm or less and a water content of 35 mass% or less.
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