CN110805912A

CN110805912A - Textile waste organic waste gas combustion waste heat recovery equipment

Info

Publication number: CN110805912A
Application number: CN201911091633.7A
Authority: CN
Inventors: 闻焕宏
Original assignee: Tongxiang Changxin Machinery Specialized Cooperative
Current assignee: Tongxiang Changxin Machinery Specialized Cooperative
Priority date: 2019-11-10
Filing date: 2019-11-10
Publication date: 2020-02-18

Abstract

The invention discloses a waste heat recovery device for organic waste gas combustion of textile waste materials, which comprises a combustion chamber, wherein a heat exchange chamber is arranged on one side of the combustion chamber, a first heat exchange mechanism and a second heat exchange mechanism are arranged in the heat exchange chamber, the second heat exchange mechanism is arranged at the bottom of the first heat exchange mechanism, the first heat exchange mechanism and the second heat exchange mechanism respectively comprise a plurality of heat exchange units, each heat exchange unit comprises a fixed plate frame, a heat exchange copper pipe is arranged on the fixed plate frame, and a first transmission pipe is arranged between the heat exchange units in the first heat exchange mechanism. According to the invention, the heat exchange time of the hot air and the heat exchange liquid is prolonged, and the heat exchange liquid can be used for rapidly absorbing the heat in the hot air.

Description

Textile waste organic waste gas combustion waste heat recovery equipment

Technical Field

The invention relates to the technical field of organic waste gas treatment, in particular to a textile waste organic waste gas combustion waste heat recovery device.

Background

Organic waste gas can produce more heat in the combustion process, for avoiding causing the waste, has adopted among the prior art to carry out the mode of heat transfer with this heat that scatters and disappears and has collected, but it still has some shortcomings in the in-service use in-process, if it adopts the mode of gas heat transfer, when the actual heat transfer, but there is the heat transfer effect poor, the condition such as heat exchange efficiency slow excessively.

Therefore, it is necessary to invent a waste heat recycling device for burning organic waste gas of textile waste to solve the above problems.

Disclosure of Invention

The invention aims to provide a waste heat recovery device for organic waste gas combustion of textile waste materials, which can rapidly absorb heat in hot air by increasing the heat exchange time of the hot air and a heat exchange liquid and utilizing the heat exchange liquid.

In order to achieve the purpose, the invention provides the following technical scheme: a waste textile organic waste gas combustion waste heat recovery device comprises a combustion chamber, wherein a heat exchange chamber is arranged on one side of the combustion chamber, a first heat exchange mechanism and a second heat exchange mechanism are arranged inside the heat exchange chamber, the second heat exchange mechanism is arranged at the bottom of the first heat exchange mechanism, the first heat exchange mechanism and the second heat exchange mechanism respectively comprise a plurality of heat exchange units, each heat exchange unit comprises a fixed plate frame, a heat exchange copper pipe is arranged on each fixed plate frame, a first transmission pipe is arranged between the heat exchange units in the first heat exchange mechanism, a second transmission pipe is arranged between the heat exchange units in the second heat exchange mechanism, a first air inlet pipe is arranged at one end of each first heat exchange mechanism, a first air outlet pipe is arranged at the other end of each first heat exchange mechanism, a first air blower and an air compression unit are arranged on the first air outlet pipe, the air compression unit is arranged on one side of the first air, the heat exchange chamber is filled with heat exchange liquid and is externally provided with a heat insulation layer.

Preferably, the fixed base that is equipped with in compressed air storage jar bottom and the bottom run through and are equipped with the gas tube, be equipped with the stop valve on the gas tube, the gas tube tip is equipped with the hose, the hose tip is equipped with inflatable joint.

Preferably, the combustion chamber inner chamber top is equipped with gas transmission chamber, it is equipped with the second outlet duct to go up fixed first baffle and the top that are equipped with in gas transmission chamber bottom, second outlet duct tip is equipped with the third outlet duct, third outlet duct one end is equipped with the sealing plug and the other end is equipped with first filter mechanism, be equipped with the fourth outlet duct on the first filter mechanism.

Preferably, the bottom of the inner cavity of the combustion chamber is provided with a lower gas transmission cavity, a second partition plate is fixedly arranged on the inner side of the lower gas transmission cavity, gas holes are formed in the first partition plate and the second partition plate in a penetrating mode, a second gas inlet pipe is arranged on the lower gas transmission cavity, and a second air blower is arranged on the second gas inlet pipe.

Preferably, the fourth air outlet pipe and the second air inlet pipe are both communicated with the second heat exchange mechanism.

Preferably, the end part of the first air inlet pipe is provided with a second filtering mechanism, and the end part of the second filtering mechanism is provided with a third air inlet pipe.

Preferably, first filtering mechanism and second filtering mechanism all include the casing, the inside dust filter bag that is equipped with of casing, be equipped with spacing area on the dust filter bag, spacing area one end and dust filter bag fixed connection and the other end and casing fixed connection.

Preferably, the air compression unit is provided with an air compressor, and the heat exchange liquid is water.

The invention has the technical effects and advantages that:

1. the invention increases the heat exchange time of the hot air and the heat exchange liquid by arranging a plurality of heat exchange units in the second heat exchange mechanism, namely adopting redundant arrangement, simultaneously, because the heat exchange liquid is arranged into water, the specific heat capacity of the water is higher than that of the air, the heat exchange liquid can quickly absorb the heat in the hot air, compared with the gas-gas heat exchange in the prior art, the gas-liquid heat exchange mode adopted by the invention has better heat exchange effect and quicker heat exchange efficiency, simultaneously, the heat exchange liquid with higher temperature can move upwards and the heat exchange liquid with lower temperature can move downwards due to the cold-heat convection after being heated, the air in the first heat exchange mechanism exchanges heat with the heat exchange liquid with higher temperature at the upper layer, thereby absorbing the heat of the heat exchange liquid at the upper layer, then the heat exchange liquid enters the air compression unit to be compressed and then is stored in the compressed air storage tank, the design is reasonable, and the use is convenient, the compressed high-temperature air is more convenient to store;

2. the first filtering mechanism and the second filtering mechanism are arranged, so that hot air generated by combustion inside the combustion chamber and external air can be conveniently filtered, the situation that dust enters the heat exchange copper pipe and the heat exchange effect is influenced is avoided, meanwhile, the dust filtering bag can be effectively fixed due to the arrangement of the limiting belts in the first filtering mechanism and the second filtering mechanism, so that the dust filtering bag is in a tensioning state, the situation that when external air enters, the effective surface area of the dust filtering bag is reduced due to the fact that the dust filtering bag is blown with folds is avoided, and the filtering effect of the dust filtering bag is ensured;

3. the upper gas transmission cavity is arranged, so that hot air at the top of the inner cavity of the combustion chamber can be uniformly sucked, the lower gas transmission cavity can uniformly input the air subjected to heat exchange to the bottom of the inner cavity of the combustion chamber, the air in the combustion chamber is gradually heated from bottom to top and gradually moves upwards from bottom to top, high-temperature air is sucked by the upper gas transmission cavity, and low-temperature air cannot enter the upper gas transmission cavity, so that the heat exchange effect is ensured.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic top view of the heat exchange unit of the present invention.

FIG. 3 is a schematic top view of a lower gas transfer chamber according to the present invention.

Fig. 4 is a schematic structural diagram of a first filter mechanism of the present invention.

In the figure: 1 combustion chamber, 2 heat exchange chamber, 3 first heat exchange mechanism, 4 second heat exchange mechanism, 5 heat exchange unit, 6 fixed plate frame, 7 heat exchange copper pipe, 8 first transmission pipe, 9 second transmission pipe, 10 first air inlet pipe, 11 first air outlet pipe, 12 first air blower, 13 air compression unit, 14 compressed air storage tank, 15 base, 16 inflation pipe, 17 stop valve, 18 hose, 19 inflation joint, 20 heat exchange liquid, 21 upper air transmission cavity, 22 first partition board, 23 second air outlet pipe, 24 third air outlet pipe, 25 sealing plug, 26 first filtering mechanism, 27 fourth air outlet pipe, 28 lower air transmission cavity, 29 second partition board, 30 air hole, 31 second air inlet pipe, 32 second air blower, 33 second filtering mechanism, 34 third air inlet pipe, 35 heat preservation and insulation layer, 36 casing, 37 dust filtration bag, 38 spacing belt.

Detailed Description

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

Example 1

The invention provides a waste heat recovery device for organic waste gas combustion of textile waste, which comprises a combustion chamber 1, wherein a heat exchange chamber 2 is arranged on one side of the combustion chamber 1, a first heat exchange mechanism 3 and a second heat exchange mechanism 4 are arranged in the heat exchange chamber 2, the second heat exchange mechanism 4 is arranged at the bottom of the first heat exchange mechanism 3, the first heat exchange mechanism 3 and the second heat exchange mechanism 4 respectively comprise a plurality of heat exchange units 5, each heat exchange unit 5 comprises a fixed plate frame 6, a heat exchange copper pipe 7 is arranged on the fixed plate frame 6, a first transmission pipe 8 is arranged between the heat exchange units 5 in the first heat exchange mechanism 3, a second transmission pipe 9 is arranged between the heat exchange units 5 in the second heat exchange mechanism 4, a first air inlet pipe 10 is arranged at one end of the first heat exchange mechanism 3, a first air outlet pipe 11 is arranged at the other end of the first heat exchange mechanism, a first air blower 12 and an air compression unit 13 are arranged on the first air outlet, the air compression unit 13 is arranged on one side of the first air blower 12, the end of the first air outlet pipe 11 is provided with a compressed air storage tank 14, the heat exchange chamber 2 is filled with heat exchange liquid 20, and the outside of the heat exchange chamber is provided with a heat insulation layer 35.

From the above embodiment, it can be seen that: the invention increases the heat exchange time of the hot air and the heat exchange liquid 20 by arranging a plurality of heat exchange units 5 in the second heat exchange mechanism 4, namely adopting redundant arrangement, simultaneously, because the heat exchange liquid 20 is arranged into water, the specific heat capacity of the water is higher than that of the air, the heat exchange liquid 20 can rapidly absorb the heat in the hot air, compared with the gas-gas heat exchange in the prior art, the invention adopts a gas-liquid heat exchange mode to achieve better heat exchange effect and faster heat exchange efficiency, simultaneously, because of the cold-heat convection after the heat exchange liquid 20 is heated, the heat exchange liquid 20 with higher temperature can move upwards, the heat exchange liquid 20 with lower temperature can move downwards, the air in the first heat exchange mechanism 3 exchanges heat with the heat exchange liquid 20 with higher temperature in the upper layer, thereby absorbing the heat of the heat exchange liquid 20 in the upper layer, then enters the air compression unit 13 to be compressed and then is stored in the compressed air storage tank 14, reasonable in design, convenient to use, the high temperature air after the compression is convenient for save more.

Example 2

Further, in the above embodiment 1, the bottom of the compressed air storage tank 14 is fixedly provided with a base 15, the bottom of the compressed air storage tank is provided with an inflation tube 16 in a penetrating manner, the inflation tube 16 is provided with a stop valve 17, the end of the inflation tube 16 is provided with a hose 18, and the end of the hose 18 is provided with an inflation connector 19.

Further, in the above embodiment 1, the top of the inner cavity of the combustion chamber 1 is provided with an upper gas transmission cavity 21, the bottom of the upper gas transmission cavity 21 is fixedly provided with a first partition 22, the top of the upper gas transmission cavity is provided with a second gas outlet pipe 23, the end of the second gas outlet pipe 23 is provided with a third gas outlet pipe 24, one end of the third gas outlet pipe 24 is provided with a sealing plug 25, the other end of the third gas outlet pipe is provided with a first filtering mechanism 26, and the first filtering mechanism 26 is provided with a fourth gas outlet pipe 27.

Further, in embodiment 1, a lower gas transmission cavity 28 is disposed at the bottom of the inner cavity of the combustion chamber 1, a second partition plate 29 is fixedly disposed inside the lower gas transmission cavity 28, the first partition plate 22 and the second partition plate 29 are both provided with air holes 30 in a penetrating manner, a second air inlet pipe 31 is disposed on the lower gas transmission cavity 28, and a second air blower 32 is disposed on the second air inlet pipe 31.

Further, in the above embodiment 1, the fourth air outlet pipe 27 and the second air inlet pipe 31 are both communicated with the second heat exchanging mechanism 4, so that the hot air inside the combustion chamber 1 returns to the combustion chamber 1 after the heat exchange is finished.

Further, in embodiment 1, a second filtering mechanism 33 is disposed at an end of the first air inlet pipe 10, and a third air inlet pipe 34 is disposed at an end of the second filtering mechanism 33, so as to filter the outside air, thereby preventing dust from entering the heat exchange copper pipe 7 and affecting the heat exchange effect.

Further, in above-mentioned embodiment 1, first filtering mechanism 26 and second filtering mechanism 33 all include casing 36, casing 36 is inside to be equipped with dust filter bag 37, be equipped with spacing area 38 on the dust filter bag 37, spacing area 38 one end and dust filter bag 37 fixed connection and the other end and casing 36 fixed connection to spacing area 38 can be effectively fixed dust filter bag 37, so that with make dust filter bag 37 be in the tensioning state, avoid when the outside air enters into, blow the condition emergence that the fold leads to dust filter bag 37 effective surface area to reduce with dust filter bag 37, guaranteed dust filter bag 37's filter effect.

Further, in the above embodiment 1, the air compression unit 13 is provided with an air compressor, the heat exchange liquid 20 is water, and the specific heat capacity of water is higher than that of air, so the heat exchange liquid 20 can rapidly absorb heat in hot air, and compared with the gas-gas heat exchange in the prior art, the gas-liquid heat exchange mode adopted by the present invention has a better heat exchange effect and a faster heat exchange efficiency.

The working principle of the invention is as follows:

referring to the attached drawings 1 and 2 of the specification, organic waste gas is combusted in a combustion chamber 1 to generate hot air, a second air blower 32 blows air to the bottom of an inner cavity of the combustion chamber 1 through a second air inlet pipe 31, the hot air at the top of the inner cavity of the combustion chamber 1 enters an upper gas transmission cavity 21 through a second partition plate 29 on a first partition plate 22 and then enters a second heat exchange mechanism 4 through a second air outlet pipe 23, a third air outlet pipe 24, a first filtering mechanism 26 and a fourth air outlet pipe 27, the hot air in the second heat exchange mechanism 4 exchanges heat with heat exchange liquid 20 in the heat exchange chamber 2, as a plurality of heat exchange units 5 in the second heat exchange mechanism 4 are arranged, namely redundant arrangement is adopted, the heat exchange time of the hot air and the heat exchange liquid 20 is prolonged, and meanwhile, as the heat exchange liquid 20 is set to be water, the water has a higher capacity than air, the heat exchange liquid 20 can quickly absorb heat in the hot air, compared with the gas-gas heat exchange in the prior art, the gas-liquid heat exchange mode adopted by the invention has better heat exchange effect and higher heat exchange efficiency, meanwhile, after the heat exchange liquid 20 is heated, the heat exchange liquid 20 with higher temperature can move upwards and the heat exchange liquid 20 with lower temperature can move downwards due to cold and hot convection, the first air blower 12 sucks the outside air into the first heat exchange mechanism 3, and the air in the first heat exchange mechanism 3 exchanges heat with the heat exchange liquid 20 with higher temperature at the upper layer, so that the heat of the heat exchange liquid 20 at the upper layer is absorbed, then the air enters the air compression unit 13, is compressed and then is stored in the compressed air storage tank 14, the design is reasonable, the use is convenient, and the compressed high-temperature air is more convenient to store;

referring to the attached drawings 1 and 4 of the specification, the first filtering mechanism 26 and the second filtering mechanism 33 are arranged, so that hot air and external air generated by combustion in the combustion chamber 1 can be filtered, dust is prevented from entering the heat exchange copper pipe 7, and the heat exchange effect is prevented from being affected;

referring to specification attached drawing 1 and figure 3, through being equipped with gas transmission chamber 21, so that can be comparatively even with the hot-air suction at combustion chamber 1 inner chamber top, lower gas transmission chamber 28 then can be with comparatively even input combustion chamber 1 inner chamber bottom of air after the heat transfer, thereby make combustion chamber 1 inside air become hot gradually and move upwards gradually from lower to upper, thereby guarantee that high temperature air is by last gas transmission chamber 21 suction, gas transmission chamber 21 is gone into to the unable entering of low temperature air, thereby guarantee the heat transfer effect.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims

1. The utility model provides a textile waste organic waste gas burning waste heat recovery equipment, includes combustion chamber (1), its characterized in that: a heat exchange chamber (2) is arranged on one side of the combustion chamber (1), a first heat exchange mechanism (3) and a second heat exchange mechanism (4) are arranged in the heat exchange chamber (2), the second heat exchange mechanism (4) is arranged at the bottom of the first heat exchange mechanism (3), the first heat exchange mechanism (3) and the second heat exchange mechanism (4) both comprise a plurality of heat exchange units (5), each heat exchange unit (5) comprises a fixed plate frame (6), a heat exchange copper pipe (7) is arranged on each fixed plate frame (6), a first transmission pipe (8) is arranged between the heat exchange units (5) in the first heat exchange mechanism (3), a second transmission pipe (9) is arranged between the heat exchange units (5) in the second heat exchange mechanism (4), a first air inlet pipe (10) is arranged at one end of the first heat exchange mechanism (3) and a first air outlet pipe (11) is arranged at the other end of the first heat exchange mechanism, a first air blower (12) and an air compression unit (13) are arranged on the first air, the air compression unit (13) is arranged on one side of the first air blower (12), the end of the first air outlet pipe (11) is provided with a compressed air storage tank (14), the heat exchange chamber (2) is filled with heat exchange liquid (20) and is externally provided with a heat insulation layer (35).

2. The textile waste organic waste gas combustion waste heat recovery device of claim 1, characterized in that: compressed air storage jar (14) bottom is fixed to be equipped with base (15) and the bottom runs through to be equipped with gas tube (16), be equipped with stop valve (17) on gas tube (16), gas tube (16) tip is equipped with hose (18), hose (18) tip is equipped with inflatable joint (19).

3. The textile waste organic waste gas combustion waste heat recovery device of claim 1, characterized in that: the gas transmission cavity (21) is equipped with at combustion chamber (1) inner chamber top, it is equipped with first baffle (22) and top and is equipped with second outlet duct (23) to go up fixed being equipped with in gas transmission cavity (21) bottom, second outlet duct (23) tip is equipped with third outlet duct (24), third outlet duct (24) one end is equipped with sealing plug (25) and the other end is equipped with first filtering mechanism (26), be equipped with fourth outlet duct (27) on first filtering mechanism (26).

4. The textile waste organic waste gas combustion waste heat recovery device of claim 3, characterized in that: gas transmission chamber (28) under combustion chamber (1) inner chamber bottom is equipped with, gas transmission chamber (28) inboard is fixed down and is equipped with second baffle (29), all run through on first baffle (22) and second baffle (29) and be equipped with gas pocket (30), be equipped with second intake pipe (31) down on gas transmission chamber (28), be equipped with second air-blower (32) on second intake pipe (31).

5. The textile waste organic waste gas combustion waste heat recovery device of claim 4, characterized in that: and the fourth air outlet pipe (27) and the second air inlet pipe (31) are communicated with the second heat exchange mechanism (4).

6. The textile waste organic waste gas combustion waste heat recovery device of claim 1, characterized in that: the end part of the first air inlet pipe (10) is provided with a second filtering mechanism (33), and the end part of the second filtering mechanism (33) is provided with a third air inlet pipe (34).

7. The textile waste organic waste gas combustion waste heat recovery device of claim 6, characterized in that: first filtering mechanism (26) and second filtering mechanism (33) all include casing (36), casing (36) inside is equipped with dust filter bag (37), be equipped with spacing area (38) on dust filter bag (37), spacing area (38) one end and dust filter bag (37) fixed connection and the other end and casing (36) fixed connection.

8. The textile waste organic waste gas combustion waste heat recovery device of claim 1, characterized in that: the air compression unit (13) is provided with an air compressor, and the heat exchange liquid (20) is water.