CN204058358U - Biomass material is converted into biological energy sources unit - Google Patents

Abstract

The utility model provides a kind of biomass material and is converted into biological energy sources unit, comprising: tablets press biomass material being treated to biological particles material; By the feed bin that the first transfer roller is connected with tablets press; The fermentation cabin be communicated with material cabin; The incinerator be communicated with fermentation cabin; Be connected with incinerator with fermentation cabin, and by first steam-pipe of delivery of steam to incinerator in fermentation cabin; The air supply duct of delivering oxygen bottom incinerator; Be communicated with incinerator and the pyrolyzer of production combustion gas; Be communicated with pyrolyzer by the first gas pipe line, and the interchanger of cooling combustion gas; To be communicated with interchanger by the second gas pipe line and to store the gas-holder of combustion gas, the second gas pipe line is provided with booster fan.Above-mentioned biomass material is converted into biological energy sources unit, and biomass material is converted into combustion gas, and by first making biomass material ferment, then carry out burning and cracking, effectively improve effciency of energy transfer, decrease the loss of bioenergy, improve economical efficiency.

Description

Biomass material is converted into biological energy sources unit

Technical field

The utility model relates to bioenergy technical field, more particularly, relates to a kind of biomass material and is converted into biological energy sources unit.

Background technology

Biomass material refers to the waste material of association in agricultural, production of forestry and processing, and biomass material mainly comprises the waste wood tip, faggot, agricultural crop straw, husk, sugared slag etc.Along with growth in the living standard, biomass material be treated as problem.

At present, traditional processing mode is burned, but, burn the pollution of environment larger.In order to reduce the pollution to environment, biomass material burning electricity generation is employed.The principle of biomass material burning electricity generation is: the heat utilizing the solid carbon burning of biomass material destructive distillation to produce carrys out destructive distillation biomass material, the gas that the gas that destructive distillation produces produces with solid carbon burning carries out secondary combustion, the heat boiler of feeding that secondary combustion produces produces steam, and steam is for turbo-generator generating.

Because biomass material burning electricity generation principle is known, the steam that biomass material secondary combustion produces, as the energy of generating, causes effciency of energy transfer lower, and usually less than 30%, bioenergy is lost comparatively large, economic benefit is lower.

In sum, how to process biomass material, to improve effciency of energy transfer, reduce the loss of bioenergy, improving economical efficiency, is current those skilled in the art's problem demanding prompt solution.

Utility model content

The purpose of this utility model is to provide a kind of biomass material and is converted into biological energy sources unit, to improve effciency of energy transfer, reduces the loss of bioenergy, improves economical efficiency.

To achieve these goals, the utility model provides following technical scheme:

A kind of biomass material is converted into biological energy sources unit, comprising:

Biomass material is treated to the tablets press of biological particles material;

By the feed bin that the first transfer roller is connected with described tablets press;

The fermentation cabin be communicated with described feed bin;

The incinerator be communicated with described fermentation cabin;

Be connected with described incinerator with described fermentation cabin, and by the first steam-pipe bottom the delivery of steam in described fermentation cabin to described incinerator;

The air supply duct of delivering oxygen bottom described incinerator;

Be communicated with described incinerator and the pyrolyzer of production combustion gas;

Be communicated with described pyrolyzer by the first gas pipe line, and cool the interchanger of described combustion gas;

To be communicated with described interchanger by the second gas pipe line and to store the gas-holder of described combustion gas, described second gas pipe line is provided with booster fan.

Preferably, above-mentioned biomass material is converted into biological energy sources unit, also comprises: the hopper be connected with described feed bin by second conveyor, and described fermentation cabin is communicated with described feed bin by described hopper; Wherein, described fermentation cabin and described pyrolyzer are all positioned at the top of described incinerator, and described hopper is positioned at the top in described fermentation cabin.

Preferably, above-mentioned biomass material is converted in biological energy sources unit, and the import of described feed bin is positioned at the top of described feed bin, and the outlet of described feed bin is positioned at the bottom of described feed bin.

Preferably, above-mentioned biomass material is converted in biological energy sources unit, and described interchanger comprises: the high-temperature heat-exchanging be communicated with described first pneumatic tube, the cryogenic heat exchanger be communicated with described high-temperature heat-exchanging; Wherein, described cryogenic heat exchanger is communicated with described second pneumatic tube.

Preferably, above-mentioned biomass material is converted in biological energy sources unit, and the heat transferring medium of described high-temperature heat-exchanging is water, and the water out of described high-temperature heat-exchanging is communicated with the bottom of described incinerator by the second steam-pipe, wherein, described second steam-pipe is provided with steam pockets.

Preferably, above-mentioned biomass material is converted in biological energy sources unit, and described fermentation cabin is microwave fermentation cabin, and described pyrolyzer is microwave cracking stove.

Preferably, above-mentioned biomass material is converted in biological energy sources unit, and the leavening temperature stating fermentation cabin is 70-90 DEG C, and the incineration temperature of described incinerator is 1000-1200 DEG C, and the cracking temperature of described pyrolyzer is 770-830 DEG C.

Preferably, above-mentioned biomass material is converted in biological energy sources unit, and the heating source of described pyrolyzer comprises resistive heating source and microwave heating source, and described resistive heating source is positioned at the bottom in described microwave heating source.

Preferably, above-mentioned biomass material is converted in biological energy sources unit, the bottom of described incinerator is provided with: the slagging device of lime-ash being discharged described incinerator, described slagging structure comprises: rotatable ash-pan, the ash-pit be connected with described ash-pan, described lime-ash is pushed the grey cutter of described ash-pit, drive the drive element of described grey disc spins.

Preferably, above-mentioned biomass material is converted into biological energy sources unit, also comprises: control the PLC control system that biomass material is converted into bioenergy.

The principle of work that the biomass material that the utility model provides is converted into biological energy sources unit is:

The biomass materials such as the waste wood tip, faggot, agricultural crop straw are put into tablets press, by tablets press, biological particles material is processed into biomass material fragmentation granulation; Biological particles material sends into feed bin by the first transfer roller; Biological particles material in feed bin enters the fermentation cabin be communicated with feed bin, temperature in fermentation cabin is elevated to leavening temperature, biological particles material ferments, the steam produced in fermenting process enters the bottom of incinerator by the first steam-pipe, and the biological particles material after fermentation enters the incinerator be communicated with cabin of fermenting; Oxygen bottom incinerator burns, the high-temperature gas heating that biological particles material is burned, carry out destructive distillation, tar and the gas such as methane, water vapor is decomposited in retort process, pyrolyzer is entered after the gas decomposed and the gas and vapor permeation of incinerator base burning, the carbon that destructive distillation is produced generates gas and the lime-ash such as carbon monoxide with steam, oxygen generation chemical reaction in incinerator, and the gas that carbon generation chemical reaction generates enters pyrolyzer, and lime-ash is discharged by the bottom of incinerator; In pyrolyzer, gas abundant cracking under the effect of catalyzer such as the tar in mixed gas, benzene class, generate inflammable gas; Inflammable gas after cracking is sent into interchanger by the first gas pipe line and is cooled, and cooled inflammable gas sends into gas-holder by the pressurized blower fan pressurization of the second gas pipe line.

The biomass material that the utility model provides is converted into biological energy sources unit, and biomass material is converted into combustion gas, i.e. inflammable gas, comparatively prior art biomass material burning electricity generation is compared, effectively improve effciency of energy transfer, decrease the loss of bioenergy, improve economical efficiency; Meanwhile, by first making biomass material ferment in fermentation cabin, biomass material preliminary exposition, carry out again burning and cracking, thus effectively improve the decomposing gas efficiency of biomass material, further increase effciency of energy transfer, decrease the loss of bioenergy, improve economical efficiency.

Simultaneously, the biomass material that the utility model provides is converted into biological energy sources unit, the steam produced in fermentation cabin is delivered to bottom incinerator by the first steam-pipe, effectively ensure that the pressure equilibrium between fermentation cabin and incinerator, thus ensure that the sealing of the charging opening of incinerator.

Accompanying drawing explanation

In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only embodiment of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to the accompanying drawing provided.

Fig. 1 is converted into the structural representation of biological energy sources unit for biomass material that the utility model embodiment provides.

In upper Fig. 1:

1 be feed bin for tablets press, 2 is the first transfer roller, 3,4 be second conveyor, 5 be ash-pan, 6 be incinerator, 7 for fermentation cabin, 8 be hopper, 9 be catalyzer for pyrolyzer, 10 is the first gas pipe line, 11,12 be cracking microwave source, 13 be high-temperature heat-exchanging, 14 be cryogenic heat exchanger, 15 be booster fan, 16 for gas-holder.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, be clearly and completely described the technical scheme in the utility model embodiment, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.

The biomass material that the utility model embodiment provides is converted into biological energy sources unit, comprising: the tablets press 1 biomass material being treated to biological particles material; By the feed bin 3 that the first transfer roller 2 is connected with tablets press 1; The fermentation cabin 7 be communicated with feed bin 3; The incinerator 6 be communicated with fermentation cabin 7; Be connected with incinerator 6 with fermentation cabin 7, and by first steam-pipe of delivery of steam to incinerator 6 in fermentation cabin 7; The air supply duct of delivering oxygen bottom incinerator 6; Be communicated with incinerator 6 and the pyrolyzer 9 of production combustion gas; Be communicated with pyrolyzer 9 by the first gas pipe line 10, and the interchanger of cooling combustion gas; To be communicated with interchanger by the second gas pipe line and gas-holder 16, second gas pipe line storing combustion gas is provided with booster fan 15.

It should be noted that, obnoxious flavour etc. complete cracking in pyrolyzer 9, and the combustion gas namely produced by pyrolyzer 9 does not have obnoxious flavour, and combustion gas is inflammable gas.

The principle of work that the biomass material that the utility model embodiment provides is converted into biological energy sources unit is:

The biomass materials such as the waste wood tip, faggot, agricultural crop straw are put into tablets press 1, is processed into biological particles material by tablets press 1 pair of biomass material fragmentation granulation; Biological particles material sends into feed bin 3 by the first transfer roller 2; Biological particles material in feed bin 3 enters the fermentation cabin 7 be communicated with feed bin 3, temperature in fermentation cabin 7 is elevated to leavening temperature, biological particles material ferments, the steam produced in fermenting process enters the bottom of incinerator 6 by the first steam-pipe, and the biological particles material after fermentation enters the incinerator 6 be communicated with cabin 7 of fermenting; Oxygen bottom incinerator 6 burns, the high-temperature gas heating that biological particles material is burned, carry out destructive distillation, tar and the gas such as methane, water vapor is decomposited in retort process, pyrolyzer 9 is entered after the gas decomposed and the gas and vapor permeation of incinerator 6 base burning, the carbon that destructive distillation is produced generates gas and the lime-ash such as carbon monoxide with steam, oxygen generation chemical reaction in incinerator 6, and the gas that carbon generation chemical reaction generates enters pyrolyzer 9, and lime-ash is discharged by the bottom of incinerator 6; In pyrolyzer 9, gas abundant cracking under the effect of catalyzer 11 such as the tar in mixed gas, benzene class, generate inflammable gas; Inflammable gas after cracking is sent into interchanger by the first pneumatic tube 10 road and is cooled, and cooled inflammable gas is pressurizeed by the pressurized blower fan 15 of the second gas pipe line and sends into gas-holder 16.

The biomass material that the utility model embodiment provides is converted into biological energy sources unit, and biomass material is converted into combustion gas, i.e. inflammable gas, comparatively prior art biomass material burning electricity generation is compared, effectively improve effciency of energy transfer, decrease the loss of bioenergy, improve economical efficiency; Meanwhile, by first making biomass material fermentation in fermentation cabin 7, biomass material preliminary exposition, carry out again burning and cracking, thus effectively improve the decomposing gas efficiency of biomass material, further increase effciency of energy transfer, decrease the loss of bioenergy, improve economical efficiency.

Simultaneously, the biomass material that the utility model embodiment provides is converted into biological energy sources unit, the steam produced in fermentation cabin 7 is delivered to bottom incinerator 6 by the first steam-pipe, effectively ensure that the pressure equilibrium between fermentation cabin 7 and incinerator 6, thus ensure that the sealing of the charging opening of incinerator 6.

The biomass material that above-described embodiment provides is converted in biological energy sources unit, for the ease of delivering vapor, prioritizing selection first steam-pipe is provided with blower fan.For the booster fan 15 on the second gas pipe line, can all need according to reality the number selecting booster fan 15, preferably, the number of booster fan 15 is at least two.First transfer roller 2, can belt conveyor, and also can be other transfer rollers, the particular type of the utility model embodiment to the first transfer roller 2 does not limit.

Preferably, the biomass material that above-described embodiment provides is converted into biological energy sources unit, also comprises: the hopper 8 be connected with feed bin 3 by second conveyor 4, and fermentation cabin 7 is communicated with feed bin 3 by hopper 8; Wherein, fermentation cabin 7 and pyrolyzer 9 are all positioned at the top of incinerator 6, and hopper 8 is positioned at the top in fermentation cabin 7.Concrete, the import of hopper 8 is positioned at its top, and the outlet of hopper 8 is positioned at its bottom; The import in fermentation cabin 7 is positioned at its top, and the outlet in fermentation cabin 7 is positioned at its bottom; Import and the outlet of incinerator 6 are all positioned at its top.Like this, by arranging hopper 8, and hopper 8 is arranged on the top in fermentation cabin 7, fermentation cabin 7 is positioned at the top of incinerator 6.Like this, biomass material can enter in incinerator 6 from hopper 8 under self gravitation effect, achieves Automatic continuous blanking, reduces reinforced airborne dust degree; Meanwhile, owing to having biomass material in hopper 8, fermentation has biomass material in cabin 7, like this, achieves the double-layer seal to incinerator 6, effectively ensure that the resistance to air loss in incinerator 6.

Further, the biomass material that above-described embodiment provides is converted in biological energy sources unit, and the import of feed bin 3 is positioned at the top of feed bin 3, and the outlet of feed bin 3 is positioned at the bottom of feed bin 3, and namely biomass material enters from the top of feed bin 3, realizes automatic blanking.

In order to improve the cooling efficiency to combustion gas, the biomass material that above-described embodiment provides is converted in biological energy sources unit, and interchanger comprises: the high-temperature heat-exchanging 13 be communicated with the first pneumatic tube 10, the cryogenic heat exchanger 14 be communicated with high-temperature heat-exchanging 13; Wherein, cryogenic heat exchanger 14 is communicated with the second pneumatic tube.Like this, the high-temperature fuel gas that autothermic cracking stove 9 is discharged first cools through high-temperature heat-exchanging 13, then cools through cryogenic heat exchanger 14, and the combustion gas cooled through cryogenic heat exchanger 14 enters gas-holder 16, effectively improves cooling efficiency.In order to avoid damaging booster fan 15, prioritizing selection combustion gas, after cryogenic heat exchanger 14 is cooled to 45 DEG C, enters the second transport pipe, through booster fan 15.

The biomass material that above-described embodiment provides is converted in biological energy sources unit, and the heat transferring medium of interchanger is water, and water is by after cryogenic heat exchanger 14 heat exchange, and water temperature is preheating to 70 ~ 80 DEG C; Enter high-temperature heat-exchanging 13 again.The water out of high-temperature heat-exchanging 13 is communicated with the bottom of incinerator 6 by the second steam-pipe, and wherein, the second steam-pipe is provided with steam pockets.Like this, achieve the recycling of steam, achieve energy-conservation.

In order to realize rapid conversion, the biomass material that above-described embodiment provides is converted in biological energy sources unit, and fermentation cabin 7 is microwave fermentation cabin, and pyrolyzer 9 is microwave cracking stove.Concrete, the fermented microwave source in fermentation cabin 7 is arranged on the outer wall in fermentation cabin 7, and the cracking microwave source 12 of pyrolyzer 9 is arranged on the furnace body outer wall of pyrolyzer 9.By adopting microwave heating and microwave high-temperature cracking technique, because microwave heating is very fast, effectively improve transformation efficiency; Meanwhile, this biomass material is converted into biological energy sources unit, achieves efficient pollution-free process biological material, avoids contaminate environment.

Certainly, also can select other heating sources, as long as biomass material can be converted into combustion gas, the utility model embodiment does not limit this.Such as, the heating source in fermentation cabin 7 is resistive heating source or steam heating source, and the heating source of pyrolyzer 9 comprises resistive heating source and microwave heating source; Wherein, resistive heating source is positioned at the bottom in microwave heating source.

The biomass material that above-described embodiment provides is converted in biological energy sources unit, microwave fermentation cabin comprises: fermentation cabin body, be arranged at the microwave heating window on the body of fermentation cabin, be arranged at the fermented microwave source on the external wall in fermentation cabin, detect the temperature sensor of temperature in the body of fermentation cabin, detect the level detector of material position in the body of fermentation cabin, be arranged at the tremie pipe of fermentation body bottom, cabin; Wherein, microwave fermentation cabin is communicated with incinerator 6 by tremie pipe, and the first steam-pipe is arranged on fermentation hopper.Microwave cracking stove comprises: furnace shell, is arranged at the cracking microwave source 12 on furnace shell outer wall, is arranged at the thermal insulation layer outside cracking microwave source 12, is arranged at the catalyzer 11 in furnace shell; Wherein, the kind of catalyzer 11 is arranged according to the scission reaction of reality, and the utility model embodiment does not limit this.

The biomass material that above-described embodiment provides is converted in biological energy sources unit, according to the kind of biomass material, can set various parameter.Preferably, the leavening temperature in fermentation cabin 7 is 70-90 DEG C, and the incineration temperature of incinerator 6 is 1000-1200 DEG C, and the cracking temperature of pyrolyzer 9 is 770-830 DEG C.

Carry out continuously to ensure to transform, the biomass material that above-described embodiment provides is converted in biological energy sources unit, the bottom of incinerator 6 is provided with: the slagging device of lime-ash being discharged incinerator 6, slagging structure comprises: rotatable ash-pan 5, the ash-pit be connected with ash-pan 5, lime-ash is pushed the grey cutter of ash-pit, drive the drive element that ash-pan 5 rotates.Concrete, drive element is hydraulic driving part.

In order to realize automatic generation, the biomass material that above-described embodiment provides is converted into biological energy sources unit, also comprises: control the PLC control system that biomass material is converted into bioenergy.

When the biomass material that above-described embodiment provides is converted into biological energy sources unit use, need the leavening temperature detecting fermentation cabin 7, the incineration temperature of incinerator 6, the cracking temperature of pyrolyzer 9, the inlet temperature of interchanger and temperature out, vapor temperature in first steam-pipe, vapor pressure and steam flow rate, vapor temperature in second steam-pipe, vapor pressure and steam flow rate, the intake pressure of booster fan 15 and top hole pressure, oxygen pressure in air supply duct and oxygen gas flow rate, the transfer rate of the first transfer roller 2, the transfer rate of second conveyor 4.Concrete, PLC control system comprises: temperature sensor, pressure transmitter, the PLC be connected with pressure transmitter with temperature sensor by transmitter.Wherein, temperature sensor is multiple, according to required temperature parameter set temperature sensor; Pressure transmitter is multiple, arranges pressure transmitter according to required pressure parameter; PLC regulates according to temperature parameter, pressure parameter, feeding quantity the carrying out reacted.Such as, the outlet in the outlet of hopper 8, fermentation cabin 7 is provided with rotary valve, and by controlling the aperture of rotary valve and the transfer rate of the first transfer roller 2, the transfer rate of second conveyor 4 controls the flow of biomass material.

Further, PLC control system has fault alarm, temperature parameter register, pressure parameter register etc.

The biomass material that the utility model embodiment provides is converted in biological energy sources unit, can fuel gas transmission directly in gas-holder 16 to user.

To the above-mentioned explanation of the disclosed embodiments, those skilled in the art are realized or uses the utility model.To be apparent for a person skilled in the art to the multiple amendment of these embodiments, General Principle as defined herein when not departing from spirit or scope of the present utility model, can realize in other embodiments.Therefore, the utility model can not be restricted to these embodiments shown in this article, but will meet the widest scope consistent with principle disclosed herein and features of novelty.

Claims (10)

1. biomass material is converted into a biological energy sources unit, it is characterized in that, comprising:

Biomass material is treated to the tablets press (1) of biological particles material;

By the feed bin (3) that the first transfer roller (2) is connected with described tablets press (1);

The fermentation cabin (7) be communicated with described feed bin (3);

The incinerator (6) be communicated with described fermentation cabin (7);

Be connected with described incinerator (6) with described fermentation cabin (7), and by the first steam-pipe bottom the delivery of steam in described fermentation cabin (7) to described incinerator (6);

To the air supply duct of described incinerator (6) bottom delivering oxygen;

Be communicated with described incinerator (6) and the pyrolyzer (9) of production combustion gas;

Be communicated with described pyrolyzer (9) by the first gas pipe line (10), and cool the interchanger of described combustion gas;

To be communicated with described interchanger by the second gas pipe line and to store the gas-holder (16) of described combustion gas, described second gas pipe line being provided with booster fan (15).

2. biomass material according to claim 1 is converted into biological energy sources unit, it is characterized in that, also comprise: the hopper (8) be connected with described feed bin (3) by second conveyor (4), described fermentation cabin (7) is communicated with described feed bin (3) by described hopper (8); Wherein, described fermentation cabin (7) and described pyrolyzer (9) are all positioned at the top of described incinerator (6), and described hopper (8) is positioned at the top of described fermentation cabin (7).

3. biomass material according to claim 1 is converted into biological energy sources unit, it is characterized in that, the import of described feed bin (3) is positioned at the top of described feed bin (3), and the outlet of described feed bin (3) is positioned at the bottom of described feed bin (3).

4. biomass material according to claim 1 is converted into biological energy sources unit, it is characterized in that, described interchanger comprises: the high-temperature heat-exchanging (13) be communicated with described first pneumatic tube, the cryogenic heat exchanger (14) be communicated with described high-temperature heat-exchanging (13); Wherein, described cryogenic heat exchanger (14) is communicated with described second pneumatic tube.

5. biomass material according to claim 4 is converted into biological energy sources unit, it is characterized in that, the heat transferring medium of described interchanger (13) is water, the water out of described high-temperature heat-exchanging (13) is communicated with the bottom of described incinerator (6) by the second steam-pipe, wherein, described second steam-pipe is provided with steam pockets.

6. biomass material according to claim 1 is converted into biological energy sources unit, it is characterized in that, described fermentation cabin (7) is microwave fermentation cabin, and described pyrolyzer (9) is microwave cracking stove.

7. biomass material according to claim 6 is converted into biological energy sources unit, it is characterized in that, the leavening temperature of described fermentation cabin (7) is 70-90 DEG C, the incineration temperature of described incinerator (6) is 1000-1200 DEG C, and the cracking temperature of described pyrolyzer (9) is 770-830 DEG C.

8. biomass material according to claim 1 is converted into biological energy sources unit, it is characterized in that, the heating source of described pyrolyzer (9) comprises resistive heating source and microwave heating source, and described resistive heating source is positioned at the bottom in described microwave heating source.

9. biomass material according to claim 1 is converted into biological energy sources unit, it is characterized in that, the bottom of described incinerator (6) is provided with: the slagging device of lime-ash being discharged described incinerator (6), described slagging structure comprises: rotatable ash-pan (5), the ash-pit be connected with described ash-pan (5), described lime-ash is pushed the grey cutter of described ash-pit, drive the drive element that described ash-pan (5) rotates.

10. biomass material according to claim 1 is converted into biological energy sources unit, it is characterized in that, also comprises: control the PLC control system that biomass material is converted into bioenergy.