CN115322815A

CN115322815A - Bio-based methanol gasoline and preparation method thereof

Info

Publication number: CN115322815A
Application number: CN202210844269.2A
Authority: CN
Inventors: 王菊林
Original assignee: Crpc Innovation Energy Co ltd
Current assignee: Crpc Innovation Energy Co ltd
Priority date: 2022-07-18
Filing date: 2022-07-18
Publication date: 2022-11-11

Abstract

The invention discloses bio-based methanol gasoline and a preparation method thereof, and relates to the technical field of methanol gasoline. When the bio-based methanol gasoline is prepared, leaves are pretreated to prepare biomass powder, the biomass powder is inoculated and fermented and then extracted to obtain bio-oil, the bio-oil is catalyzed and hydrogenated to prepare saturated bio-oil, and the methanol, the saturated bio-oil and the gasoline are mixed to prepare the bio-based methanol gasoline. The bio-based methanol gasoline prepared by the invention has excellent low pollution.

Description

Bio-based methanol gasoline and preparation method thereof

Technical Field

The invention relates to the technical field of methanol gasoline, in particular to bio-based methanol gasoline and a preparation method thereof.

Background

The methanol gasoline is a novel environment-friendly fuel prepared by national standard gasoline, methanol and an additive according to a certain volume (mass) ratio through a strict flow, is a fuel substitute for automobiles, and is an important component of new energy. Crude oil is the most major primary energy source in the world, and the essence of current energy shortage is crude oil shortage.

With the rapid development of the world economy, the automobile holding capacity is rising year by year, the demand of automobile fuel is increasing, the environmental problem is becoming more serious, and the situation of increasingly exhausted petroleum resources is more severe as the world energy storage is in shortage. China's economy is developing at a high rate, and most of the petroleum consumed every year needs to be imported. Energy and environmental problems restrict the rapid development of economy in China. Therefore, the search for new clean alternative energy sources has become a key topic for promoting the economic development of China.

Disclosure of Invention

The invention aims to provide bio-based methanol gasoline and a preparation method thereof, which are used for solving the problems in the prior art.

A bio-based methanol gasoline and a preparation method thereof are characterized by mainly comprising the following components in parts by weight: 7-9 parts of methanol, 12-16 parts of saturated bio-oil and 24-30 parts of gasoline.

Preferably, the saturated bio-oil is prepared from bio-oil by catalytic hydrogenation.

Preferably, the bio-oil is obtained by inoculating and fermenting biomass powder and then extracting.

Preferably, the biomass powder is prepared by grinding leaves, performing hydrothermal treatment and alkali treatment.

As optimization, the preparation method of the bio-based methanol gasoline mainly comprises the following preparation steps:

(1) Pretreatment: crushing the leaves to particles smaller than 9mm at the environment temperature of-10 to-5 ℃, then placing the crushed leaves into a pulverizer, grinding the crushed leaves to particles smaller than 1mm at the environment temperature of-10 to-5 ℃, and then mixing the pulverized leaves with deionized water according to the mass ratio of 1: 8-1: 10, uniformly mixing, placing in a high-pressure reaction kettle, reacting at 180-200 ℃ for 20-24 h, cooling, taking out, washing with pure water for 3-5 times, drying at 70-80 ℃ for 4-6 h, and mixing with a sodium hydroxide solution with the mass fraction of 6-8% according to the mass ratio of 1:20 to 1:25, mixing, performing ultrasonic treatment at 50-60 ℃ and 30-40 kHz for 40-50 min, performing centrifugal separation, washing to be neutral by pure water, drying for 6-8 h at 60-70 ℃, and grinding at-10 to-5 ℃ until the particle size is less than 0.5mm to prepare biomass powder;

(2) Inoculating and fermenting: mixing biomass powder, glucose and physiological saline according to a mass ratio of 5:1: 80-6: 1:100, uniformly mixing, inoculating oil-producing microorganisms, controlling the pH value to be 6-8 by using hydrochloric acid with the mass fraction of 3-5% and a sodium hydroxide solution with the mass fraction of 3-5%, adjusting the fermentation temperature to be 20-30 ℃, enabling the air flow per minute to be 6-10 times of the volume of physiological saline, and culturing for 140-200 h to obtain fermentation liquor;

(3) Extraction: adjusting the pH value of the fermentation liquor to 3.5-4.5, heating to 40-60 ℃, stirring for 10-12 h at 800-1000 r/min, adding an extraction solvent with the mass of 1.2-1.8 times of that of the fermentation liquor, keeping the temperature unchanged, continuously stirring for 40-50 min, standing for 4-6 h, layering to obtain an oil phase, and standing for 8-10 h at 20-30 ℃ under 1-2 kPa to obtain biological oil;

(4) Catalytic hydrogenation: preheating bio-oil at 130-140 ℃ under the condition of 60-100 Pa for 40-50 min, adding metal nickel with the mass of 0.002-0.004 times of that of the bio-oil, stirring at 800-1000 r/min for 20-30 min, placing in a hydrogenation tank, introducing hydrogen to ensure that the pressure reaches and maintains 1.1-1.5 MPa, reacting at 180-220 ℃ for 3-4 h, cooling to room temperature, and filtering to prepare saturated bio-oil;

(5) Mixing materials: methanol, saturated bio-oil and gasoline are mixed according to the mass ratio of 7:12:24 to 9:16:30, and mixing uniformly to obtain the bio-based methanol gasoline.

As optimization, the leaves in the step (1) are mulberry leaves which are cleaned and then air-dried.

Preferably, the oleaginous microorganism in the step (2) is Cryptococcus, mortierella alpina or dinoflagellate.

Preferably, the extraction solvent in step (3) is hexane.

Preferably, the purity of the metallic nickel in the step (4) is more than 99.9%, and the particle size is less than 0.1mm.

And (3) as an optimization, the gasoline in the step (5) is 93# gasoline.

Compared with the prior art, the invention has the following beneficial effects:

when the bio-based methanol gasoline is prepared, leaves are pretreated to prepare biomass powder, the biomass powder is inoculated and fermented and then extracted to obtain bio-oil, the bio-oil is catalyzed and hydrogenated to prepare saturated bio-oil, and the methanol, the saturated bio-oil and the gasoline are mixed to prepare the bio-based methanol gasoline.

Firstly, the invention recycles the resources of the leaves, has low cost, is green and environment-friendly, is easy for industrial production and has good economic benefit; the pretreatment comprises grinding, hydrothermal treatment and sodium hydroxide alkali treatment, so that the surface protection structure of the biomass powder is primarily destroyed, impurities are further removed, the adhesion and decomposition of subsequent inoculated oil-producing microorganisms are increased, more purer oil phases are obtained, and the pollution of the bio-based methanol gasoline is reduced.

Secondly, catalytic hydrogenation is carried out to convert unsaturated bonds in the bio-oil into saturated bonds, so that combustion can be more sufficient, and the pollution of the bio-based methanol gasoline is reduced.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In order to more clearly illustrate the method provided by the present invention, the following examples are used to illustrate the method for testing each index of bio-based methanol gasoline prepared in the following examples as follows:

pollution property: the bio-based methanol gasoline obtained in each example was weighed to be the same as the comparative example material, a combustion experiment was performed under the same conditions, and the deposited combustion carbon particles were collected on the top of a glass plate, and the amount of soot was weighed and recorded.

Example 1

A bio-based methanol gasoline mainly comprises the following components in parts by weight: 7 parts of methanol, 12 parts of saturated bio-oil and 24 parts of gasoline.

A preparation method of bio-based methanol gasoline mainly comprises the following preparation steps:

(1) Pretreatment: crushing the leaves at the environment temperature of-10 ℃ until the particles are smaller than 9mm, then placing the crushed leaves into a pulverizer, pulverizing the crushed leaves at the environment temperature of-10 ℃ until the particles are smaller than 1mm, and mixing the pulverized leaves with deionized water according to the mass ratio of 1:8, uniformly mixing, placing in a high-pressure reaction kettle, reacting at 180 ℃ for 24 hours, cooling, taking out, washing with pure water for 3 times, drying at 70 ℃ for 6 hours, and mixing with a sodium hydroxide solution with the mass fraction of 6% according to the mass ratio of 1:20, performing ultrasonic treatment at 50 ℃ and 30kHz for 50min, performing centrifugal separation, washing with pure water to be neutral, drying at 60 ℃ for 8h, and grinding at-10 ℃ until the particle size is less than 0.5mm to obtain biomass powder;

(2) Inoculating and fermenting: mixing biomass powder, glucose and physiological saline according to a mass ratio of 5:1:80, uniformly mixing, inoculating cryptococcus, controlling the pH value to be 8 by using hydrochloric acid with the mass fraction of 3% and a sodium hydroxide solution with the mass fraction of 3%, adjusting the fermentation temperature to be 20 ℃, adjusting the air flow per minute to be 6 times of the volume of physiological saline, and culturing for 140 hours to obtain fermentation liquor;

(3) Extraction: adjusting the pH value of the fermentation liquor to 3.5, heating to 40 ℃, stirring for 12h at 800r/min, adding hexane which is 1.2 times of the mass of the fermentation liquor, keeping the temperature unchanged, continuously stirring for 40min, standing for 4h, layering to obtain an oil phase, and standing for 10h at 20 ℃ under 1kPa to obtain biological oil;

(4) Catalytic hydrogenation: preheating bio-oil for 50min at 130 ℃ under 60Pa, adding metallic nickel with the quality 0.002 times of that of the bio-oil, stirring for 30min at 800r/min, placing in a hydrogenation tank, introducing hydrogen to ensure that the pressure reaches and is maintained at 1.1MPa, reacting for 4h at 180 ℃, cooling to room temperature, and filtering to obtain saturated bio-oil;

(5) Mixing materials: methanol, saturated bio-oil and 93# gasoline are mixed according to the mass ratio of 7:12:24, uniformly mixing to obtain the bio-based methanol gasoline.

Example 2

A bio-based methanol gasoline mainly comprises the following components in parts by weight: 8 parts of methanol, 14 parts of saturated bio-oil and 27 parts of gasoline.

(1) Pretreatment: crushing the leaves at the ambient temperature of-8 ℃ until the particles are smaller than 9mm, then placing the crushed leaves in a pulverizer, pulverizing the crushed leaves at the ambient temperature of-8 ℃ until the particles are smaller than 1mm, and mixing the pulverized leaves with deionized water according to the mass ratio of 1:9, uniformly mixing, placing in a high-pressure reaction kettle, reacting at 190 ℃ for 22h, cooling, taking out, washing with pure water for 4 times, drying at 75 ℃ for 5h, and mixing with a sodium hydroxide solution with the mass fraction of 7% according to a mass ratio of 1:22, performing ultrasonic treatment at 55 ℃ and 35kHz for 45min, performing centrifugal separation, washing with pure water to be neutral, drying at 65 ℃ for 7h, and grinding at-8 ℃ until the particle size is less than 0.5mm to obtain biomass powder;

(2) Inoculating and fermenting: mixing biomass powder, glucose and physiological saline according to a mass ratio of 5.5:1:90, uniformly mixing, inoculating cryptococcus, controlling the pH value to be 7 by using hydrochloric acid with the mass fraction of 4% and a sodium hydroxide solution with the mass fraction of 4%, adjusting the fermentation temperature to be 25 ℃, culturing for 170h, wherein the air flow per minute is 7 times of the volume of physiological saline, and obtaining fermentation liquor;

(3) Extraction: adjusting the pH value of the fermentation liquor to 4, heating to 50 ℃, stirring for 11h at 900r/min, adding hexane which is 1.5 times of the mass of the fermentation liquor, keeping the temperature unchanged, continuously stirring for 45min, standing for 5h, layering to obtain an oil phase, and standing for 9h at 25 ℃ under 1.5kPa to obtain biological oil;

(4) Catalytic hydrogenation: preheating bio-oil at 135 deg.C under 80Pa for 45min, adding metal nickel 0.003 times of the bio-oil, stirring at 900r/min for 25min, placing in hydrogenation tank, introducing hydrogen gas to make the pressure reach and maintain 1.3MPa, reacting at 200 deg.C for 3.5h, cooling to room temperature, and filtering to obtain saturated bio-oil;

(5) Mixing materials: methanol, saturated bio-oil and 93# gasoline are mixed according to the mass ratio of 8:14:27 are mixed evenly to prepare the bio-based methanol gasoline.

Example 3

A bio-based methanol gasoline mainly comprises the following components in parts by weight: 9 parts of methanol, 16 parts of saturated bio-oil and 30 parts of gasoline.

(1) Pretreatment: crushing the leaves at the ambient temperature of-5 ℃ until the particles are smaller than 9mm, then placing the crushed leaves in a pulverizer, pulverizing the crushed leaves at the ambient temperature of-5 ℃ until the particles are smaller than 1mm, and mixing the pulverized leaves with deionized water according to the mass ratio of 1:10, uniformly mixing, placing in a high-pressure reaction kettle, reacting for 20h at 200 ℃, taking out after cooling, washing for 5 times by pure water, drying for 4h at 80 ℃, and mixing with a sodium hydroxide solution with the mass fraction of 8% according to the mass ratio of 1:25, mixing, performing ultrasonic treatment at 60 ℃ and 40kHz for 40min, performing centrifugal separation, washing with pure water to be neutral, drying at 70 ℃ for 6h, and grinding at-5 ℃ until the particle size is less than 0.5mm to obtain biomass powder;

(2) Inoculating and fermenting: mixing biomass powder, glucose and physiological saline according to a mass ratio of 6:1:100, uniformly mixing, inoculating cryptococcus, controlling the pH value to be 8 by using hydrochloric acid with the mass fraction of 5% and a sodium hydroxide solution with the mass fraction of 5%, adjusting the fermentation temperature to be 30 ℃, enabling the air flow per minute to be 10 times of the volume of physiological saline, and culturing for 200 hours to obtain fermentation liquor;

(3) Extraction: adjusting the pH value of the fermentation liquor to 4.5, heating to 60 ℃, stirring for 10h at 1000r/min, adding hexane which is 1.8 times of the mass of the fermentation liquor, keeping the temperature unchanged, continuously stirring for 50min, standing for 6h for layering to obtain an oil phase, and standing for 8h at 30 ℃ and 2kPa to obtain biological oil;

(4) Catalytic hydrogenation: preheating bio-oil at 140 ℃ under 100Pa for 40min, adding metallic nickel with the weight 0.004 times of that of the bio-oil, stirring at 1000r/min for 20min, placing in a hydrogenation tank, introducing hydrogen to make the pressure reach and maintain at 1.5MPa, reacting at 220 ℃ for 3h, cooling to room temperature, and filtering to obtain saturated bio-oil;

(5) Mixing materials: methanol, saturated bio-oil and 93# gasoline are mixed according to the mass ratio of 9:16:30, and mixing uniformly to obtain the bio-based methanol gasoline.

Comparative example 1

(1) Grinding: crushing leaves at-8 ℃ to particles smaller than 9mm, then placing the crushed leaves in a pulverizer, and pulverizing at-8 ℃ until the particles are smaller than 0.5mm to obtain biomass powder;

(2) Inoculating and fermenting: mixing biomass powder, glucose and physiological saline according to a mass ratio of 5.5:1:90, uniformly mixing, inoculating cryptococcus, controlling the pH value to be 7 by using hydrochloric acid with the mass fraction of 4% and a sodium hydroxide solution with the mass fraction of 4%, adjusting the fermentation temperature to be 25 ℃, enabling the air flow per minute to be 7 times of the volume of physiological saline, and culturing for 170 hours to obtain fermentation liquor;

(3) Extraction: adjusting the pH value of the fermentation liquor to 4, heating to 50 ℃, stirring at 900r/min for 11h, adding hexane with the mass of 1.5 times of that of the fermentation liquor, keeping the temperature unchanged, continuing stirring for 45min, standing for 5h, layering to obtain an oil phase, and standing for 9h at 25 ℃ and 1.5kPa to obtain biological oil;

Comparative example 2

A bio-based methanol gasoline mainly comprises the following components in parts by weight: 8 parts of methanol, 14 parts of bio-oil and 27 parts of gasoline.

(1) Pretreatment: crushing the leaves at the ambient temperature of-8 ℃ until the particles are smaller than 9mm, then placing the crushed leaves in a pulverizer, pulverizing the crushed leaves at the ambient temperature of-8 ℃ until the particles are smaller than 1mm, and mixing the pulverized leaves with deionized water according to the mass ratio of 1:9, uniformly mixing, placing in a high-pressure reaction kettle, reacting at 190 ℃ for 22h, cooling, taking out, washing with pure water for 4 times, drying at 75 ℃ for 5h, and mixing with a sodium hydroxide solution with the mass fraction of 7% according to the mass ratio of 1:22, performing ultrasonic treatment at 55 ℃ and 35kHz for 45min, performing centrifugal separation, washing with pure water to be neutral, drying at 65 ℃ for 7h, and grinding at-8 ℃ until the particle size is less than 0.5mm to obtain biomass powder;

(4) Mixing materials: methanol, bio-oil and 93# gasoline are mixed according to the mass ratio of 8:14:27 to obtain the bio-based methanol gasoline.

Effects of the invention

The following table 1 shows the results of performance analysis of the contamination property of bio-based methanol gasoline using examples 1 to 3 of the present invention and comparative examples 1 to 4.

	Amount of soot		Amount of soot
				Example 1	0.04g	Comparative example 1	0.53g
Example 2	0.04g	Comparative example 2	0.45g
				Example 3	0.06g

TABLE 1

The experimental data comparison of examples 1, 2 and 3 and comparative column 1 in table 1 shows that the soot amount of examples 1, 2 and 3 and comparative column 1 is low, which indicates that hydrothermal and sodium hydroxide treatment is performed in the pretreatment process, so that the surface protection structure of biomass powder is primarily destroyed, impurities are further removed, the adhesion and decomposition of subsequent inoculated oil-producing microorganisms are increased, more purer oil phase is obtained, and the pollution of bio-based methanol gasoline is reduced; from the comparison of the experimental data of examples 1, 2, 3 and comparative example 2, it can be seen that the low soot levels of examples 1, 2, 3 and comparative example 2 indicate that catalytic hydrogenation is performed to convert unsaturated bonds in bio-oil to saturated bonds, so that combustion can be more complete, thereby reducing the pollution of bio-based methanol gasoline.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The bio-based methanol gasoline is characterized by mainly comprising the following components in parts by weight: 7-9 parts of methanol, 12-16 parts of saturated bio-oil and 24-30 parts of gasoline.

2. The bio-based methanol gasoline as claimed in claim 1, wherein said saturated bio-oil is produced from bio-oil by catalytic hydrogenation.

3. The bio-based methanol gasoline as claimed in claim 2, wherein the bio-oil is obtained by inoculating and fermenting biomass powder and then extracting.

4. The bio-based methanol gasoline as claimed in claim 3, wherein the biomass powder is prepared by grinding leaves, hydrothermal treatment and alkali treatment.

5. A preparation method of bio-based methanol gasoline is characterized by mainly comprising the following preparation steps:

(4) Catalytic hydrogenation: preheating bio-oil for 40-50 min at 130-140 ℃ under the condition of 60-100 Pa, adding metallic nickel with the mass of 0.002-0.004 times of that of the bio-oil, stirring for 20-30 min at 800-1000 r/min, placing the mixture into a hydrogenation tank, introducing hydrogen to ensure that the pressure reaches and is kept at 1.1-1.5 MPa, reacting for 3-4 h at 180-220 ℃, cooling to room temperature, and filtering to prepare saturated bio-oil;

(5) Mixing materials: methanol, saturated bio-oil and gasoline are mixed according to the mass ratio of 7:12: 24-9: 16:30, and mixing uniformly to obtain the bio-based methanol gasoline.

6. The method for preparing bio-based methanol gasoline according to claim 5, wherein the leaves in step (1) are cleaned and air-dried mulberry leaves.

7. The method according to claim 5, wherein the oleaginous microorganism of step (2) is Cryptococcus, mortierella alpina or dinoflagellate.

8. The method for preparing bio-based methanol gasoline as claimed in claim 5, wherein the extraction solvent of step (3) is hexane.

9. The method for preparing bio-based methanol gasoline according to claim 5, wherein the purity of the metallic nickel in step (4) is more than 99.9%, and the particle size is less than 0.1mm.

10. The method for preparing bio-based methanol gasoline according to claim 5, wherein the gasoline of step (5) is 93# gasoline.