CN205786414U - A kind of bell-jar biomass microwave thermal decomposition test device - Google Patents

Abstract

The utility model discloses a kind of bell-jar biomass microwave thermal decomposition test device, including discharge duct, also include the bell-jar pyrolysis oven being made up of absorbing material, it is coated with external thermal insulation outside the furnace wall of this pyrolysis oven, seal with thermal insulation layer at pyrolysis oven bottom opening, one end of described discharge duct communicates with the external world, and the other end of discharge duct sequentially passes through external thermal insulation, the furnace wall of pyrolysis oven communicates with the burner hearth of pyrolysis oven.This utility model device has good sealing property, and microwave leakage rate is low, safe and reliable, and testable biomass sample mass range is bigger, it is possible to obtain accurate experiment parameter；Example weight and the on-line measurement of pyrolysis temperature in biomass microwave thermal cracking processes can be realized, tar in pyrolysis gas-phase product will not condense on the furnace wall of pyrolysis oven, coordinate online gas phase analysis instrument, can accurately measure related data, operate also very convenient simultaneously, be very suitable for process and the mechanism thereof of the cracking of postgraduate's material microwave thermal.

Description

A kind of bell-jar biomass microwave thermal decomposition test device

Technical field

This utility model belongs to biomass microwave pyrolytic technique field, particularly to a kind of bell-jar biomass microwave thermal decomposition test device.

Background technology

Biomass energy is a kind of clean reproducible energy having the biggest application prospect.Biomass pyrolytic can obtain the products such as fuel gas, bio oil and charcoal.Under current severe Energy situation and ambient pressure, biomass pyrolytic technology is extensively applied.Biomass microwave pyrolysis because of have pyrolysis rate soon, energy utilization efficiency high is highly valued.

Biomass microwave pyrolytic process is along with sufficiently complex physical-chemical reaction, pyrolysis mechanism is sufficiently complex, influence factor is more, and biomass microwave pyrolytic process and the research of mechanism, to exploitation, designs corresponding pyrolysis installation and obtains important control parameter tool and be of great significance.

In recent years, patent and document about biomass microwave pyrolysis installation are more, and little for the experimental provision of biomass microwave pyrolytic process and study mechanism.Thermogravimetric analyzer is often used to the pyrolytic process of postgraduate's material, but current existing thermogravimetric analyzer does not use microwave heat, and the range of traditional thermogravimetric analyzer weighing is the least, the raw meal particle size required is the least, there is the biggest difference with the situation of commercial Application in this, its result is just difficult to Instructing manufacture practice well.Therefore exploitation one has range of weighing more greatly and can accurately measure again the biomass microwave Pyrolysis Experiment device of change in process and thermal decomposition product, for postgraduate's material microwave pyrolytic process and mechanism, just seems the most necessary.

Shandong University Zhao Xi is strong et al. devises small microwave Pyrolysis Experiment device, and package unit includes that microwave occurs and control system, resonator cavity, quality measurement system, temperature measuring system, pyrolysis and product collection analyze system and data collecting system.This experimental provision is capable of weight of material and the online acquisition of microwave-heating reaction temperature and display, the gas-phase product that pyrolytic reaction produces can be derived, after sequentially passing through high temperature filtration device, chiller, air-washer, drying device, gas analyser is used to carry out the on-line checking of gas componant.But whole reaction is carried out in the quartz container that volume is the least, the biomass samples amount loaded is few, the gas-phase product that pyrolysis produces is in the possible partial condensation of wall of introduction pipe, the test result of gas-phase product can be affected, particularly incoming end and the outfan of quartz container all connects with pipe, and this can affect electronic balance significantly and measure the accuracy of sample weight.

Summary of the invention

The purpose of this utility model is, for above-mentioned the deficiencies in the prior art, it is provided that a kind of bell-jar biomass microwave thermal decomposition test device, for postgraduate's material microwave pyrolytic process and mechanism.

For solving above-mentioned technical problem, this utility model be the technical scheme is that

A kind of bell-jar biomass microwave thermal decomposition test device, including discharge duct, also include the bell-jar pyrolysis oven being made up of absorbing material, it is coated with external thermal insulation outside the furnace wall of this pyrolysis oven, seal with thermal insulation layer at pyrolysis oven bottom opening, one end of described discharge duct communicates with the external world, and the other end of discharge duct sequentially passes through external thermal insulation, the furnace wall of pyrolysis oven communicates with the burner hearth of pyrolysis oven.

By said structure, the furnace wall of pyrolysis oven is made up of absorbing material, higher temperature can be kept in microwave heating process, can prevent the tar in the gas-phase product that biomass through pyrolysis process produces from condensing at pyrolysis oven inwall, the test result of gas-phase product will not be impacted.

Further, also include the online balance below thermal insulation layer, the charging saggar in pyrolysis oven burner hearth and inner thermal insulating layer, this charging saggar is made by microwave transparent material, described inner thermal insulating layer is positioned at bottom charging saggar, and the support bar of online balance through thermal insulation layer and is connected with inner thermal insulating layer.

Charging saggar volume is relatively big, can load more biomass samples, the parameters such as sample granularity, sample layer thickness are carried out experimentation.The design of heat-insulation layer can reduce the heat transfer loss of charging saggar, is conducive to the biomass material in charging saggar to be rapidly heated, prevents heat going down in order to avoid affecting online balance and normally working simultaneously.

Further, also include aerating pipe, between described inner thermal insulating layer and thermal insulation layer, there is gap, one end of described aerating pipe communicates with the external world, the other end of aerating pipe sequentially passes through external thermal insulation, the furnace wall of pyrolysis oven communicates with the burner hearth of pyrolysis oven, and the opening of aerating pipe is just to the gap between inner thermal insulating layer and thermal insulation layer.

Aerating pipe is arranged on the downside of pyrolysis oven, with the air in inert gas replacement burner hearth before experiment, it is to avoid the air impact on biomass microwave pyrolytic process；It is passed through the noble gas of certain flow during experiment, biomass pyrolytic gas phase product can be blocked and escape from the gap between support bar and thermal insulation layer.

Further, pyrolysis oven being additionally provided with thermocouple, the measurement end of this thermocouple stretches in charging saggar.

Thermocouple is for the temperature of measurement material in real time, and thermocouple needs not contact with material near material, it is to avoid affect the measurement result of online balance.

Further, including microwave source, described microwave source is arranged on above the side of pyrolysis oven.

As a kind of optimal way, pyrolysis oven top is located at by described discharge duct.

Discharge duct derives pipeline as thermal decomposition product, is located at pyrolysis oven top, is not connected with charging saggar, can realize the accurate measurement of specimen sample weight.

As a kind of optimal way, described thermocouple is located at pyrolysis oven top.

Thermocouple is located at pyrolysis oven top, convenient installation and maintenance.

Further, including the frame resting on the ground and lifting platform, described pyrolysis oven is fixedly arranged on frame epimere, and the gentle thermal insulation layer in described online sky is located on lifting platform and can be with lifting platform one lifting.

Charging saggar and inner thermal insulating layer, can be with lifting platform one liftings by the they sup-port of online balance.Experimenter is by manipulation lifting platform, it is convenient to feed.

Further, sand seal or water seal are used between described lifting platform and pyrolysis oven.

Sand seal or water seal is used, it is to avoid air enters pyrolysis oven burner hearth between lifting platform and pyrolysis oven.

Further, it is provided with roller bottom described lifting platform.

Arranging of roller can be moved easily whole experimental provision.

This utility model device has good sealing property, and microwave leakage rate is low, safe and reliable, and testable biomass sample mass range is relatively big, considers the external condition that may impact experiment parameter, it is possible to obtain accurate experiment parameter comprehensively；Example weight and the on-line measurement of pyrolysis temperature in biomass microwave thermal cracking processes can be realized, tar in pyrolysis gas-phase product will not condense on the furnace wall of pyrolysis oven, coordinate online gas phase analysis instrument, can accurately measure related data, operate also very convenient simultaneously, be very suitable for process and the mechanism thereof of the cracking of postgraduate's material microwave thermal.

Accompanying drawing explanation

Fig. 1 is the structural representation of this utility model one embodiment.

Wherein, 1 is microwave source, and 2 is thermocouple, and 3 is discharge duct, and 4 is external thermal insulation, and 5 is frame, and 6 is charging saggar, and 7 is pyrolysis oven, and 8 is inner thermal insulating layer, and 9 is thermal insulation layer, and 10 is lifting platform, and 11 is aerating pipe, and 12 is support bar, and 13 is roller, and 14 is online balance.

Detailed description of the invention

As it is shown in figure 1, an embodiment of the present utility model includes microwave source 1 and discharge duct 3, also including the bell-jar pyrolysis oven 7 being made up of absorbing material, described microwave source 1 is arranged on above the side of pyrolysis oven 7.External thermal insulation 4 it is coated with outside the furnace wall of this pyrolysis oven 7, seal with thermal insulation layer 9 at pyrolysis oven 7 bottom opening, one end of described discharge duct 3 communicates with the external world, and the other end of discharge duct 3 sequentially passes through external thermal insulation 4, the furnace wall of pyrolysis oven 7 communicates with the burner hearth of pyrolysis oven 7.

This utility model also includes the online balance 14 below thermal insulation layer 9, charging saggar 6 in pyrolysis oven 7 burner hearth and inner thermal insulating layer 8, this charging saggar 6 is made by microwave transparent material, described inner thermal insulating layer 8 is positioned at bottom charging saggar 6, and the support bar 12 of online balance 14 through thermal insulation layer 9 and is connected with inner thermal insulating layer 8.

This utility model also includes aerating pipe 11, between described inner thermal insulating layer 8 and thermal insulation layer 9, there is gap, one end of described aerating pipe 11 communicates with the external world, the other end of aerating pipe 11 sequentially passes through external thermal insulation 4, the furnace wall of pyrolysis oven 7 communicates with the burner hearth of pyrolysis oven 7, and the opening of aerating pipe 11 is just to the gap between inner thermal insulating layer 8 and thermal insulation layer 9.Wherein in Fig. 1, direction shown in arrow is that noble gas is filled with direction.

Being additionally provided with thermocouple 2 on pyrolysis oven 7, the measurement end of this thermocouple 2 stretches in charging saggar 6.

Described discharge duct 3 and thermocouple 2 are located at pyrolysis oven 7 top.

This utility model also includes frame 5 and the lifting platform 10 resting on the ground, and described pyrolysis oven 7 is fixedly arranged on frame 5 epimere, and described online balance 14 and thermal insulation layer 9 are located on lifting platform 10 and can be with lifting platform 10 1 lifting.

Described lifting platform 10 is hand-operated lifting platform 10, uses sand seal or water seal between lifting platform 10 and pyrolysis oven 7.Roller 13 it is provided with bottom lifting platform 10.

Claims (10)

1. a bell-jar biomass microwave thermal decomposition test device, including discharge duct (3), it is characterized in that, also include the bell-jar pyrolysis oven (7) being made up of absorbing material, external thermal insulation (4) it is coated with outside the furnace wall of this pyrolysis oven (7), seal with thermal insulation layer (9) at pyrolysis oven (7) bottom opening, one end of described discharge duct (3) communicates with the external world, and the other end of discharge duct (3) sequentially passes through external thermal insulation (4), the furnace wall of pyrolysis oven (7) communicates with the burner hearth of pyrolysis oven (7).

2. bell-jar biomass microwave thermal decomposition test device as claimed in claim 1, it is characterized in that, also include the online balance (14) of thermal insulation layer (9) lower section, charging saggar (6) in pyrolysis oven (7) burner hearth and inner thermal insulating layer (8), this charging saggar (6) is made by microwave transparent material, described inner thermal insulating layer (8) is positioned at charging saggar (6) bottom, and the support bar (12) of online balance (14) through thermal insulation layer (9) and is connected with inner thermal insulating layer (8).

3. bell-jar biomass microwave thermal decomposition test device as claimed in claim 2, it is characterized in that, also include aerating pipe (11), between described inner thermal insulating layer (8) and thermal insulation layer (9), there is gap, one end of described aerating pipe (11) communicates with the external world, the other end of aerating pipe (11) sequentially passes through external thermal insulation (4), the furnace wall of pyrolysis oven (7) communicates with the burner hearth of pyrolysis oven (7), and the opening of aerating pipe (11) is just to the gap between inner thermal insulating layer (8) and thermal insulation layer (9).

4. bell-jar biomass microwave thermal decomposition test device as claimed in claim 2, it is characterised in that being additionally provided with thermocouple (2) on pyrolysis oven (7), the measurement end of this thermocouple (2) stretches in charging saggar (6).

5. bell-jar biomass microwave thermal decomposition test device as claimed in claim 1, it is characterised in that include that microwave source (1), described microwave source (1) are arranged on above the side of pyrolysis oven (7).

6. bell-jar biomass microwave thermal decomposition test device as claimed in claim 1, it is characterised in that pyrolysis oven (7) top is located at by described discharge duct (3).

7. bell-jar biomass microwave thermal decomposition test device as claimed in claim 4, it is characterised in that described thermocouple (2) is located at pyrolysis oven (7) top.

8. bell-jar biomass microwave thermal decomposition test device as claimed in claim 2, it is characterized in that, including the frame (5) resting on the ground and lifting platform (10), described pyrolysis oven (7) is fixedly arranged on frame (5) epimere, and described online balance (14) and thermal insulation layer (9) are located on lifting platform (10) and can be with lifting platform (10) lifting.

9. bell-jar biomass microwave thermal decomposition test device as claimed in claim 8, it is characterised in that use sand seal or water seal between described lifting platform (10) and pyrolysis oven (7).

10. bell-jar biomass microwave thermal decomposition test device as claimed in claim 8 or 9, it is characterised in that described lifting platform (10) bottom is provided with roller (13).