CN202186984U - Efficient removing and recycling device for leaching solvents in residual coal - Google Patents
Efficient removing and recycling device for leaching solvents in residual coal Download PDFInfo
- Publication number
- CN202186984U CN202186984U CN2011203316084U CN201120331608U CN202186984U CN 202186984 U CN202186984 U CN 202186984U CN 2011203316084 U CN2011203316084 U CN 2011203316084U CN 201120331608 U CN201120331608 U CN 201120331608U CN 202186984 U CN202186984 U CN 202186984U
- Authority
- CN
- China
- Prior art keywords
- solvent
- chamber
- residual coal
- deviate
- taken
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
Links
Images
Landscapes
- Solid Fuels And Fuel-Associated Substances (AREA)
Abstract
The utility model discloses an efficient removing and recycling device for leaching solvents in residual coal, comprising a feeding device, an evaporation removing chamber, a steam distributor, an overheat steam heating device and a deslagging device, wherein the top of the evaporation removing chamber is provided with a residual coal feeding hole and a solvent steam exit; the residual coal feeding hole is connected with the feeding device; the solvent steam exit is connected with a solvent purification device; the bottom of the evaporation removing chamber is provided with a deslagging control device connected with the deslagging device; the evaporation removing chamber is a multi-layer structure, wherein layers are respectively provided with side jackets and bottom jackets; the inlets of the side jackets and bottom jackets are respectively communicated with the steam distributor, and outlets thereof are respectively communicated with cold water return pipes. The utility model employs the multiple-layer structured evaporation removing chamber and a slow transporting and blanking evaporation removing way, and achieves depth desolvation with a little amount of overheat steam, and saves a large amount of energy sources, and the solvent residual quantity is 0.05%. The steamed out solvent steam can be directly used as heat source for evaporating leaching liquid, which raises the energy source use ratio.
Description
Technical field
The utility model belongs to chemical industry leaching technology equipment technical field, and it is easy to be specifically related to a kind of technology, and the solvent high-efficiency rate that stable and reliable operation is leached in the residual coal is deviate from and retrieving arrangement.
Background technology
In fossilisation plant-animal wax leaching production technology; The solvent that is used to extract wax recycles; In leaching technology solvent be an important step separating of wax, coal; Its residual coal adsorption solvent is steamed and is taken off and reclaim more than solvent complicatedly with the solvent recovery process in wax, the free gas, and difficulty is big, is ten minutes key link in the middle of the leaching production solvent recuperation process; It not only is directly connected to the business economic property that solvent consumption brings, and also ten minutes is crucial with alleviating environmental stress to reducing production danger.Make a general survey of domestic and international fossilisation plant-animal wax (mainly referring to montanin wax) manufacturing enterprise, the major cause that solvent consumption is high is exactly that residual coal adsorption solvent is steamed to take off and had problems.Present residual coal adsorption solvent is steamed the off-square formula has intermittently pot group type, has carried the residual coal behind the wax, directly contacts with residual coal with superheated vapour, in order to remove the solvent of its absorption.This mode requires between the epigranular, coal seam of coal ventilation property to get well, and the coal seam can not be too thick, this just big limitations equipment capacity and influence the precipitation effect; Also have the continous track frame, carried the residual coal of wax and kicked up (mechanical fluidisation), directly contacting with residual coal with superheated vapour, in order to remove the solvent of its absorption by auger with conveying function.But this mode plant factor is low, and solvent removal is not thorough.Comprehensive above-mentioned embodiment, the main problem that exists is: the duration of contact of steam and residual coal is short, exposure level is incomplete, thereby has influenced the precipitation effect.Therefore, develop a kind of solvent high-efficiency rate of leaching in the residual coal and deviate from and retrieving arrangement, for enhancing productivity, it is very necessary to reduce production costs.
The utility model content
The purpose of the utility model is to provide a kind of technology easy, and the solvent high-efficiency rate in the residual coal of the leaching of flow process control stabilization is deviate from and retrieving arrangement.
The purpose of the utility model is achieved in that and comprises feeding device, steams and to take off chamber, vapour distributor, overheated steam heating apparatus and deslagging device; Described steaming is taken off the top, chamber residual coal opening for feed and solvent vapo(u)r outlet is set, and residual coal opening for feed connects feeding device, and the solvent vapo(u)r outlet connects solvent purification apparatus; Described steaming is taken off the bottom, chamber the gear of slagging tap is set, and the gear of slagging tap connects deslagging device; It is multilayered structure that the chamber is taken off in described steaming, and each layer is provided with limit chuck and end chuck respectively, and the import of limit chuck and end chuck is communicated with vapour distributor respectively, and the outlet of limit chuck and end chuck is communicated with the cold-water return pipe.
The gentle defeated blanking combination process pattern in chamber is taken off in the steaming of the utility model multilayered structure; Residual coal takes off through the steaming of under cooled steam and superheated vapour; Solvent in the residual coal is thoroughly steamed and is gasified, and solvent vapo(u)r purifies the thermal source of back as the leaching liquid evaporization process, realizes the recovery of residual coal solvent simultaneously.Compared with prior art, the device of the utility model only uses small amount of superheated steam, realizes degree of depth precipitation, has practiced thrift mass energy, solvent residual amount < 0.05%; Steam the solvent vapo(u)r of deviating from and directly evaporate thermal source, improved energy utilization rate as leaching liquid.
Description of drawings
Fig. 1 is the utility model apparatus structure and technology annexation synoptic diagram;
Among the figure: the 1-feeding device; 2-steams and takes off the chamber; 3-limit chuck; Chuck at the bottom of the 4-; 5-adjusts guide pillar; The 6-vapour distributor; The 7-overheated steam heating apparatus; The 8-superheated vapour sprays into layer; The 9-gear of slagging tap; The 10-solvent purification apparatus; 11-charging guide groove; The 12-deslagging device.
Embodiment
Below in conjunction with accompanying drawing the utility model is further described, but never in any form the utility model is limited, the conversion that any training centre based on the utility model is done all belongs to the protection domain of the utility model.
As shown in the figure, the utility model comprises feeding device 1, steams and take off chamber 2, vapour distributor 6, overheated steam heating apparatus 7 and deslagging device 12; Described steaming is taken off 2 tops, chamber residual coal opening for feed and solvent vapo(u)r outlet is set, and residual coal opening for feed connects feeding device 1, and the solvent vapo(u)r outlet connects solvent purification apparatus 10; Described steaming is taken off 2 bottoms, chamber the gear 9 of slagging tap is set, and the gear 9 of slagging tap connects deslagging device; Described steaming is taken off chamber 2 and is multilayered structure, and each layer is provided with limit chuck 3 and end chuck 4 respectively, and the import of limit chuck 3 and end chuck 4 is communicated with vapour distributor 6 respectively, and the outlet of limit chuck 3 and end chuck 4 is communicated with the cold-water return pipe.
Described steaming is taken off adjustment guide pillar 5 is set in the chamber 2, and adjustment guide pillar 5 connects the disturbance plate that each layers in the chamber 2 are taken off in steaming, and adjustment guide pillar 5 is by electric motor driving.
Described steaming take off chamber 2 bottoms be provided with superheated vapour spray into the layer 8, for it superheated vapour is provided by overheated steam heating apparatus 7.
Described steaming is taken off between bottom and the top layer of chamber 25 ~ 15 middle layers is set.
Described feeding device 1, deslagging device 12 are scraper conveyor.
The described gear 9 of slagging tap is manual control device or electric controller.
Described solvent purification apparatus 10 is a moist chamber coal dust trap.
The principle of work of the utility model:
The utility model adopts the steaming of multilayered structure to take off the steaming off-square formula of chamber 2 gentle defeated discharged way combinations; Leach residual coal and take off chamber 2 top feeds from steaming; Saturation steam is transported to the limit chuck 3 and end chuck 4 of each layer respectively through vapor distribution device 6, residual coal is carried out indirect heating; Superheated vapour takes off chamber 2 bottoms rising from steaming, and makes the falling velocity of residual coal slack-off, delays the heat-up time that has fallen to prolonging residual coal, has improved the removal effect of solvent, solvent residual amount < 0.05% in the residual coal behind the precipitation.Steam solvent vapour and the steam deviate from and form gas mixture; Get into solvent purification apparatus 10 (generally adopting moist chamber coal dust trap) and purify the thermal source of back feedback as the leaching liquid evaporation; Not only improve the heat integration rate, and reduced the vapour loss of leaching liquid removal process.
The utility model steams and takes off 2 tops, chamber feeding saturation steam, and bottom feeds superheated vapour, on residual coal channel, forms three humidity provinces that raise successively from top to bottom; Adapt to very much with residual coal precipitation process; Residual coal solvent is high when being firm access to plant, and saturated-steam temperature can evaporate in a large number, along with the reduction of solvent; Just need progressively elevated temperature, could guarantee that solvent can thoroughly deviate from.The utility model special construction is provided with the usage quantity that has reduced superheated vapour, has guaranteed the precipitation effect simultaneously, a large amount of save energy.
The working process of the utility model:
Saturation steam gets into to steam through vapor distribution device 6 and takes off chamber 2 each layer limit chucks 3 and end chuck 4; Saturation steam is through superheated vapour heating unit 7 heating, forms superheated vapour and sends into to steam and take off chamber 2 bottom superheated vapours and spray into layer.Leach residual coal and send into to steam through feeding device 1 and take off chamber 2 top layers, starter motor drives adjustment guide pillar 5 and drives and steam the disturbance plate action of taking off chamber 2 each layers, and residual coal is fully contacted with the heat of steam generation, impels the solvent in the residual coal to deviate from; Residual coal is along with falling through three humidity provinces, and wherein solvent removal is clean when arriving bottom, and residual coal particle is derived through the bottom grid section and the gear 9 of slagging tap behind the precipitation, and is delivered to the destructive distillation workshop through scraper plate and carries out following process.Solvent vapour that is evaporated and suspension coal dust together get into solvent purification apparatus 10 (generally adopting moist chamber coal dust trap), and the solvent vapour after the purification is sent to as leaching liquid evaporation thermal source; Be condensed into water behind the steam heat-exchanging and feed back to cooling water tank.
Claims (8)
1. a solvent high-efficiency rate of leaching in the residual coal is deviate from and retrieving arrangement; Comprise feeding device (1), steam and take off chamber (2), vapour distributor (6), overheated steam heating apparatus (7) and deslagging device (12); It is characterized in that: described steaming is taken off top, chamber (2) residual coal opening for feed and solvent vapo(u)r outlet is set; Residual coal opening for feed connects feeding device (1), and the solvent vapo(u)r outlet connects solvent purification apparatus (10); Described steaming is taken off bottom, chamber (2) gear (9) of slagging tap is set, and the gear of slagging tap (9) connects deslagging device; Described steaming is taken off chamber (2) and is multilayered structure; Each layer is provided with limit chuck (3) and end chuck (4) respectively; The import of limit chuck (3) and end chuck (4) is communicated with vapour distributor (6) respectively, and the outlet of limit chuck (3) and end chuck (4) is communicated with the cold-water return pipe.
2. the solvent high-efficiency rate in the residual coal of leaching according to claim 1 is deviate from and retrieving arrangement; It is characterized in that: described steaming is taken off adjustment guide pillar (5) is set in the chamber (2); Adjustment guide pillar (5) connects the disturbance plate that each layer in the chamber (2) taken off in steaming, and adjustment guide pillar (5) is by electric motor driving.
3. the solvent high-efficiency rate in the residual coal of leaching according to claim 1 and 2 is deviate from and retrieving arrangement, it is characterized in that: described steaming take off chamber (2) bottom be provided with superheated vapour spray into the layer (8), for it superheated vapour is provided by overheated steam heating apparatus (7).
4. the solvent high-efficiency rate in the residual coal of leaching according to claim 1 and 2 is deviate from and retrieving arrangement, it is characterized in that: described steaming is taken off between bottom and the top layer of chamber (2) 5 ~ 15 middle layers is set.
5. the solvent high-efficiency rate in the residual coal of leaching according to claim 1 is deviate from and retrieving arrangement, it is characterized in that: described feeding device (1), deslagging device (12) are scraper conveyor.
6. the solvent high-efficiency rate in the residual coal of leaching according to claim 1 is deviate from and retrieving arrangement, it is characterized in that: the described gear of slagging tap (9) is manual control device or electric controller.
7. the solvent high-efficiency rate in the residual coal of leaching according to claim 1 is deviate from and retrieving arrangement, it is characterized in that: described solvent purification apparatus (10) is a moist chamber coal dust trap.
8. the solvent high-efficiency rate in the residual coal of leaching according to claim 1 and 2 is deviate from and retrieving arrangement, it is characterized in that: described steaming is taken off chamber (2) and can the parallel connection combination be used.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2011203316084U CN202186984U (en) | 2011-09-06 | 2011-09-06 | Efficient removing and recycling device for leaching solvents in residual coal |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2011203316084U CN202186984U (en) | 2011-09-06 | 2011-09-06 | Efficient removing and recycling device for leaching solvents in residual coal |
Publications (1)
Publication Number | Publication Date |
---|---|
CN202186984U true CN202186984U (en) | 2012-04-11 |
Family
ID=45918445
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN2011203316084U Expired - Lifetime CN202186984U (en) | 2011-09-06 | 2011-09-06 | Efficient removing and recycling device for leaching solvents in residual coal |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN202186984U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102329643A (en) * | 2011-09-06 | 2012-01-25 | 曲靖众一精细化工股份有限公司 | Device for efficiently separating and recycling solvents in leaching residual coals |
-
2011
- 2011-09-06 CN CN2011203316084U patent/CN202186984U/en not_active Expired - Lifetime
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102329643A (en) * | 2011-09-06 | 2012-01-25 | 曲靖众一精细化工股份有限公司 | Device for efficiently separating and recycling solvents in leaching residual coals |
CN102329643B (en) * | 2011-09-06 | 2013-12-04 | 曲靖众一精细化工股份有限公司 | Device for efficiently separating and recycling solvents in leaching residual coals |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN103194265B (en) | Thermal cycle continuous comprehensive method employing pyrolysis gasification of coal gangue | |
CN101182049A (en) | Evaporation system for treating refuse leachate | |
CN101550362B (en) | Gasification dry dedusting technology | |
CN101318651A (en) | Apparatus and method for recovering carbon dioxide from flue gas using ammonia water | |
CN101613626A (en) | A kind of technology of production cooled coal gas of no discharge of phenolic water | |
CN102997247A (en) | System and method for incineration treatment of saliferous waste residue, saliferous waste water and stink waste gas | |
CN201135949Y (en) | Spraying paint organic waste gas cleaning, recovering and harnessing arrangement | |
CN110340121B (en) | Soil leaching, upgrading and repairing device with tail gas treatment function | |
MX2014007806A (en) | Biomass syngas purification process under negative pressure for producing oil and system configuration thereof. | |
CN103205278B (en) | Thermal-cycle continuous pyrolysis-gasification comprehensive device for coal gangues | |
CN109020031B (en) | Evaporation concentration system based on thermal compression | |
CN201193222Y (en) | Oil production device of oil shale retort | |
CN105236376B (en) | Glyphosate mother liquor resource utilization system | |
CN202186984U (en) | Efficient removing and recycling device for leaching solvents in residual coal | |
MX2014007755A (en) | Biomass syngas purification process under positive pressure for producing oil and system configuration thereof. | |
CN103343021A (en) | Device and method for waste heat recovery and purification of biomass gasified gas | |
CN103848476B (en) | Electrically trapped tar oil waste water multi-phase separation technique | |
KR102203665B1 (en) | Organic rankine cycle generating system using waste heat of activted carbon regeneration equipment | |
CN102587884A (en) | Utilizing process for underground gasified gas condensate | |
CN102329643B (en) | Device for efficiently separating and recycling solvents in leaching residual coals | |
CN203959868U (en) | Strong brine processing system | |
CN105953239A (en) | Stripping, evaporating, reducing, burning and quenching device and method for acrylic acid wastewater | |
CN106881003A (en) | A kind of Br in the separation and recovery flue gas of after-burning zone2Method | |
CN101434847B (en) | Oil shale retort oil extraction process | |
CN103194251B (en) | Device for humidifying and dewatering hot waste gas of charging coal gangue |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CX01 | Expiry of patent term |
Granted publication date: 20120411 |
|
CX01 | Expiry of patent term |