CN205313473U - Admittedly useless garbage pyrolytic gasification system - Google Patents

Abstract

The utility model discloses an admittedly useless garbage pyrolytic gasification system, it includes rubbish storage workshop, pyrolysis gasification workshop and central control room, wherein, be provided with rubbish storage pool and waste sorting breaker in the rubbish storage workshop, be provided with pyrolysis gasification equipment and vent gas treatment system in in the pyrolysis gasification workshop, waste sorting breaker passes through the transfer chain and gives pyrolysis gasification equipment feed, vent gas treatment system in includes cyclone dust removal device, pyrolysis gas cooling device, sack dust collector and active carbon adsorption device, pyrolysis gasification equipment's exhaust end is connected to cyclone dust removal device's one end, and the other end connects gradually pyrolysis gas cooling device, sack dust collector, active carbon adsorption device and exhaust fan. Admittedly useless garbage pyrolytic gasification system has not only saved the manpower, has improved the treatment effeciency and the treatment effect of rubbish, and greatly reduced the influence of pyrolysis tail gas to the surrounding environment, it is energy -concerving and environment -protective.

Description

A kind of solid waste refuse pyrolysis gasification system

Technical field

This utility model relates to a kind of solid waste refuse disposal system, particularly relates to a kind of solid waste refuse pyrolysis gasification system.

Background technology

Quickening along with rural development, rural population becomes Relatively centralized from relative distribution, how the rubbish produced is dealt carefully with and is become the pressing issues currently faced, the mode of current rural area process rubbish is generally adopted the modes such as original stacking, simple and easy landfill or open incineration and processes, these processing methods are all relatively backward, directly influenced the productive life environment in rural area.

Utility model content

The purpose of this utility model is in that to provide a kind of solid waste refuse pyrolysis gasification system; It has automaticity height, saves manpower and the feature that living environment impact is only small, to solve the problems referred to above existed in rural solid waste garbage processing procedure in prior art.

For achieving the above object, this utility model provides following technical scheme:

A kind of solid waste refuse pyrolysis gasification system, it includes rubbish storage workshop, pyrolytic gasification workshop and Central Control Room, wherein, the storage of described rubbish is provided with rubbish storage pond and refuse classification breaker in workshop, it is provided with pyrolysis gasifying device and exhaust treatment system in described pyrolytic gasification workshop, described refuse classification breaker passes through pipeline to pyrolysis gasifying device feed, described exhaust treatment system includes cyclone dust collector, pyrolysis gas chiller, bag-type dust collector and absorbent charcoal adsorber, one end of described cyclone dust collector connects the exhaust end of pyrolysis gasifying device, the other end is sequentially connected with pyrolysis gas chiller, bag-type dust collector, absorbent charcoal adsorber and exhaust blower.

Especially, it is provided with seal isolation wall between described rubbish storage workshop and described pyrolytic gasification workshop.

Especially, described cyclone dust collector includes the first cyclone dust extractor and second cyclone dust extractor of two series connection, the inlet end of described first cyclone dust extractor connects the exhaust end of pyrolysis gasifying device, the exhaust end of described first cyclone dust extractor connects the inlet end of the second cyclone dust extractor, the exhaust end of described second cyclone dust extractor connects pyrolysis gas chiller, by two stage cyclone dedusting, first remove the heavy metal in pyrolysis tail gas.

Especially, described absorbent charcoal adsorber includes two the first active carbon adsorbers being arranged in parallel and the second active carbon adsorber, the inlet end of described first active carbon adsorber and the second active carbon adsorber is all connected with the outlet side of bag-type dust collector, and the outlet side of described first active carbon adsorber and the second active carbon adsorber is all connected with described exhaust blower, adopt two active carbon adsorbers, so that one of them active carbon adsorber is as standby adsorbent equipment.

Especially, it is provided above grab-crane in rubbish storage pond in described rubbish storage workshop.

Especially, described Central Control Room is arranged in described pyrolytic gasification workshop, and it communicates to connect with several sensors for controlling automated system operation.

The beneficial effects of the utility model are: compared with prior art described solid waste refuse pyrolysis gasification system has the advantage that

1) rubbish storage workshop and the pyrolytic gasification workshop that sealing separates is set, rubbish storage workshop is separated with pyrolytic gasification workshop and external environment, garbage odor is avoided to affect surrounding and pyrolytic gasification workshop, whole process system adopts Automated condtrol simultaneously, save manpower, improve treatment effeciency and the treatment effect of rubbish.

2) exhaust treatment system is by being used for removing the cyclone dust collector of heavy metal in pyrolysis tail gas, being connected in sequence for removing the bag-type dust collector of dust in pyrolysis tail gas and the absorbent charcoal adsorber for removing the toxic gas such as two English in pyrolysis tail gas, substantially increase the degree of purification to pyrolysis tail gas, significantly reduce the impact on surrounding of the pyrolysis tail gas.

Accompanying drawing explanation

Fig. 1 for this utility model detailed description of the invention 1 provide the structural representation of solid waste refuse pyrolysis gasification system.

In figure:

1, rubbish storage workshop; 2, pyrolytic gasification workshop; 3, Central Control Room; 4, seal isolation wall; 5, rubbish storage pond; 6, refuse classification breaker; 7, grab-crane; 8, pyrolysis gasifying device; 9, pipeline; 10, pyrolysis gas chiller; 11, bag-type dust collector; 12, the first cyclone dust extractor; 13, the second cyclone dust extractor; 14, the first active carbon adsorber; 15, the second active carbon adsorber; 16, exhaust blower.

Detailed description of the invention

The technical solution of the utility model is further illustrated below in conjunction with accompanying drawing and by detailed description of the invention.

Refer to shown in Fig. 1, Fig. 1 for this utility model detailed description of the invention 1 provide the structural representation of solid waste refuse pyrolysis gasification system.

A kind of solid waste refuse pyrolysis gasification system includes rubbish storage workshop 1, pyrolytic gasification workshop 2 and Central Control Room 3, is provided with seal isolation wall 4 between described rubbish storage workshop 1 and described pyrolytic gasification workshop 2. The storage of described rubbish is provided with rubbish storage pond 5 and refuse classification breaker 6 in workshop 1, described rubbish storage pond 5 be provided above grab-crane 7, it is provided with pyrolysis gasifying device 8 and exhaust treatment system in described pyrolytic gasification workshop 2, described refuse classification breaker 6 gives pyrolysis gasifying device 8 feed by pipeline 9, described Central Control Room 3 is arranged in described pyrolytic gasification workshop 2, and it communicates to connect with several sensors for controlling automated system operation. Central Control Room 3 is arranged in pyrolytic gasification workshop 2, separates so that it seals with rubbish storage workshop 1 completely, so that the working environment of operator will not be subject in rubbish storage workshop 1 pollution of foul smell.

Described exhaust treatment system includes cyclone dust collector, pyrolysis gas chiller 10, bag-type dust collector 11 and absorbent charcoal adsorber, described cyclone dust collector includes the first cyclone dust extractor 12 and the second cyclone dust extractor 13 of two series connection, the inlet end of described first cyclone dust extractor 12 connects the exhaust end of pyrolysis gasifying device 8, the exhaust end of described first cyclone dust extractor 12 connects the inlet end of the second cyclone dust extractor 13, the exhaust end of described second cyclone dust extractor 13 connects pyrolysis gas chiller 10, described absorbent charcoal adsorber includes two the first active carbon adsorber 14 and the second active carbon adsorbers 15 being arranged in parallel, the inlet end of described first active carbon adsorber 14 and the second active carbon adsorber 15 is all connected with the outlet side of bag-type dust collector 11, and the outlet side of described first active carbon adsorber 14 and the second active carbon adsorber 15 is all connected with exhaust blower 16, adopt two active carbon adsorbers, so that one of them active carbon adsorber is as standby adsorbent equipment.

During work, rubbish is placed in the rubbish storage pond 5 in the rubbish storage workshop 1 of sealing, captured in rubbish feeding refuse classification breaker 6 by grab-crane 7 and carry out sorting and crushing, pipeline 9 is sent into pyrolysis gasifying device 8 and is processed again, the flue gas produced after process first removes the heavy metal in pyrolysis smoke through the first cyclone dust extractor 12 and the second cyclone dust extractor 13, by pyrolysis gas chiller 10, pyrolysis smoke is cooled down, the dust in pyrolysis smoke is removed again by bag-type dust collector 11, then the toxic gas such as two English in pyrolysis smoke are removed by the first active carbon adsorber 14 or the second active carbon adsorber 15, pyrolysis smoke after purification is finally discharged by exhaust blower 16.

Above example simply elaborates ultimate principle of the present utility model and characteristic; this utility model is not limited by above-mentioned example; under the premise without departing from this utility model spirit and scope; this utility model also has various change and change, and these changes and change both fall within the scope of claimed this utility model. This utility model claims scope and is defined by appending claims and equivalent thereof.

Claims (6)

1. a solid waste refuse pyrolysis gasification system, it includes rubbish storage workshop, pyrolytic gasification workshop and Central Control Room, it is characterized in that: the storage of described rubbish is provided with rubbish storage pond and refuse classification breaker in workshop, it is provided with pyrolysis gasifying device and exhaust treatment system in described pyrolytic gasification workshop, described refuse classification breaker passes through pipeline to pyrolysis gasifying device feed, described exhaust treatment system includes cyclone dust collector, pyrolysis gas chiller, bag-type dust collector and absorbent charcoal adsorber, one end of described cyclone dust collector connects the exhaust end of pyrolysis gasifying device, the other end is sequentially connected with pyrolysis gas chiller, bag-type dust collector, absorbent charcoal adsorber and exhaust blower.

2. solid waste refuse pyrolysis gasification system according to claim 1, it is characterised in that: it is provided with seal isolation wall between described rubbish storage workshop and described pyrolytic gasification workshop.

3. solid waste refuse pyrolysis gasification system according to claim 1, it is characterized in that: described cyclone dust collector includes the first cyclone dust extractor and second cyclone dust extractor of two series connection, the inlet end of described first cyclone dust extractor connects the exhaust end of pyrolysis gasifying device, the exhaust end of described first cyclone dust extractor connects the inlet end of the second cyclone dust extractor, and the exhaust end of described second cyclone dust extractor connects pyrolysis gas chiller.

4. solid waste refuse pyrolysis gasification system according to claim 1, it is characterized in that: described absorbent charcoal adsorber includes two the first active carbon adsorbers being arranged in parallel and the second active carbon adsorber, the inlet end of described first active carbon adsorber and the second active carbon adsorber is all connected with the outlet side of bag-type dust collector, and the outlet side of described first active carbon adsorber and the second active carbon adsorber is all connected with described exhaust blower.

5. solid waste refuse pyrolysis gasification system according to claim 1, it is characterised in that: it is provided above grab-crane in rubbish storage pond in described rubbish storage workshop.

6. solid waste refuse pyrolysis gasification system according to claim 1, it is characterised in that: described Central Control Room is arranged in described pyrolytic gasification workshop, itself and several sensors communication connection for controlling automated system operation.