CN205528621U - Biomass gasification's device - Google Patents

Abstract

The utility model discloses a biomass gasification's device. The device includes: up -draft fixed bed gasifier, including first body, first body injects first gasification space, is provided with the import of first living beings, the export of first gasification result, the import of first gasification result and gas exports, downdraft fixed bed gasifier, including the second body, second gasification space is injectd by the second body, is provided with the import of second living beings, the export of second gasification result, the import of second gasification result, wherein, the export of first gasification result is continuous with the import of second gasification result, the export of second gasification result links to each other with the import of first gasification result, the position of second gasification result import is higher than the export of second gasification result, and the position of first gasification result import is higher than the export of first gasification result, the position and the first difference in height that gasifies the position of result export of first gasification result import is third to the half of first body height.

Description

Biomass gasification device

Technical Field

The utility model belongs to the chemical industry field particularly, relates to biomass gasification's device.

Background

The biomass energy is the fourth most abundant energy in the world, is second to coal, petroleum and natural gas, and is also the most abundant renewable energy. China is a big agricultural country, biomass resources are abundant, and more than 7 hundred million tons of agricultural wastes are generated every year in agriculture only, which is equivalent to 2.5 million tons of crude oil. However, the utilization efficiency of biomass energy is not high, a large number of crop straw fields are directly burned every year, so that air pollution and energy waste are caused, and great potential safety hazards are caused. Therefore, the development and utilization of biomass energy have extremely important significance. The biomass gasification is a process of taking biomass as a raw material and taking one or more of air, oxygen, water vapor and hydrogen as a gasification medium, and converting combustible parts of the biomass into fuel gas through high-temperature thermochemical reaction. Biomass gasification technology is one of the most efficient methods for efficient utilization of biomass energy.

However, the current biomass gasification plants still need to be improved.

SUMMERY OF THE UTILITY MODEL

The present invention aims to solve at least one of the technical problems in the related art to a certain extent.

The present invention has been completed based on the following findings of the inventors:

the existing biomass gasification device has the problems of high tar content of gasification products, more fly ash, easiness in pipeline blockage, high sensible heat of fuel gas, energy loss and the like. The inventor finds that the main reason is that in the existing biomass gasification device, a fuel gas outlet of an updraft fixed bed gasification furnace is arranged at the top of the gasification furnace, most of tar generated in a pyrolysis section is discharged from the fuel gas outlet, and the content of tar in a gasification product is high; the downdraft fixed bed gasification furnace has the advantages that the gas outlet is positioned at the bottom of the gasification furnace, and the gasified gas passes through the oxidation section and the reduction section, so that the gasified product discharged from the gas outlet positioned below the downdraft fixed bed gasification furnace is high in temperature and high in fly ash impurity content and cannot be directly utilized, a large amount of sensible heat loss of the gas is caused, and the energy utilization rate is low. In addition, the existing updraft fixed bed gasification furnace and downdraft fixed bed gasification furnace often cause the problems of more tar and fly ash generated in the gasification process of the biomass gasification device, easy pipeline blockage and the like due to the defects in the aspect of structural design.

In view of this, the utility model provides a biomass gasification's device. Specifically, the apparatus includes: the updraft type fixed bed gasification furnace comprises a first body, wherein a first gasification space is defined in the first body and is used for gasifying biomass so as to obtain a gasification product and high-temperature carbon, and a first biomass inlet, a first gasification product outlet, a first gasification product inlet and a fuel gas outlet are arranged on the first body; the downdraft fixed bed gasifier comprises a second body, a second gasification space is defined in the second body and used for gasifying the biomass so as to obtain a gasification product and high-temperature charcoal, and a second biomass inlet, a second gasification product outlet and a second gasification product inlet are formed in the second body; wherein the first biomass inlet and the second biomass inlet are for feeding biomass into the first gasification space and the second gasification space, respectively; the first gasification product outlet is connected with the second gasification product inlet and is used for conveying the gasification products in the first gasification space to the second gasification space; the second gasification product outlet is connected with the first gasification product inlet and is used for conveying the gasification products in the second gasification space to the first gasification space; the gas outlet is used for discharging gasified gas out of the updraft type fixed bed gasification furnace; and in the vertical direction, the second gasification product inlet is higher than the second gasification product outlet, and the first gasification product inlet is higher than the first gasification product outlet; the difference in height between the position of the first gasification product inlet and the position of the first gasification product outlet is one third to one half of the height of the first body. Therefore, the updraft fixed bed gasification furnace and the downdraft fixed bed gasification furnace are combined, so that the biomass gasification effect of the device is improved, the tar content in the product is reduced, the sensible heat in the gasification product is recovered, the fly ash content in the gasification product is reduced, and the gasification treatment efficiency of the gasification device is improved. In addition, the gasification product can be discharged from a proper position of the device to one fixed bed gasification furnace and enter the other fixed bed gasification furnace, so that the two gasification furnaces of the device are effectively combined, and the gasification treatment efficiency of the device is improved.

Optionally, the device is arranged in a vertical direction, the first gasification space sequentially defines a first drying section, a first pyrolysis section, a first reduction section and a first oxidation section from top to bottom, wherein the first gasification product outlet is arranged on the side wall of the first reduction section; and the first gasification product inlet is arranged on a side wall of the first drying section. From this, can continuously let in the gas after handling in the first gasification space and handle in the second gasification space to can effectively combine two gasification spaces, and then improve the device's gasification treatment efficiency.

Optionally, in the vertical direction of the device, the second gasification space sequentially defines a second drying section, a second pyrolysis section, a second oxidation section and a second reduction section from top to bottom, wherein the second gasification product outlet is arranged on the side wall of the second reduction section; and the second gasification product inlet is arranged on a side wall of the second drying section. From this, can continuously let in first gasification space with the gas after handling in the second gasification space and handle to can effectively combine two gasification spaces, and then improve the device's gasification treatment efficiency.

Optionally, the apparatus further comprises: the first carbon outlet is arranged at the bottom of the first body and used for discharging the high-temperature carbon out of the first gasification space; the second charcoal outlet is arranged at the bottom of the second body and used for discharging the high-temperature charcoal out of the second gasification space; a first gasification agent inlet disposed on a sidewall of the first oxidation stage for supplying air into the first gasification space; a second gasifying agent inlet which is arranged on the side wall of the second oxidation stage and is used for supplying air into the second gasification space; a first heat exchanger, configured to perform a heat exchange process on the high-temperature char and the low-temperature air so as to obtain the high-temperature air and the medium-temperature char, wherein the first heat exchanger includes: a first low temperature air inlet for feeding the low temperature air into the first heat exchanger; a high-temperature air outlet connected to the first and second gasifying agent inlets, respectively, for supplying the high-temperature air to the first and second gasification spaces; a high-temperature charcoal inlet connected to the first charcoal outlet and the second charcoal outlet, respectively, for supplying the high-temperature charcoal to the first heat exchanger; and the medium-temperature carbon outlet is used for discharging the medium-temperature carbon out of the first heat exchanger. Therefore, the first heat exchanger is arranged to treat the generated high-temperature carbon, so that sensible heat contained in the high-temperature carbon can be utilized, and the energy utilization efficiency of the gasification device is improved.

Optionally, the apparatus further comprises: the second heat exchanger is used for performing heat exchange treatment on the medium-temperature carbon and the low-temperature air so as to obtain medium-temperature air and low-temperature carbon; a drying unit connected to the second heat exchanger and the second biomass inlet, respectively, for drying the biomass using the intermediate-temperature air and supplying the dried biomass to the second gasification space, wherein the second heat exchanger includes: the medium-temperature carbon inlet is connected with the medium-temperature carbon outlet and used for supplying the medium-temperature carbon to the second heat exchanger; a second low temperature air inlet for supplying the low temperature air to the second heat exchanger; and the medium-temperature air outlet is connected with the drying unit and used for discharging the medium-temperature air out of the second heat exchanger and supplying the medium-temperature air to the drying unit for drying treatment. Therefore, the second heat exchanger and the drying unit are arranged to treat the medium-temperature carbon and the biomass, so that the biomass gasification treatment effect and the energy utilization efficiency of the gasification device are improved.

Drawings

FIG. 1 shows a schematic structural view of a biomass gasification unit according to an embodiment of the present invention;

FIG. 2 shows a schematic view of a partial structure of a biomass gasification apparatus according to another embodiment of the present invention;

FIG. 3 shows a schematic view of a partial structure of a biomass gasification apparatus according to yet another embodiment of the present invention;

FIG. 4 shows a schematic view of a partial structure of a biomass gasification apparatus according to yet another embodiment of the present invention;

FIG. 5 shows a schematic view of a partial structure of a biomass gasification apparatus according to yet another embodiment of the present invention;

FIG. 6 shows a schematic view of a partial structure of a biomass gasification apparatus according to yet another embodiment of the present invention;

FIG. 7 shows a schematic view of a partial structure of a biomass gasification apparatus according to yet another embodiment of the present invention;

FIG. 8 shows a schematic view of a partial structure of a biomass gasification apparatus according to still another embodiment of the present invention;

FIG. 9 shows a flow chart of the steps of a method of biomass gasification using a biomass gasification apparatus according to an embodiment of the present invention;

FIG. 10 is a flow chart showing steps of a method for gasifying biomass using a biomass gasification apparatus according to still another embodiment of the present invention;

FIG. 11 shows a flow chart of steps for implementing a biomass gasification process using a biomass gasification apparatus according to yet another embodiment of the present invention;

FIG. 12 shows a flow chart of steps for implementing a biomass gasification process using a biomass gasification apparatus according to yet another embodiment of the present invention; and

fig. 13 shows a flow chart of steps of a method for biomass gasification using a biomass gasification apparatus according to yet another embodiment of the present invention.

Description of reference numerals:

100: first body

110: first biomass inlet

120: first gasification product outlet

130: first gasification product inlet

140: first drying section

150: first pyrolysis section

160: first reduction stage

170: first oxidation stage

180: the first carbon outlet

190: a first gasifying agent inlet

200: second body

210: second biomass inlet

220: second gasification product outlet

230: second gasification product inlet

240: second drying section

250: second pyrolysis section

260: second reduction stage

270: second oxidation stage

280: second carbon outlet

290: the second gasifying agent inlet

300: gas outlet

10: air hole

20: air duct

1000: updraft fixed bed gasification furnace

2000: downdraft fixed bed gasifier

3000: first heat exchanger

3100: a first low temperature air inlet

3200: high temperature air outlet

3300: high temperature charcoal inlet

3400: medium temperature carbon outlet

4000: second heat exchanger

4100: second low temperature air inlet

4200: middle temperature air outlet

4300: medium temperature charcoal inlet

5000: drying unit

6000: a purification unit.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar modules or modules having the same or similar functionality throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

The present invention has been completed based on the following findings of the inventors:

the existing biomass gasification device has the problems of high tar content of gasification products, more fly ash, easiness in pipeline blockage, high sensible heat of fuel gas, energy loss and the like. The inventor finds that the main reason is that in the existing biomass gasification device, a fuel gas outlet of an updraft fixed bed gasification furnace is arranged at the top of the gasification furnace, most of tar generated in a pyrolysis section is discharged from the fuel gas outlet, and the content of tar in the gasified fuel gas is high; and the gas outlet of downdraft fixed bed gasifier is located the gasifier bottom, and the gasification gas leads to for the gas outlet combustion gas product temperature of device below is higher and contain a large amount of ash content impurity through oxidation section and reduction section, can't direct utilization to cause a large amount of gas sensible heat to run off, lead to energy utilization to be lower. In addition, the defects in the structural design of the existing updraft fixed bed gasification furnace and downdraft fixed bed gasification furnace often cause the problems that the tar content of the gasified fuel gas generated by the biomass gasification device is high, the gasified fuel gas is difficult to treat, and the fly ash generated in the gasification process is more and easy to block pipelines.

In view of this, the utility model provides a device for biomass gasification. According to the utility model discloses an embodiment, referring to fig. 1, the device includes: an updraft fixed bed gasifier 1000 and a downdraft fixed bed gasifier 2000. Specifically, according to an embodiment of the present invention, the updraft type fixed bed gasification furnace 1000 includes a first body 100 so as to define a first gasification space to perform an updraft type gasification process on biomass and obtain a gasification product and high temperature char, and the first body 100 is provided with a first biomass inlet 110, a first gasification product outlet 120, a first gasification product inlet 130, and a gas outlet 300. The downdraft fixed bed gasification furnace 2000 includes a second body 200 to define a second gasification space to perform a downdraft gasification process on biomass and obtain high temperature char and gasification products, and the second body 200 is provided with a second biomass inlet 210, a second gasification product outlet 220, and a second gasification product inlet 230. In other words, biomass enters the first body 100 through the first biomass inlet 110 and enters the second body 200 through the second biomass inlet 210 for gasification. The first gasification product outlet 120 is connected with the second gasification product inlet 230, and the gasification product processed by the first gasification space is supplied to the second gasification space for gasification processing; meanwhile, the second gasification product outlet 220 is connected to the first gasification product inlet 130, and the gasification product processed by the second gasification space is supplied to the first gasification space for filtering and heat exchange. Finally, the gasified gas subjected to the above-described gasification treatment is discharged from the apparatus through the gas outlet 300. In the vertical direction, the position of the second gasification product inlet 230 is higher than the position of the second gasification product outlet 220, the position of the first gasification product inlet 130 is higher than the position of the first gasification product outlet 120; the difference in height between the position of the first gasification product inlet 130 and the position of the first gasification product outlet 120 is one third to one half of the height of the first body 100. Therefore, the updraft fixed bed gasification furnace 1000 and the downdraft fixed bed gasification furnace 2000 can be effectively combined, so that the biomass is gasified to generate gasified fuel gas, the tar content and the fly ash content in the gasified fuel gas are reduced, and the biomass treatment effect of the device is improved. In addition, it is possible to ensure that the gasified fuel gas discharged from the first gasified product outlet 120 has been treated by the first body 100 and the gasified fuel gas discharged from the second gasified product outlet 220 has also been treated by the second body 200, thereby improving the effect of the apparatus for treating biomass by gasification. In addition, the height difference between the position of the first gasification product inlet 130 and the position of the first gasification product outlet 120 can ensure that the first drying layer 140 in the first body 100 has a sufficient height so as to realize material sealing, thereby avoiding the influence on the safety of the device caused by the backflow of the fuel gas in the updraft type fixed bed gasification furnace 1000.

In the present application, the terms "connected," "communicating," and the like are to be construed broadly unless otherwise explicitly specified or limited. For example, they may be connected directly or indirectly through intervening media or components, interfaces, and channels. The specific meaning of the above terms in the present invention can be understood by those skilled in the art according to specific situations as long as the connection relationship between the respective components of the device according to the embodiment of the present invention and the upstream and downstream relationship of the biomass or gasified gas on the flow line thereof are satisfied. Furthermore, the terms "first" and "second" as used herein are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicit to a number of technical features being indicated. Thus, a feature defined as "first," "second," etc. may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

For ease of understanding, various components for a biomass gasification apparatus according to embodiments of the present invention are described in detail below.

According to the embodiment of the present invention, referring to fig. 2, in the updraft type fixed bed gasification furnace, the first gasification space sequentially includes from top to bottom: a first drying stage 140, a first pyrolysis stage 150, a first reduction stage 160, and a first oxidation stage 170. According to the embodiment of the present invention, the temperature of the first drying section 140 is 30 to 200 degrees celsius, and is used to dry the biomass raw material entering the updraft type fixed bed gasifier 1000, so as to remove moisture in the raw material and preheat the biomass raw material; the temperature of the first pyrolysis section 150 is 200-500 ℃, so that the biomass passing through the drying section is cracked under the anoxic condition, and partial pyrolysis gas is generated while byproduct carbon and tar are generated; the temperature of first reduction section 160 is 700 ~ 900 degrees centigrade to accomplish under the oxygen deficiency condition and produce a plurality of endothermic reduction reactions, for example, according to the utility model discloses an embodiment, reduction reaction includes: reaction of carbon with carbon dioxideCarbon monoxide, carbon and hydrogen are generated to react to generate methane and the like so as to increase CO and CH in pyrolysis products₄Increasing the heat value of the gasified fuel gas; the temperature of the first oxidation stage 170 is 700-1100 ℃, and air is injected into the stage, so that partial combustion of biomass and char and cracking of tar are completed in the presence of oxygen, and heat is supplied for gasification reaction. Furthermore, according to an embodiment of the present invention, a first biomass inlet 110 (not shown) is provided at the top of the first drying section 140, and a first gasification product outlet 120 is provided at the side wall of the first reduction section 160, so that the biomass gasification gas treated by the first reduction section 160 is discharged out of the updraft type fixed bed gasification furnace 1000 for further treatment; a first gasification product inlet 130 is provided on the side wall of the first drying stage 140 for introducing the treated biomass gasification gas into the first gasification space, and a gas outlet 300 is provided on the side wall of the first drying stage 140 for discharging the treated gasification gas out of the apparatus. Thus, the gasification gas with less tar and fly ash content can be obtained, thereby improving the gasification effect of the device for biomass gasification.

According to an embodiment of the present invention, referring to fig. 3, in the downdraft type fixed bed gasification furnace, the second gasification space sequentially includes from top to bottom: a second drying section 240, a second pyrolysis section 250, a second oxidation section 270, and a second reduction section 260. Wherein the second drying section 240 has the same temperature as the first drying section 140 and is used for drying the biomass raw material; the second pyrolysis section 250 has the same temperature as the first pyrolysis section 150, and is used for cracking the biomass to generate pyrolysis gas and tar and charcoal byproducts; the second oxidation stage 270 is at the same temperature as the first oxidation stage 170 and is used for completing the partial combustion of the biomass and the cracking of tar; the second reduction stage 260 has the same temperature as the first reduction stage 160 and serves to complete the reduction reaction to increase the heating value of the gasification gas. Furthermore, according to an embodiment of the present invention, a second gasification product inlet 230 is provided on a side wall of the second drying section 240. And, the second gasification product inlet 230 is connected with the first gasification product outlet 120 so as to supply the gasification gas processed in the first body 100 to the second drying section 240 for further gasification processing; the second gasification product outlet 220 is provided on a side wall of the second reduction stage 260, and the second gasification product outlet 220 is connected to the first gasification product inlet 130 so that the gasification product treated by the second reduction stage 260 is supplied into the first body 100 and finally discharged out of the apparatus through the gas outlet 300, thereby obtaining a gasification gas having a low content of tar and fly ash, thereby enhancing the gasification effect of the apparatus for gasification of biomass.

According to an embodiment of the present invention, in the apparatus for gasification of biomass, the position of the second gasification product inlet 230 is higher than the position of the second gasification product outlet 220, the position of the first gasification product inlet 130 is higher than the position of the first gasification product outlet 120, and the height difference between the position of the first gasification product inlet 130 and the position of the first gasification product outlet 120 is one third to one half of the height of the first body 100 in the vertical direction. Thereby, it is ensured that the gasified fuel gas discharged from the first gasified product outlet 120 has been treated by the first body 100, and the gasified fuel gas discharged from the second gasified product outlet 220 has also been treated by the second body 200, thereby improving the effect of the apparatus for treating the biomass by gasification. In addition, the height difference between the position of the first gasification product inlet 130 and the position of the first gasification product outlet 120 can ensure that the first drying layer 140 in the first body 100 has a sufficient height so as to realize material sealing, thereby avoiding the influence on the safety of the device caused by the backflow of the fuel gas in the updraft type fixed bed gasification furnace 1000.

In addition, according to an embodiment of the present invention, referring to fig. 4, the updraft fixed bed gasifier 1000 further includes a first char outlet 180 and a first gasifying agent inlet 190, and the downdraft fixed bed gasifier 2000 further includes a second char outlet 280 and a second gasifying agent inlet 290. Specifically, according to an embodiment of the present invention, a first char outlet 180 is provided at the bottom of the first body 100 for discharging high-temperature char generated during the gasification process out of the first gasification space; the second char outlet 280 is provided at the bottom of the second body for discharging high-temperature char generated during the gasification process out of the second gasification space. A first gasification agent inlet 190 is provided on a sidewall of the first oxidation stage 170 for supplying air into the first gasification space to complete the gasification process in the first oxidation stage 170; a second gasifying agent inlet 290 is provided on a sidewall of the second oxidation stage 270 for supplying air into the second gasification space so as to complete the gasification process in the second oxidation stage 270. Thereby, the high temperature charcoal in the first body 100 and the second body 200 can be discharged and utilized, thereby improving the energy utilization efficiency of the device according to the embodiment of the present invention.

According to the utility model discloses an embodiment, this a device for biomass gasification can also have first heat exchanger 3000 for carry out heat transfer treatment to high temperature charcoal and low temperature air, so that obtain high temperature air and medium temperature charcoal. According to an embodiment of the present invention, referring to fig. 4, first heat exchanger 3000 includes first low temperature air inlet 3100, high temperature air outlet 3200, high temperature charcoal inlet 3300 and medium temperature charcoal outlet 3400. Specifically, according to an embodiment of the present invention, the first low temperature air inlet 3100 is used to supply low temperature air, which is room temperature air, into the first heat exchanger 3000. The high temperature charcoal inlet 3300 is connected to the first charcoal outlet 180 and the second charcoal outlet 280, and performs heat exchange treatment with low temperature air by using high temperature charcoal discharged from the first body and the second body 200, thereby converting the low temperature air into high temperature air and discharging the high temperature air from the high temperature air outlet 3200, and the high temperature air outlet 3200 is connected to the first gasifying agent inlet 190 and the second gasifying agent inlet 290, thereby supplying the high temperature air to the first gasifying space through the first gasifying agent inlet 190 and the second gasifying agent inlet 290 through the second gasifying agent inlet 290, and performing oxidation treatment of biomass by using the high temperature air; meanwhile, the high-temperature carbon is converted into medium-temperature carbon through heat exchange, and is discharged out of the first heat exchanger 3000 through a medium-temperature carbon outlet 3400. From this, can utilize the high temperature charcoal that produces among the biomass gasification to preheat low temperature air to the air temperature who gets into first gasification space and second gasification space has been improved, thereby has improved biomass oxidation's efficiency, has utilized the sensible heat that high temperature charcoal contains simultaneously, and then has improved device's energy utilization efficiency.

According to the utility model discloses an embodiment, this a device for biomass gasification can also have second heat exchanger 4000 for carry out heat transfer treatment to medium temperature charcoal and low temperature air, so that obtain low temperature charcoal and medium temperature air. According to an embodiment of the present invention, referring to fig. 5, the second heat exchanger 4000 has a second low temperature air inlet 4100, a medium temperature air outlet 4200 and a medium temperature charcoal inlet 4300. Specifically, according to an embodiment of the present invention, the second low temperature air inlet 4100 is used to supply low temperature air, which is room temperature air, into the second heat exchanger 4000. The medium-temperature carbon inlet 4300 is connected with the medium-temperature carbon outlet 3400, and medium-temperature carbon discharged from the first heat exchanger 3000 and low-temperature air are used for heat exchange treatment, so that the low-temperature air is converted into medium-temperature air and is discharged from the medium-temperature air outlet 4200; meanwhile, the medium-temperature carbon is converted into low-temperature carbon through heat exchange. Therefore, the medium-temperature carbon can be used for preheating the low-temperature air and used for subsequent treatment, so that the energy utilization efficiency of the device is improved.

According to an embodiment of the present invention, the apparatus may further have a drying unit 5000. According to an embodiment of the present invention, referring to fig. 6, the drying unit 5000 is connected to the second heat exchanger 4000 and the second biomass inlet 210, respectively, for drying the biomass raw material by using the middle temperature air discharged from the middle temperature air outlet 4200, and supplying the processed dried biomass into the second gasification space through the second biomass inlet 210 for gasification. Thereby, biomass is treated in advance with the medium-temperature air, so that the efficiency of the gasification treatment in the second gasification space is improved, and the treatment effect of the apparatus for gasifying biomass is improved.

In the utility model, the high-temperature charcoal refers to the charcoal produced in the process of gasifying biomass directly discharged from the first gasification space and the second gasification space; the medium-temperature carbon refers to carbon obtained by treating high-temperature carbon by a first heat exchanger 3000; the low-temperature carbon refers to the carbon obtained by treating the medium-temperature carbon by the second heat exchanger 4000. Moreover, as will be understood by those skilled in the art, the high temperature, the medium temperature and the low temperature are relative temperatures, that is, the temperature of the high-temperature carbon is higher than that of the medium-temperature carbon and the low-temperature carbon, and the temperature of the medium-temperature carbon is higher than that of the low-temperature carbon. Particularly, according to the utility model discloses an embodiment, the temperature of high temperature charcoal can be for 550 ~ 650 degrees centigrade, and the temperature of middle temperature charcoal can be for 300 ~ 350 degrees centigrade, and the temperature of low temperature charcoal can be for 120 ~ 150 degrees centigrade.

Meanwhile, in the utility model, the low-temperature air refers to air with room temperature without extra heating or cooling treatment; the medium-temperature air refers to air obtained after heat exchange between low-temperature air and medium-temperature carbon; the high-temperature air refers to air obtained after heat exchange between low-temperature air and high-temperature carbon. The high temperature, the medium temperature, and the low temperature are relative temperatures, that is, the temperature of the high-temperature air is higher than the medium-temperature air and the low-temperature air, and the temperature of the medium-temperature air is higher than the low-temperature air. Particularly, according to the utility model discloses an embodiment, the temperature of high temperature air can be for 200 ~ 250 degrees centigrade, and the temperature of middle temperature air can be for 100 ~ 150 degrees centigrade, and the temperature of low temperature air can be for 0 ~ 35 degrees centigrade.

Furthermore, according to an embodiment of the present invention, the apparatus for biomass gasification may further have a purification unit 6000. According to the embodiment of the utility model, referring to fig. 7, purification unit 6000 links to each other with gas outlet 300, carries out purification treatment to the gasification gas to obtain clean gas. This can further improve the biomass gasification effect of the apparatus.

To sum up, the utility model provides a device for biomass gasification with updraft type fixed bed gasifier and downdraft type fixed bed gasifier. Specifically, according to an embodiment of the present invention, the apparatus is provided with a first gasification product outlet 120 on a side wall of the first reduction stage 160 of the updraft-type fixed bed gasification furnace 1000, and a gasification product processed by the first gasification space is supplied from the second gasification product inlet 230 into the downdraft-type fixed bed gasification furnace 2000 for gasification processing. Thus, the gasification product having a certain content of carbon monoxide, methane, hydrogen, and carbon dioxide, which has been treated in the first reduction stage 160, is subjected to the gasification treatment in the downdraft fixed bed gasifier 2000, particularly the treatment in the second oxidation stage 270, to thereby effect a major portion of the cracking of tar. Meanwhile, the gasification product introduced into the second gasification space from the second gasification product inlet 230 contains a part of ash having a catalytic cracking tar function, thereby reducing the tar content in the gasification product and increasing the calorific value of the fuel gas. Thereafter, the part of the gasification products is discharged from the second gasification space through the second gasification product outlet 220 and re-enters the first drying section 140 of the first gasification space through the first gasification product inlet 130, the gasification products are used to dry and preheat the biomass raw material in the first drying section 140, thereby recovering the sensible heat of the gasification products, simultaneously filtering out most fly ash and tar in the gasification products, and discharging the obtained gasification gas through the gas outlet 300. The fly ash and tar content in the gasified fuel gas after the treatment is low, so that the subsequent purification treatment process of the gasified fuel gas is simplified. Therefore, when the device provided by the embodiment of the utility model is used for gasifying biomass, the requirements on the particle size and the water content of biomass raw materials are both low. For example, according to an embodiment of the present invention, the biomass entering the first body 100 from the first biomass inlet 110 may have a particle size of 1 mm to 3 cm and a water content of not higher than 50%; the biomass introduced into the second body 200 through the second biomass inlet 210 may have a particle size of 1 mm to 5 cm and a water content of not more than 30%. Meanwhile, the updraft-type fixed bed gasifier 1000 may have an air equivalence ratio of 0.18 to 0.35, and the downdraft-type fixed bed gasifier 2000 may have an air equivalence ratio of 0.25 to 0.4. From this, can utilize according to the utility model discloses the device reaches the high-efficient purpose that utilizes the energy and gasify the processing living beings effectively to obtain the biomass gasification gas that has less tar content and ash content.

Furthermore, those skilled in the art can understand that the related modifications and optimizations of the device according to the embodiments of the present invention also belong to the protection scope of the present invention without any creative work. For example, referring to fig. 8, according to some embodiments of the present invention, the apparatus for biomass gasification may further have the following structure: the air holes 10 are arranged on the side walls of the first oxidation section 170 and the second oxidation section 270, so that the uniform air supply can be provided for the first oxidation section 170 and the second oxidation section 270 through the air holes which are surrounded on the side walls of the device, and the biomass oxidation treatment efficiency is improved; the gas guide duct 20 is provided in the downdraft fixed bed gasifier 2000 to prevent the gasification product from flowing back due to an excessive pressure, thereby improving the stability of the system. In addition, an insulating layer can be additionally arranged outside the device so as to keep the temperature inside the device constant; an induced draft fan is additionally provided at the first gasified product outlet 120 so as to discharge the gasified product from the updraft fixed bed gasifier 1000. Thus, the biomass gasification effect of the device can be further improved by adding the components.

For ease of understanding, the following describes a method of performing a biomass gasification process using the apparatus for biomass gasification:

according to the embodiment of the present invention, referring to fig. 4 and fig. 9, the biomass raw material enters the first gasification space through the first biomass inlet 110, i.e. the updraft type fixed bed, sequentially passes through the first drying section 140, the first pyrolysis section 150, the first reduction section 160 and the first oxidation section 170 for gasification treatment, and enters the second gasification space through the second biomass inlet 210, i.e. the downdraft type fixed bed, sequentially passes through the second drying section 240, the second pyrolysis section 250, the second oxidation section 270 and the second reduction section 260 for gasification treatment. The gasification products in the first gasification space are discharged through the first gasification product outlet 120 disposed on the side wall of the first reduction stage 160 and enter the second drying stage 240 of the second gasification space through the second gasification product inlet 230 connected to the first gasification product outlet 120 to continue the gasification process, so as to further reduce the tar content in the gasification products and increase the calorific value of the fuel gas. The gasification products in the second gasification space are discharged from the second gasification space through a second gasification product outlet 220 provided in the side wall of the second reduction stage 260 and are treated by entering the first drying stage 140 in the first gasification space through a first gasification product inlet 130 connected to the second gasification product outlet 220, so as to reduce the tar and fly ash content in the gasification products, while the first biomass raw material is preheated and dried. The gasification product is discharged from the apparatus through the gas outlet 300 after being treated again in the first drying stage 140. Further purification of the gasified fuel gas can be performed by the purification unit 6000 connected to the fuel gas outlet 300. Accordingly, the updraft fixed bed gasification furnace 1000 and the downdraft fixed bed gasification furnace 2000 can be combined, thereby improving the treatment efficiency and effect of the apparatus for biomass gasification.

Furthermore, according to the utility model discloses an embodiment when utilizing the device to carry out biomass gasification, can also let in first heat exchanger 3000 with the high temperature charcoal that produces among the above-mentioned gasification treatment process to utilize first heat exchanger 3000, make high temperature charcoal and low temperature air carry out the heat transfer, so that obtain high temperature air and medium temperature charcoal. Wherein high temperature air is passed into the first oxidation stage 170 (located in an updraft fixed bed, see fig. 9) and the second oxidation stage 270 (located in a downdraft fixed bed, see fig. 9) for the oxidative treatment of biomass. The medium temperature carbon continuously exchanges heat with the low temperature air through the second heat exchanger 4000, and the medium temperature air and the low temperature carbon are obtained. Wherein the medium temperature air is used to previously dry the biomass introduced into the second gasification space (i.e., the downdraft fixed bed, refer to fig. 9) in the drying unit 5000. This enhances the energy utilization efficiency of the biomass gasification treatment by the apparatus, and improves the treatment efficiency and effect of gasification.

For further ease of understanding, the method of biomass gasification using the previously described apparatus for biomass gasification is described in detail below. According to an embodiment of the present invention, referring to fig. 10, the method includes:

S100: gasification treatment

According to an embodiment of the present invention, in this step, in the updraft type fixed bed gasification furnace, the first biomass is gasified with high temperature airCarrying out chemical treatment to obtain a first gasification product and high-temperature carbon; and, in the downdraft fixed bed gasification furnace, the second biomass is gasified with high-temperature air to obtain a second gasification product and high-temperature char. Specifically, according to the utility model discloses an embodiment, first biomass gets into updraft type fixed bed gasification stove, handles through first drying section, first pyrolysis section processing, first reduction section processing and first oxidation section processing in proper order. Wherein the first drying stage process is for drying the first biomass to remove moisture contained therein and preheating the first biomass; the first pyrolysis section treatment is used for cracking the first biomass under the anoxic condition to generate pyrolysis gas and simultaneously generate byproducts of high-temperature carbon and tar; the first reduction stage treatment is used for completing a plurality of reduction reactions under the oxygen deficient condition, for example, according to an embodiment of the present invention, the reduction reactions include: the carbon reacts with carbon dioxide to produce carbon monoxide, the carbon reacts with hydrogen to produce methane and the like, so as to increase CO and CH in the pyrolysis product ₄Thereby increasing the gasification product heating value; the first oxidation section is used for enabling the first biomass to be partially combusted in high-temperature air, and simultaneously cracking tar to obtain a first gasification product. Furthermore, according to the utility model discloses an embodiment, the second living beings get into downdraft fixed bed gasifier, pass through second drying stage processing, second pyrolysis stage processing, second oxidation stage processing and second reduction stage processing in proper order. The second drying section and the first drying section have the same characteristics and advantages, the second pyrolysis section and the first pyrolysis section have the same characteristics and advantages, the second oxidation section and the first oxidation section have the same characteristics and advantages, and the second reduction section and the first reduction section have the same characteristics and advantages, which are not described herein again. Thus, the second biomass is gasified by the treatment of the downdraft fixed bed gasifier to obtain a second gasification product and high-temperature char. Furthermore, according to the utility model discloses an embodiment, the equivalence ratio of high-temperature air can be 0.18 ~ 0.35 in the updraft type fixed bed gasifier, and the equivalence ratio of high-temperature air can be 0.25 ~ 0.4 in the downdraft type fixed bed gasifier. Thereby, a first gasification product can be obtained And a second gasification product, which improves the efficiency and efficiency of biomass gasification in the method.

Furthermore, according to an embodiment of the present invention, referring to fig. 11, the high temperature air for the first oxidation stage and the second oxidation stage is obtained by:

s10: first heat exchange

According to the utility model discloses an embodiment utilizes high temperature charcoal and the low temperature air that produces in carrying out gasification treatment process to first living beings and second living beings to carry out the heat transfer, utilizes high temperature charcoal to heat the low temperature air to produce high temperature air and medium temperature charcoal. Wherein, the low temperature air is room temperature air without additional heating or cooling treatment. Particularly, according to the utility model discloses a temperature of low temperature air can be for 0 ~ 35 degree centigrade, and the temperature of high temperature air can be for 200 ~ 250 degree centigrade, and the temperature of high temperature charcoal can be for 550 ~ 650 degree centigrade, and the temperature of middle temperature charcoal can be for 100 ~ 150 degree centigrade. Therefore, sensible heat contained in the high-temperature carbon can be effectively utilized, high-temperature air is obtained at the same time, and the biomass processing effect of the first oxidation section and the second oxidation section can be improved.

In addition, in order to further improve the gasification treatment effect of the downdraft fixed bed gasifier on the second biomass, before the second biomass enters the downdraft fixed bed gasifier, the second biomass may be dried by using intermediate-temperature air, so as to reduce the water content in the second biomass, and further improve the gasification treatment effect of the second biomass. Specifically, referring to fig. 12, the medium-temperature air is obtained by the following steps:

S20: second heat exchange

According to the utility model discloses an embodiment adopts the medium temperature charcoal that first heat transfer produced, carries out the second heat transfer to the low temperature air and handles to obtain medium temperature air and low temperature charcoal. Particularly, according to the utility model discloses an embodiment, the temperature of middle temperature air can be for 300 ~ 350 degrees centigrade, and the temperature of low temperature charcoal can be for 120 ~ 150 degrees centigrade. Therefore, sensible heat contained in the medium-temperature carbon can be utilized, and the energy utilization efficiency of the method is further improved.

S200: cross feed

In this step, according to an embodiment of the present invention, the first gasification product is supplied to the downdraft fixed bed gasification furnace for gasification treatment, and at the same time, the second gasification product is supplied to the downdraft fixed bed gasification furnace for gasification treatment, so that gasified fuel gas is obtained. Specifically, according to the embodiment of the present invention, the gasification product treated by the first reduction stage in the updraft fixed bed gasification furnace is introduced to the second drying stage of the downdraft fixed bed gasification furnace through the gas pipe for secondary treatment; meanwhile, the gasification product treated by the second reduction section of the downdraft fixed bed gasification furnace is introduced into the drying section of the downdraft fixed bed gasification furnace through a fuel gas pipe for treatment. Therefore, the first gasification product obtained after the treatment of the updraft fixed bed gasification furnace enters the downdraft fixed bed gasification furnace and then is subjected to gasification reaction, so that tar contained in the first gasification product is subjected to secondary cracking, and the heat value of fuel gas in the gasification product is improved; meanwhile, the gasification product mixture of the second gasification product and the first gasification product processed by the downdraft fixed bed gasification furnace can enter the updraft fixed bed gasification furnace through the fuel gas conduit, pass through the first drying layer so as to filter fly ash in the gasification product mixture, and simultaneously the gasification product mixture is processed by the updraft fixed bed gasification furnace again so as to further reduce tar content in the gasification product and increase fuel gas calorific value. Because the cross-feeding mode is adopted, the biomass treatment method has low requirements on the biomass duration and the water content. For example, according to an embodiment of the present invention, the first biomass may have a particle size of 1mm to 3cm and a water content of not more than 50%; the second biomass may have a particle size of 1mm to 5cm and a moisture content of not more than 30%. Therefore, the updraft fixed bed gasification furnace and the downdraft fixed bed gasification furnace can be combined through the cross supply mode, so that large-scale production is facilitated, and the efficiency and the effect of biomass gasification can be improved.

S300: collecting gasified fuel gas

According to the embodiment of the utility model, in this step, the gasification gas is collected from the first dry layer lateral wall of the updraft type gasification furnace. Therefore, after the fly ash is dried and filtered, the gasified fuel gas is discharged out of the updraft fixed bed gasification furnace, so that the subsequent fuel gas treatment steps are simplified.

Furthermore, according to an embodiment of the present invention, referring to fig. 13, the method may further include:

s400: purification treatment

According to the embodiment of the utility model, in this step, further purification treatment is carried out to the gasification gas of discharging updraft type fixed bed gasifier to obtain clean gas. Thereby, the quality of the biomass gasification gas obtained by the device can be further improved.

The present invention is described below by way of specific examples, which are provided for illustrative purposes only and do not limit the scope of the present invention in any way.

Example 1

Taking sawdust as a raw material, wherein the average particle size of the sawdust of a downdraft fixed bed is 2cm, and the water content is 25%; the particle size of the wood dust of the updraft type fixed bed is 4cm, and the water content is 40%; the method comprises the following steps of respectively adding sawdust with the water content of 25% and sawdust with the water content of 40% into a downdraft fixed bed gasification furnace and an updraft fixed bed gasification furnace, introducing gasified fuel gas generated in the updraft fixed bed gasification furnace into a second drying section of the downdraft fixed bed gasification furnace through a draught fan through a fuel gas guide pipe, directly entering a second oxidation section of the downdraft fixed bed gasification furnace through a gas guide pipe, simultaneously introducing the gasified fuel gas of the downdraft fixed bed gasification furnace into a first drying section of the updraft fixed bed gasification furnace through the second oxidation section, introducing all the fuel gas passing through the second oxidation section into the first drying section of the updraft fixed bed gasification furnace through the fuel gas guide pipe, and leading out the high-temperature carbon from the; the low-temperature air and the high-temperature carbon exchange heat to prepare high-temperature air for the gasification of the two fixed bed gasification furnaces; the medium-temperature air obtained by heat exchange between the medium-temperature carbon and the low-temperature air is used for preheating and drying the raw material of the downdraft fixed bed gasification furnace.

The gasification media of the two fixed bed gasification furnaces are air, the air equivalence ratio of the updraft fixed bed gasification furnace is 0.19, and the air equivalence ratio of the downdraft fixed bed gasification furnace is 0.32. The temperature of a fuel gas outlet is 290 ℃, the low calorific value of gasified fuel gas is 7.2MJ/m³The tar content of the fuel gas is 72mg/m³。

Example 2

Taking bagasse as a raw material, drying and roughly molding the bagasse, wherein the average particle size of the bagasse of a downdraft fixed bed is 2cm, the water content is 30%, the average particle size of the bagasse of an updraft fixed bed gasification furnace is 4cm, and the water content is 40%; the bagasse forming particles with the water content of 30% and the bagasse forming particles with the water content of 40% are respectively added into a downdraft fixed bed gasification furnace and an updraft fixed bed gasification furnace, gasified fuel gas generated in the updraft gasification furnace is guided into a second drying section of the downdraft fixed bed gasification furnace through a draught fan through a fuel gas guide pipe and directly enters a second oxidation section of the downdraft fixed bed gasification furnace through a gas guide pipe, the gasified fuel gas of the downdraft fixed bed gasification furnace passes through the second oxidation section, all fuel gas passing through the second oxidation section is guided into a first drying section of the updraft fixed bed gasification furnace through the fuel gas guide pipe and is led out through a fuel gas outlet, and high-temperature carbon is respectively discharged from the bottom of the updraft fixed bed gasification furnace; the low-temperature air and the high-temperature carbon exchange heat to prepare high-temperature air for the gasification of the two fixed bed gasification furnaces; the medium-temperature air obtained by heat exchange between the medium-temperature carbon and the low-temperature air is used for preheating and drying the raw material of the downdraft fixed bed.

The gasification media of the two fixed bed gasification furnaces are air, the equivalence ratio of the air of the updraft fixed bed gasification furnace is 0.22, and the air equivalence ratio of the downdraft fixed bed gasification furnace is0.36. The temperature of a fuel gas outlet is 300 ℃, the low calorific value of gasified fuel gas is 8.21MJ/m³The tar content of the fuel gas is 80mg/m³。

Reference throughout this specification to the description of "one embodiment," "another embodiment," or the like, means that a particular feature, structure, material, or characteristic described in connection with the embodiment is included in at least one embodiment of the invention. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

Although embodiments of the present invention have been shown and described, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art without departing from the scope of the present invention.

Claims (4)

1. An apparatus for gasification of biomass, comprising:

the updraft type fixed bed gasification furnace comprises a first body, wherein a first gasification space is defined in the first body, and a first biomass inlet, a first gasification product outlet, a first gasification product inlet and a fuel gas outlet are formed in the first body;

the downdraft fixed bed gasifier comprises a second body, a second gasification space is limited in the second body, and a second biomass inlet, a second gasification product outlet and a second gasification product inlet are formed in the second body;

wherein,

the first gasification product outlet is connected with the second gasification product inlet;

the second gasification product outlet is connected with the first gasification product inlet; and

a gas outlet;

wherein, in the vertical direction, the second gasification product inlet is located higher than the second gasification product outlet, and the first gasification product inlet is located higher than the first gasification product outlet; the difference in height between the position of the first gasification product inlet and the position of the first gasification product outlet is one third to one half of the height of the first body.

2. The biomass gasification device according to claim 1, wherein the first gasification space defines a first drying section, a first pyrolysis section, a first reduction section and a first oxidation section from top to bottom in sequence in the vertical direction,

wherein,

the first gasification product outlet is arranged on the side wall of the first reduction section; and

the first gasification product inlet is arranged on the side wall of the first drying section;

the second gasification space sequentially defines a second drying section, a second pyrolysis section, a second oxidation section and a second reduction section from top to bottom,

wherein,

the second gasification product outlet is arranged on the side wall of the second reduction section; and

the second gasification product inlet is disposed on a side wall of the second drying section.

3. The apparatus for biomass gasification according to claim 2, further comprising:

the first charcoal outlet is arranged at the bottom of the first body;

the second carbon outlet is arranged at the bottom of the second body;

a first oxidant inlet disposed on a sidewall of the first oxidation stage;

A second gasifying agent inlet arranged on the side wall of the second oxidation section;

a first heat exchanger for exchanging heat with a second heat exchanger,

wherein,

the first heat exchanger includes:

a first low temperature air inlet;

the high-temperature air outlet is respectively connected with the first gasifying agent inlet and the second gasifying agent inlet;

the high-temperature carbon inlet is respectively connected with the first carbon outlet and the second carbon outlet; and

and (5) medium temperature carbon outlet.

4. The apparatus for biomass gasification according to claim 3, further comprising:

a second heat exchanger;

a drying unit connected to the second heat exchanger and the second biomass inlet, respectively,

wherein the second heat exchanger comprises:

the medium-temperature carbon inlet is connected with the medium-temperature carbon outlet;

a second low temperature air inlet; and

a medium temperature air outlet connected to the drying unit.