CN102090707B

CN102090707B - Low-carbon dense baking system for modulating cured tobacco

Info

Publication number: CN102090707B
Application number: CN 201010587512
Authority: CN
Inventors: 谢德平; 肖建国; 朱江涛; 王广山; 张要旭; 刘阳; 钟彩峰; 郭松霞; 魏红军; 祁海峰
Original assignee: PINGDINGSHAN BRANCH OF HENAN TOBACCO Co
Current assignee: PINGDINGSHAN BRANCH OF HENAN TOBACCO Co
Priority date: 2010-12-15
Filing date: 2010-12-15
Publication date: 2012-09-26
Anticipated expiration: 2030-12-15
Also published as: CN102090707A

Abstract

The invention relates to a low-carbon dense baking system for modulating cured tobacco, comprising a group of dense curing barns; a double-arch film tent is arranged above each dense curing barn; a double-arch film heat-collecting and heat-trapping room is arranged below each double-arch film tent; the double-arch film heat-collecting and heat-trapping room is communicated with a hot air shared passage; a single-pit hot air personal passage communicated with a dense curing barn heating room is arranged on the hot air shared passage; a high-temperature smoke radiation pipe communicated with a heating furnace chimney through a smoke on-off machine is arranged in the double-arch film heat-collecting and heat-trapping room; the high-temperature smoke radiation pipe is communicated with a smoke interconnecting passage; and the smoke interconnecting passage is communicated with a smoke devulcanizer; and the smoke devulcanizer is communicated with a desulphurization reaction settling pond. The system is reasonable in design, thereby reducing the energy consumption of the tobacco modulation by more than 40% and reducing the discharge of pollutants by more than 60%.

Description

The intensive baking system of flue-cured tobacco modulation low-carbon (LC)

Technical field

The present invention relates to a kind of energy-saving and emission-reduction baking system of barn, be specifically related to a kind of intensive baking system of flue-cured tobacco modulation low-carbon (LC) that is applicable in the bulk curing barn.

Background technology

When tobacco flue-curing, the conventional heat supply energy mainly is coal at present, though the more traditional barn of the tobacco-leaf bulk curing barn of promoting the use of at present has certain effect of coal saving, the mode that also exists is extensive, problems such as resource consumption is big, waste is serious, pollution aggravation; Also there is the part bulk curing barn to set up the solar energy optical-thermal application at the top of barn; But the limited topside area of single seat barn has limited the collection of heat energy; And the limited heat energy of being gathered also only limits to this barn and uses, and causes the solar energy optical-thermal effect bad; Also have part bulk curing barn crowd to use the waste heat technology of sharing, but the waste heat shared structure is complicated, construction cost is high or simple in structure and effect is bad, has limited practical application; All up to now is the tobacco-leaf bulk curing barn of the heat supply energy with the coal, in use all the coal combustion emission is not handled and directly is discharged in the atmosphere, exists serious pollution problem; So in the flue-cured tobacco modulation, do a good job of it the energy-saving and emission-reduction of tobacco leaf condensed baking; Walk to throw the road of low-carbon emission, high benefit, sustainable development; It is the inevitable choice of development of modern tobacco agriculture and raising method for flue-curing tobacco leaves; Also with the energy-saving and emission-reduction work of strong drive multi-form agriculture, promote the transformation of agricultural production mode simultaneously.

Summary of the invention

To the deficiency of prior art, the object of the present invention is to provide a kind of low-carbon environment-friendly, resource utilization height, baking finished product high-quality, flue-cured tobacco rational in infrastructure, that baking efficient is high to modulate the intensive baking system of low-carbon (LC).

The object of the invention technical scheme is such realization: the intensive baking system of a kind of flue-cured tobacco modulation low-carbon (LC); Comprise one group of bulk curing barn, be arranged on bulk curing barn heating clamber in each bulk curing barn, be arranged on the heating furnace combustion chamber in the bulk curing barn heating clamber, the heating furnace chimney that is connected with the heating furnace combustion chamber, the bulk curing barn cigarette-filling house that is connected with the bulk curing barn heating clamber, through the waste heat sharing channel waste heat circulation sharing channel that air inlet and waste heat sharing channel misplace exhaust outlet, be connected with bulk curing barn cigarette-filling house that misplaces; Each bulk curing barn top is provided with two arch film canopies; Each two arch film canopies below is provided with two arch film thermal-arrests and cuts the hot cell; Two arch film thermal-arrests cut the hot cell and are connected with the hot blast common-use tunnel, offer the personal passage of single hole hot blast that is connected with the bulk curing barn heating clamber on the hot blast common-use tunnel;

Cut at two arch film thermal-arrests and to be provided with the high-temperature smoke radiating tube that is connected with the heating furnace chimney through flue dust break-make device in the hot cell; The high-temperature smoke radiating tube is connected with the flue dust interconnecting channel; The flue dust interconnecting channel is connected with dust-removing desulfurizing device, and dust-removing desulfurizing device is connected with the desulphurization reaction sedimentation basin.

Described two arch film thermal-arrest cuts the hot cell and is connected through the hot blast interconnecting channel; It is S-shaped that two arch film thermal-arrests after the connection cut the hot cell; Two arch film thermal-arrests cut and offer two arch film thermal-arrests on the hot cell and cut the hot cell air inlet; In the end two arch film thermal-arrest cut and are provided with two arch film thermal-arrests in the hot cell to cut hot cell wind separated; Two arch film thermal-arrests cut hot cell wind and offer two arch film thermal-arrests at a distance from a side and cut the hot cell air outlet, and two arch film thermal-arrests cut the hot cell air outlet and are connected with the hot blast common-use tunnel, are provided with the flue dust interconnecting channel in the hot blast common-use tunnel.

The personal passage of described single hole hot blast is mended air door through barn and is connected with the bulk curing barn heating clamber; Be provided with the heating furnace radiator that is connected with the heating furnace combustion chamber in the bulk curing barn heating clamber; The heating furnace radiator is connected with the heating furnace chimney, and the bulk curing barn heating clamber is connected with bulk curing barn cigarette-filling house through the heating clamber air outlet of circulating fan in being equipped with.

The chimney breast of described heating furnace chimney is provided with the break-make plate; The heating furnace chimney is connected with the high-temperature smoke radiating tube that has flue dust radiating tube cleaning door through flue dust break-make device; The high-temperature smoke radiating tube is connected with the flue dust interconnecting channel; The flue dust interconnecting channel is connected with negative regulation device tube connector through the interconnecting channel mozzle, and negative regulation device tube connector is connected with dust-removing desulfurizing device through the negative regulation device.

Described heating furnace combustion chamber is in communication with the outside through heating furnace combustion chamber air inlet duct, is provided with the heating furnace ashcan in bottom, heating furnace combustion chamber.

Described waste heat circulation sharing channel is provided with waste heat and shares outer wet exhauster, is provided with recycling residual heat condensed water collecting chamber at the end of waste heat circulation sharing channel.

The present invention has following good effect: native system is reasonable in design; Easy to use; The integrated use that system utilizes through the sunlight heat collection is imitated, heat energy is shared recycle and bulk curing barn dust-removing desulfurating apparatus can be satisfied the arts demand that flue-cured tobacco is modulated the intensive baking system modulation of low-carbon (LC) characteristic tobacco, can reduce resource utilization and discharge of harmful gases effectively again; The energy consumption of tobacco leaf modulation is reduced more than 40%, and pollutant emission reduces more than 60%.

Description of drawings

Fig. 1 faces structural representation for system of the present invention.

Fig. 2 is a system of the present invention plan structure sketch map.

Fig. 3 is a waste heat circulation sharing channel structural representation of the present invention.

The specific embodiment

Like Fig. 1,2, shown in 3; The intensive baking system of a kind of flue-cured tobacco modulation low-carbon (LC); Comprise one group of bulk curing barn, be arranged on bulk curing barn heating clamber 6 in each bulk curing barn, be arranged on the heating furnace combustion chamber 30 in the bulk curing barn heating clamber 6, the heating furnace chimney 32 that is connected with heating furnace combustion chamber 30, the bulk curing barn cigarette-filling house 7 that is connected with bulk curing barn heating clamber 6, through the waste heat sharing channel waste heat circulation sharing channel 1 that air inlet 2 and waste heat sharing channel misplace exhaust outlet 3, be connected with bulk curing barn cigarette-filling house 7 that misplaces; Each bulk curing barn top is provided with two arch film canopies 28; Each two arch film canopies 28 below is provided with two arch film thermal-arrests and cuts hot cell 16; Two arch film thermal-arrests cut hot cell 16 and are connected with hot blast common-use tunnel 11, offer the personal path 10 of single hole hot blast that is connected with bulk curing barn heating clamber 6 on the hot blast common-use tunnel 11; Cut at two arch film thermal-arrests and to be provided with the high-temperature smoke radiating tube 20 that is connected with heating furnace chimney 32 through flue dust break-make device 19 in the hot cell 16; High-temperature smoke radiating tube 20 is connected with flue dust interconnecting channel 22; Flue dust interconnecting channel 22 is connected with dust-removing desulfurizing device 26, and dust-removing desulfurizing device 26 is connected with desulphurization reaction sedimentation basin 27.

Described two arch film thermal-arrest cuts hot cell 16 and is connected through hot blast interconnecting channel 15; It is S-shaped that two arch film thermal-arrests after the connection cut hot cell 16; Two arch film thermal-arrests cut and offer two arch film thermal-arrests on the hot cell 16 and cut hot cell air inlet 17; In the end two arch film thermal-arrest cut and are provided with two arch film thermal-arrests in the hot cell 16 and cut hot cell wind at a distance from 14; Two arch film thermal-arrests cut hot cell wind and offer two arch film thermal-arrests at a distance from 14 1 sides and cut hot cell air outlet 12, and two arch film thermal-arrests cut hot cell air outlet 12 and are connected with hot blast common-use tunnel 11, are provided with flue dust interconnecting channel 22 in the hot blast common-use tunnel 11.The personal path 10 of described single hole hot blast is mended air door 9 through barn and is connected with bulk curing barn heating clamber 6; Be provided with the heating furnace radiator 31 that is connected with heating furnace combustion chamber 30 in the bulk curing barn heating clamber 6; Heating furnace radiator 31 is connected with heating furnace chimney 32, and bulk curing barn heating clamber 6 is connected with bulk curing barn cigarette-filling house 7 through the heating clamber air outlet 34 of circulating fan 13 in being equipped with.

The chimney breast 18 of described heating furnace chimney 32 is provided with break-make plate 29; Heating furnace chimney 32 is connected with the high-temperature smoke radiating tube 20 that has flue dust radiating tube cleaning door 21 through flue dust break-make device 19; High-temperature smoke radiating tube 20 is connected with flue dust interconnecting channel 22; Flue dust interconnecting channel 22 is connected with negative regulation device tube connector 24 through interconnecting channel mozzle 23, and negative regulation device tube connector 24 is connected with dust-removing desulfurizing device 26 through negative regulation device 25.Described heating furnace combustion chamber 30 is in communication with the outside through heating furnace combustion chamber air inlet duct 8, is provided with heating furnace ashcan 33 in 30 bottoms, heating furnace combustion chamber.Described waste heat circulation sharing channel 1 is provided with waste heat and shares outer wet exhauster 4, is provided with recycling residual heat condensed water collecting chamber 5 at the end of waste heat circulation sharing channel 1.

Embodiment 1: like Fig. 1, shown in 2; As long as when the modulation process of a tobacco leaf condensed roasting baking room high-quality characteristic tobacco needs temperature; Be arranged on outside barn controller and send instruction to dust-removing desulfurizing device 26 through lead; The system that air-introduced machine on the dust-removing desulfurizing device 26 and negative regulation device 25, flue dust break-make device 19 are formed is that heating furnace provides burning of coal required oxygen, and the coal in the heating furnace combustion chamber 30 takes fire, and heating furnace radiator 31 begins heat radiation; Circulating fan 35 is transported to bulk curing barn cigarette-filling house 7 to heat by bulk curing barn heating clamber 6 in the bulk curing barn; Tobacco leaves by in the bulk curing barn cigarette-filling house 7 absorb, and are heated the flue dust that is carrying the burning of coal thing that stove radiator 31 dissipates most of energy and get into through heating furnace chimney 32 and barn heating furnace chimney breast 18 and be arranged on the high-temperature smoke radiating tubes 20 that two arch film thermal-arrests cut hot cell 16, and the two arch of heating film thermal-arrests cut the air in the hot cell 16; Pollutant behind the coal combustion gets into dust-removing desulfurizing device 26 by flue dust interconnecting channel 22; Get into desulfurization again and answer sedimentation basin 27, pollutant is stayed desulfurization and is answered sedimentation basin 27, and waste gas enters atmosphere.

Embodiment 2: like Fig. 1, shown in 3; When the modulation process of highest energy tobacco leaf condensed roasting baking room high-quality characteristic tobacco needs hydrofuge; The hot-air that two arch film thermal-arrests cut in the hot cell 16 gets into bulk curing barn heating clamber 6 again by hot blast common-use tunnel 11 entering barns benefit air doors 9; Be heated the 31 continuation heating of stove radiator and afterwards in bulk curing barn, get into bulk curing barn cigarette-filling house 7 under the effect of circulating fans 35;, bulk curing barn cigarette-filling house gets into waste heat circulation sharing channel 1 after passing to tobacco leaf to energy by waste heat sharing channel dislocation exhaust outlet 3; The bulk curing barn cigarette-filling house energy that when the bottom of next bulk curing barn, gets into bulk curing barns by waste heat sharing channel dislocation air inlet 2 is recycled, and recycle is successively carried moisture and got in the dried bulk curing barn of cigarette muscle through waste heat sharing channel 1 after the utilization of minimum energy bulk curing barn; Dried muscle tobacco leaf is got damp again, and moisture is absorbed the back by dried muscle tobacco leaf and is shared outside the outer hydrofuge device 4 discharge a heatable brick bed by waste heat.

The present invention is reasonable in design; Easy to use; The integrated use that the present invention utilizes through the sunlight heat collection is imitated, heat energy is shared recycle and bulk curing barn dust-removal and desulfurizing can be satisfied the arts demand that flue-cured tobacco is modulated the intensive baking system modulation of low-carbon (LC) characteristic tobacco, can reduce resource utilization and discharge of harmful gases effectively again; The energy consumption of tobacco leaf modulation is reduced more than 40%, and pollutant emission reduces more than 60%.

Claims

1. a flue-cured tobacco is modulated the intensive baking system of low-carbon (LC); Comprise one group of bulk curing barn, be arranged on bulk curing barn heating clamber (6) in each bulk curing barn, be arranged on the heating furnace combustion chamber (30) in the bulk curing barn heating clamber (6), the heating furnace chimney (32) that is connected with heating furnace combustion chamber (30), the bulk curing barn cigarette-filling house (7) that is connected with bulk curing barn heating clamber (6), through the waste heat sharing channel waste heat circulation sharing channel (1) that air inlet (2) and waste heat sharing channel misplace exhaust outlet (3), be connected with bulk curing barn cigarette-filling house (7) that misplaces; It is characterized in that: each bulk curing barn top is provided with two arch film canopies (28); Each two arch film canopies (28) below is provided with two arch film thermal-arrests and cuts hot cell (16); Two arch film thermal-arrests cut hot cell (16) and are connected with hot blast common-use tunnel (11), offer the personal passage (10) of single hole hot blast that is connected with bulk curing barn heating clamber (6) on the hot blast common-use tunnel (11);

Cut at two arch film thermal-arrests and to be provided with the high-temperature smoke radiating tube (20) that is connected with heating furnace chimney (32) through flue dust break-make device (19) in the hot cell (16); High-temperature smoke radiating tube (20) is connected with flue dust interconnecting channel (22); Flue dust interconnecting channel (22) is connected with dust-removing desulfurizing device (26), and dust-removing desulfurizing device (26) is connected with desulphurization reaction sedimentation basin (27).

2. the intensive baking system of flue-cured tobacco modulation low-carbon (LC) according to claim 1; It is characterized in that: described two arch film thermal-arrests cut hot cell (16) and are connected through hot blast interconnecting channel (15); It is S-shaped that two arch film thermal-arrests after the connection cut hot cell (16); Two arch film thermal-arrests cut and offer two arch film thermal-arrests on the hot cell (16) and cut hot cell air inlet (17); In the end two arch film thermal-arrest cut and are provided with two arch film thermal-arrests in the hot cell (16) and cut hot cell wind at a distance from (14); Two arch film thermal-arrests cut hot cell wind and offer two arch film thermal-arrests at a distance from (14) one sides and cut hot cell air outlet (12), and two arch film thermal-arrests cut hot cell air outlet (12) and are connected with hot blast common-use tunnel (11), are provided with flue dust interconnecting channel (22) in the hot blast common-use tunnel (11).

3. the intensive baking system of flue-cured tobacco modulation low-carbon (LC) according to claim 1; It is characterized in that: the personal passage (10) of described single hole hot blast is mended air door (9) through barn and is connected with bulk curing barn heating clamber (6); Be provided with the heating furnace radiator (31) that is connected with heating furnace combustion chamber (30) in the bulk curing barn heating clamber (6); Heating furnace radiator (31) is connected with heating furnace chimney (32), and bulk curing barn heating clamber (6) is connected with bulk curing barn cigarette-filling house (7) through the heating clamber air outlet (34) that interior circulating fan (13) is installed.

4. the intensive baking system of flue-cured tobacco modulation low-carbon (LC) according to claim 1; It is characterized in that: the chimney breast (18) of described heating furnace chimney (32) is provided with break-make plate (29); Heating furnace chimney (32) is connected with the high-temperature smoke radiating tube (20) that has flue dust radiating tube cleaning door (21) through flue dust break-make device (19); High-temperature smoke radiating tube (20) is connected with flue dust interconnecting channel (22); Flue dust interconnecting channel (22) is connected with negative regulation device tube connector (24) through interconnecting channel mozzle (23), and negative regulation device tube connector (24) is connected with dust-removing desulfurizing device (26) through negative regulation device (25).

5. the intensive baking system of flue-cured tobacco modulation low-carbon (LC) according to claim 1; It is characterized in that: described heating furnace combustion chamber (30) is in communication with the outside through heating furnace combustion chamber air inlet duct (8), is provided with heating furnace ashcan (33) in heating furnace combustion chamber (30) bottom.

6. the intensive baking system of flue-cured tobacco modulation low-carbon (LC) according to claim 1; It is characterized in that: described waste heat circulation sharing channel (1) is provided with waste heat and shares outer wet exhauster (4), is provided with recycling residual heat condensed water collecting chamber (5) at the end of waste heat circulation sharing channel (1).