阅读说明：本技术 一种以猪粪为原料制备高品质生物油的方法 (method for preparing high-quality bio-oil by taking pig manure as raw material ) 是由 方俊 刘壮壮 肖智华 栾辉 于 2019-09-09 设计创作，主要内容包括：本发明提供一种以猪粪为原料制备高品质生物油的方法,具体如下：将新鲜猪粪干化,加入猪粪原料重量5～10％的重金属稳定剂粉碎、过筛得粉末状混合物料；接着将粉末状混合物料与液化溶剂按照固液比为0.05～0.150g/mL,溶剂填充率为10～30％加入反应釜中；设定反应釜压力为10～15MPa,液化温度为220℃～300℃；反应釜加热升温,温度达到设定液化温度时停留30～60min,反应结束停止加热,冷却至室温；然后固液分离得液化产物,最后将液化产物放入旋转蒸发仪制得高品质生物油。本发明通过亚/超临界液化处理猪粪制备生物油,能实现猪粪的无害化、资源化处理,通过添加重金属稳定剂实现猪粪中活性态的重金属向相对稳定形态的重金属转化,降低重金属的生态毒性和生物有效性。(The invention provides a method for preparing high-quality bio-oil by taking pig manure as a raw material, which comprises the following steps: drying fresh pig manure, adding a heavy metal stabilizer accounting for 5-10% of the weight of the raw material of the pig manure, crushing and sieving to obtain a powdery mixed material; then adding the powdery mixed material and a liquefied solvent into a reaction kettle according to a solid-liquid ratio of 0.05-0.150 g/mL and a solvent filling rate of 10-30%; setting the pressure of a reaction kettle to be 10-15 MPa and the liquefaction temperature to be 220-300 ℃; heating the reaction kettle, keeping the reaction kettle at the preset liquefaction temperature for 30-60 min, stopping heating after the reaction is finished, and cooling to room temperature; then the solid-liquid separation is carried out to obtain a liquefied product, and finally the liquefied product is put into a rotary evaporator to prepare the high-quality bio-oil. According to the invention, the biological oil is prepared by treating the pig manure through sub/supercritical liquefaction, so that the harmless and recycling treatment of the pig manure can be realized, the conversion of the active heavy metal in the pig manure to the relatively stable heavy metal is realized by adding the heavy metal stabilizer, and the ecological toxicity and the biological effectiveness of the heavy metal are reduced.)

1. a method for preparing high-quality bio-oil by taking pig manure as a raw material is characterized by comprising the following steps:

a. Drying fresh pig manure to a certain moisture content, adding a heavy metal stabilizer accounting for 5-10% of the weight of the raw material of the pig manure, crushing and sieving to obtain a powdery mixed material;

b. Adding the powdery mixed material and a liquefied solvent into a reaction kettle according to a solid-liquid ratio of 0.05-0.150 g/mL and a solvent filling rate of 10-30%; setting the pressure of a reaction kettle to be 10-15 MPa and the liquefaction temperature to be 220-300 ℃; heating the reaction kettle, keeping the reaction kettle at the preset liquefaction temperature for 30-60 min, stopping heating after the reaction is finished, and cooling to room temperature;

c. c, carrying out solid-liquid separation on the solid-liquid mixture obtained by the reaction kettle treatment in the step b to obtain a solid product and a liquefied product;

d. And c, putting the liquefied product obtained by separation in the step c into a rotary evaporator, and removing the organic solvent and the water phase product in the liquefied product to obtain the high-quality bio-oil.

2. The method for preparing high-quality bio-oil from pig manure as a raw material according to claim 1,

The method further comprises the steps of: e. and c, carrying out BCR continuous extraction analysis, XRD analysis and heavy metal environment risk assessment on the solid product obtained by separation in the step c.

3. The method for preparing high-quality bio-oil using pig manure as a raw material according to claim 1 or 2,

And c, performing vacuum filtration by using a circulating water type multipurpose vacuum pump to realize solid-liquid separation.

4. The method for preparing high-quality bio-oil using pig manure as a raw material according to claim 1 or 2,

the water content of the pig manure in the step a is below 10%.

5. The method for preparing high-quality bio-oil using pig manure as a raw material according to claim 1 or 2,

in the step b, the liquefied solvent is absolute ethyl alcohol or ethyl acetate.

6. the method for preparing high-quality bio-oil using pig manure as a raw material according to claim 1 or 2,

in the step b, a magnetic stirrer is arranged in the reaction kettle, and the stirring speed is 60-80 r/min.

7. the method for preparing high-quality bio-oil using pig manure as a raw material according to claim 1 or 2,

In the step b, the addition amount of the heavy metal stabilizer is 10% of the total amount of the pig manure raw material.

8. The method for preparing high-quality bio-oil using pig manure as a raw material according to claim 1 or 2,

in the step d, the rotating speed of the rotary evaporator is 60-110 rpm.

9. The method for preparing high-quality bio-oil using pig manure as a raw material according to claim 1 or 2,

in the step b, the solvent filling rate is 15 percent; the solid-liquid ratio of the pig manure raw material to the liquefied solvent is 0.05 g/mL.

10. The method for preparing high-quality bio-oil using pig manure as a raw material according to claim 1 or 2,

In step b, the liquefaction temperature was 220 ℃.

Technical Field

The invention relates to the technical field of pig manure treatment, in particular to a method for preparing high-quality bio-oil by taking pig manure as a raw material.

background

The pig raising industry is always an important industry in animal husbandry, pork is one of the favorite meat of Chinese people, the pork yield accounts for about 65% of the national meat yield every year, the pig raising industry is continuously increased in scale and the discharge amount of pig manure is continuously increased under the condition of meeting the increasing demand of people on pork. According to relevant statistical estimates, the discharge of excrement (including urine) reaches 65.54 hundred million tons in 2015 year, wherein the discharge of pig manure is 35.61 million tons, and accounts for about 54 percent of the total discharge. In order to prevent and treat animal diseases, promote growth, and improve feed utilization, some trace elements, such as copper and zinc, have been widely added to animal feeds. The use of these feed additives greatly improves the growth conditions of the animals and also brings about enormous revenues. However, since heavy metals such as copper and zinc are not completely absorbed by animals, more than 95% of the heavy metals are excreted through urine and feces. If a large amount of excrement and urine is handled improperly, heavy metal flows into soil along with surface water, permeates into the groundwater, and long-term accumulation easily causes heavy metal pollution to destroy ecological environment.

the utilization mode of the pig manure mainly comprises organic fattening, feed conversion and energy conversion, wherein the application in the energy conversion aspect is relatively mature. The pig manure contains a large amount of undigested organic matters and mineral matters, and the pig manure and the straws and the like can be mixed according to a certain proportion under a certain condition for composting treatment to produce a high-quality organic fertilizer source; after the pig manure is fermented, the pig manure is put into a maggot raising pool to raise maggots, and the product of the pig manure feed can also be used for feeding fishes. The research on the anaerobic fermentation of the pig manure or the mixture of the pig manure and other biomass is more, the application of the pig manure in the energy field mainly utilizes the characteristic of relatively high carbon-hydrogen content, and related research indicates that the volatile content and the calorific value of the pig manure are close to those of straws, so that the pig manure is very suitable for thermochemistry utilization. Therefore, the resource utilization of the livestock and poultry manure, especially the pig manure, has important significance for the sustainable development of the society. In recent years, thermochemical liquefaction technology is rapidly developed, researches on preparation of bio-oil from biomass are gradually developed, and researches on preparation of bio-oil by direct liquefaction of pig manure are not developed yet. If the pig manure can be converted into a fuel substitute with potential value, the gradual exhaustion of the traditional fossil energy is a good signal.

The biomass liquefaction is a process of generating biomass oil by complex thermochemical reaction of biomass and a liquid medium under the conditions of high temperature and high pressure, and the biomass liquefaction technology comprises two aspects of thermal cracking and direct liquefaction. As for the thermal cracking technology, extensive and intensive research is carried out at home and abroad, but the oil bath thermal cracking conditions are harsh, the heating rate is high, and the reaction retention time is short. Compared with thermal cracking, the conditions of direct liquefaction technology are relatively mild, and therefore, in recent years, the conditions become hot spots of biomass liquefaction technology.

Because the biomass liquefaction is to degrade macromolecular substances in the biomass into small molecular fragments with high reaction activity and instability under certain conditions, and because the small molecules are unstable and high in activity, the small molecules can be polymerized again to form liquid oily compounds with relatively large molecular mass, and thus, the pig manure can be converted into bio-oil products under certain conditions by using a biomass liquefaction technology. Compared with the pyrolysis treatment of pig manure, the direct liquefaction treatment process of biomass is generally carried out under high pressure, and the biomass raw material can be directly liquefied without being dried. Just because the biomass can be converted into high-quality liquid fuel under certain conditions by using a biomass direct liquefaction technology, the liquid fuel is also a chemical product with certain value after being analyzed by a GC-MS (Gas Chromatography-Mass Spectrometry). Therefore, the pig manure with huge discharge in the breeding industry is used as a raw material to prepare a valuable and potential bio-oil product, so that not only can a valuable reference be provided for further researching fossil energy substitutes in the later period, the dependence on fossil energy is reduced, but also the ecological environment problem caused by the pig manure can be effectively solved. Therefore, the related technology for treating pig manure by directly liquefying biomass is also receiving more and more attention, but the requirements of the biomass liquefying technology on equipment and operating conditions are higher, and the biomass liquefying technology is still in the beginning stage at present.

Comparing files: CN102021048A discloses a biomass liquefaction method under the coupling action of subcritical/supercritical cyclohexane and a molecular sieve. The method takes subcritical/supercritical cyclohexane as a medium and a molecular sieve catalyst containing a zeolite component as a catalyst, and biomass, cyclohexane and the molecular sieve catalyst containing the zeolite component react under the conditions that the temperature is 285-330 ℃ and the pressure is 1.7-4.2 Mpa to prepare the biomass oil. The biomass is straw, trees, pasture, rice hull, plant seeds, bagasse, sawdust, wood chips, seaweed, garbage, livestock and poultry manure or any mixture thereof. It discloses a method for realizing high-efficiency conversion of biomass by utilizing the coupling effect of a cyclohexane solvent and a molecular sieve catalyst under a subcritical or supercritical condition.

Disclosure of Invention

The technical problem to be solved by the invention is to provide a method for preparing high-quality bio-oil by taking pig manure as a raw material, the method can be used for preparing high-quality bio-oil by performing sub/supercritical liquefaction treatment on the pig manure, so that harmless and recycling treatment on the pig manure is realized, and the conversion of active heavy metals (Pb, Zn, Cu, Mn, Ni, Cd and Cr) in the pig manure to heavy metals in a relatively stable form can be realized by adding a heavy metal stabilizer, so that the pollution hazard of the heavy metals is obviously reduced, the plant absorbability of the heavy metals is reduced, the ecological toxicity and the bioavailability of the heavy metals are reduced, and the quality of the bio-oil is improved.

In order to solve the technical problems, the invention adopts the following technical scheme:

The method for preparing the high-quality bio-oil by taking the pig manure as the raw material comprises the following steps:

a. Drying fresh pig manure to a certain moisture content, adding a heavy metal stabilizer accounting for 5-10% of the weight of the raw material of the pig manure, crushing and sieving to obtain a powdery mixed material;

b. adding the powdery mixed material and a liquefied solvent into a reaction kettle according to a solid-liquid ratio of 0.05-0.15 g/mL and a solvent filling rate of 10-30%; setting the pressure of a reaction kettle to be 10-15 MPa and the liquefaction temperature to be 220-300 ℃; heating the reaction kettle, keeping the reaction kettle at the preset liquefaction temperature for 30-60 min, stopping heating after the reaction is finished, and cooling to room temperature;

c. C, carrying out solid-liquid separation on the solid-liquid mixture obtained by the reaction kettle treatment in the step b to obtain a solid product and a liquefied product;

d. And c, putting the liquefied product obtained by separation in the step c into a rotary evaporator, and removing the organic solvent and the water phase product in the liquefied product to obtain the high-quality bio-oil.

Further, the air conditioner is provided with a fan,

The method further comprises the steps of: e. and c, carrying out BCR (BCR) continuous extraction analysis, XRD (X-ray diffraction, X-ray diffractometer technology) analysis and heavy metal environment risk assessment on the solid product obtained by separation in the step c.

Further, the air conditioner is provided with a fan,

and c, performing vacuum filtration by using a circulating water type multipurpose vacuum pump to realize solid-liquid separation.

further, the air conditioner is provided with a fan,

and (b) sieving with a sieve of 60-80 meshes in the step a.

Further, the air conditioner is provided with a fan,

and (b) drying the pig manure in the step (a) until the water content is below 10%.

Further, the air conditioner is provided with a fan,

In the step a, the addition amount of the heavy metal stabilizer is preferably 10% of the total amount of the pig manure raw material.

Preferably, the first and second electrodes are formed of a metal,

the heavy metal stabilizer is coal ash powder.

Further, the air conditioner is provided with a fan,

in the step b, the reaction kettle is an intermittent reaction kettle or a continuous reaction kettle.

Further, the air conditioner is provided with a fan,

In the step b, after the reaction kettle stops heating, when the temperature of the reaction kettle is about 100 ℃, the reaction kettle is cooled to room temperature by using condensed water.

Further, the air conditioner is provided with a fan,

in the step b, the liquefaction solvent is absolute ethyl alcohol or ethyl acetate.

Further, the air conditioner is provided with a fan,

In the step b, a magnetic stirrer is arranged in the reaction kettle, and the stirring speed is 60-80 r/min.

Preferably, the first and second electrodes are formed of a metal,

In step b, the solvent filling rate is preferably 15%.

Preferably, the first and second electrodes are formed of a metal,

In the step b, the solid-liquid ratio of the pig manure raw material to the liquefaction solvent is preferably 0.05 g/mL.

preferably, the first and second electrodes are formed of a metal,

In step b, the liquefaction temperature is preferably 220 ℃.

Further, the air conditioner is provided with a fan,

in the step d, the rotating speed of the rotary evaporator is 60-110 rpm.

The invention has the beneficial effects that:

1. according to the method, the pig manure with huge discharge amount is used as the raw material to prepare the bio-oil through direct liquefaction, on one hand, valuable reference can be provided for further researching fossil energy substitutes in the later period, and the dependence on fossil energy can be reduced to a certain extent; on the other hand, the method for liquefying the pig manure can effectively solve the ecological environment problems of odor, water body pollution and the like caused by the pig manure, and all pathogen germs and pathogenic microorganisms carried in the pig manure can be killed in the high-temperature high-pressure liquefaction process; in addition, the heavy metal stabilizer is added to realize the conversion of the active heavy metals (Pb, Zn, Cu, Mn, Ni, Cd and Cr) in the pig manure to the heavy metals with relatively stable forms, so that the pollution hazard of the heavy metals is obviously reduced, and the plant absorbability of the heavy metals is reduced. Therefore, the method can realize the recycling and harmless treatment of the pig manure.

2. The invention has wide raw material source, lower energy consumption, convenient large-scale preparation of the bio-oil and strong industrial potential.

Drawings

in order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a graph showing the effect of reaction temperature on the yield of liquefied bio-oil under certain solid-to-liquid ratio (0.1g/mL) and solvent fill ratio (20%) according to the present invention;

FIG. 2 is a graph showing the effect of solid-liquid ratio on the yield of liquefied bio-oil under certain reaction temperature (300 ℃) and solvent filling rate (20%) according to the present invention;

FIG. 3 is a graph showing the effect of solvent filling rate on the yield of liquefied bio-oil under certain reaction temperature (300 ℃) and solid-to-liquid ratio (0.1g/mL) according to the present invention.

Detailed Description

In order to better illustrate the content of the invention, the invention is further verified by the following specific examples. It should be noted that the examples are given for the purpose of describing the invention more directly and are only a part of the present invention, which should not be construed as limiting the invention in any way.

The materials and equipment used in the following examples are commercially available.