CN204727894U - For the treatment of the modularized bioreactor of organic waste - Google Patents

Abstract

The utility model provides a kind of modularized bioreactor for the treatment of organic waste, comprises n bio-reactor unit (1), garbage feeding unit (2), reusing of energy source unit (3) and liquid natural pond, natural pond slag extraction system (4); Wherein, n is natural number; N described bio-reactor unit (1), described garbage feeding unit (2), described reusing of energy source unit (3) and liquid natural pond slag extraction system, described natural pond (4) are combined as different functional units by arbitrary combination mode.Advantage is: according to the demand of actual waste processing sites, adopt modularization assembling mode, the bio-reactor being assembled into corresponding function that can be fast simple, have low, the easy installation and debugging of cost, easily mobile, area occupied is little, security and level of automation advantages of higher, can promote the use of on a large scale.

Description

For the treatment of the modularized bioreactor of organic waste

Technical field

The utility model belongs to organic substance processing technology field, is specifically related to a kind of modularized bioreactor for the treatment of organic waste.

Background technology

In the world, organic waste output cumulative year after year, compared with conventional rubbish, organic waste has that calorific value is little, perishable, organic content is high, and N, P, K and the feature such as other micronutrient levelss are abundant.How recycling and harmless treatment are carried out to a large amount of organic waste, reduce organic waste to the disadvantageous effect of physical environment, significant.

In prior art, main employing microbiological deterioration fermentation process, processes organic waste.According to organic garbage treatment scale, the device of process organic waste mainly comprises two large classes: the first kind, domestic methane tank.Equations of The Second Kind, industrialization methane-generating pit.For domestic methane tank, although have advantage cheap and easy for installation, there is the deficiency that organic garbage treatment efficiency is low, level of automation is limited and safety coefficient is limited.For industrialization methane-generating pit, although the lifting that organic garbage treatment efficiency, level of automation and safety coefficient all obtain, there is the problems such as cost of investment is high, floor space large, mobile dumb.

Therefore, domestic methane tank and industrialization methane-generating pit all have more serious use limitation, and especially in more place, be all not suitable for using domestic methane tank and industrialization methane-generating pit to carry out refuse treatment, concrete example is as follows:

First: medium scale organic waste produces place, such as, large supermarket, logistics center and residential quarter etc.

In such place, because domestic methane tank has, maintenance workload is large, security is difficult to meet the problems such as such site requirements, therefore, is not suitable for building domestic methane tank.And need area occupied comparatively large due to industrialization methane-generating pit, there is again the problem that cost of investment is high, be not suitable for the direct building industry methane-generating pit in such place equally.

Second: seasonal strong organic waste produces place, such as, agriculture production area and tourist district etc.Because agriculture production area is in the agricultural harvest season, a large amount of organic waste can be produced; Equally, tourist district, in the tourist season, can produce a large amount of organic waste.

For such place, because the start time of domestic methane tank is longer, the seasonal feature of such place organic waste cannot be applicable to.Equally, due to seasonal problem, if building industry methane-generating pit, be difficult to the return of guarantee fund.

At present, the organic waste that China produces in such place reaches 6,500,000 tons every year.These rubbish are not yet dealt carefully with at present, produce significant negative impact to environment.

3rd: the of short duration gathering place of the stream of people, such as, artistic performance place, mineral prospecting place, humanitarian aid activity and Military activity etc.Such place only needs temporary stage process organic waste.And domestic methane tank and industrial methane pond, all there is irremovable feature, therefore, be not suitable for being applied to such place.At present, the organic waste that such place produces seldom is processed, and has a negative impact to environment.

In above-mentioned three class places, also there is a kind of trash processing way, that is: rubbish is focused on the process of another one place.But due to refuse collection and trucking costs costliness, therefore, this kind of trash processing way, is still difficult to promote on a large scale.

Therefore, how to solve the problem of above-mentioned all kinds of place refuse treatment difficulty, significant.

Utility model content

For the defect that prior art exists, the utility model provides a kind of modularized bioreactor for the treatment of organic waste, can effectively solve the problem.

The technical solution adopted in the utility model is as follows:

The utility model provides a kind of modularized bioreactor for the treatment of organic waste, comprises n bio-reactor unit (1), garbage feeding unit (2), reusing of energy source unit (3) and liquid natural pond, natural pond slag extraction system (4); Wherein, n is natural number;

N described bio-reactor unit (1), described garbage feeding unit (2), described reusing of energy source unit (3) and liquid natural pond slag extraction system, described natural pond (4) are combined as different functional units by arbitrary combination mode; Then, each described functional unit is encapsulated in a housing (10), and described housing (10) offers the functional interface be communicated with the external interface of described functional unit, thus forms modular unit; Then, connected the functional interface of modular unit described in each by web member, be combined as the modularized bioreactor with difference in functionality.

Preferably, described housing is freight container; And/or

Described bio-reactor unit (1) is anaerobic fermentation of biological reactor and/or aerobic fermentation bio-reactor;

Wherein, described anaerobic fermentation of biological reactor continues dry-type anaerobic fermentation bio-reactor for flowing piston.

Preferably, described bio-reactor unit (1) comprises Digestive tract (1-1); Described Digestive tract (1-1) offers the 1st opening for feed (1-2), liquid natural pond, natural pond slag discharge gate (1-3) and firedamp drainage mouth (1-4); The inside of described Digestive tract (1-1) is also configured with heating unit (1-5); Described heating unit (1-5) is configured with and adds hot interface (1-6);

Described garbage feeding unit (2) is configured with the 2nd opening for feed (2-1) and discharge gate; Described discharge gate is used for the 1st opening for feed (1-2) being connected to described bio-reactor unit (1) by web member;

Described reusing of energy source unit (3) comprises energy conversion subelement (3-1) and purification subelement (3-4); Described purification subelement (3-4) is configured with the inlet mouth of the firedamp drainage mouth (1-4) for being connected to described bio-reactor unit (1), and the air outlet of described purification subelement (3-4) is connected to the inlet mouth of described energy conversion subelement (3-1); Described energy conversion subelement (3-1) is configured with the 1st energy resource supply interface (3-3) and the 2nd energy resource supply interface (3-4); What described 1st energy resource supply interface (3-3) was connected to described bio-reactor unit (1) adds hot interface (1-6); Described 2nd energy resource supply interface (3-4) is the interface for externally carrying the energy;

Liquid natural pond slag extraction system, described natural pond (4) is configured with liquid natural pond, natural pond slag and extracts interface; Liquid natural pond, described natural pond slag extracts interface is communicated to described bio-reactor unit (1) liquid natural pond, natural pond slag discharge gate (1-3) by web member.

Preferably, described Digestive tract (1-1) is also configured with at least one in agitator (1-7), pressure regulating device (1-8), heat-proof device (1-9) and Emergency treatment System.

Preferably, described agitator (1-7) is horizontal agitator.

Preferably, liquid natural pond slag extraction system, described natural pond (4) is extraction pump; Or liquid natural pond slag extraction system, described natural pond (4) is spiral discharge device; Or liquid natural pond slag extraction system, described natural pond (4) is for being configured at the discharge gate of described bio-reactor unit (1), and liquid natural pond, natural pond slag relies on action of gravity directly to discharge from described discharge gate;

Described energy conversion subelement (3-1) is boiler, co-generator and/or thermoelectric cold cogeneration generator.

Preferably, described garbage feeding unit (2) the rubbish pretreatment unit (2-2) that comprises garbage feeding subelement and be communicated with described garbage feeding subelement; Described rubbish pretreatment unit (2-2) is crushing system and/or pulping system and/or inorganics separation system.

Preferably, described garbage feeding unit (2) is arranged at the top of described bio-reactor unit (1).

Preferably, Controlling System (11) is also comprised; Described Controlling System (11) comprises centralized monitoring system and man-machine interactive system;

Wherein, described centralized monitoring system, for gathering the equipment operating parameter of bio-reactor, specifically comprises: the operating parameter of described Digestive tract (1-1) and the operating parameter of described reusing of energy source unit (3);

The equipment operating parameter that described man-machine interactive system collects for showing described centralized monitoring system.

The modularized bioreactor for the treatment of organic waste that the utility model provides has the following advantages:

According to the demand of actual waste processing sites, adopt modularization assembling mode, the bio-reactor being assembled into corresponding function that can be fast simple, have low, the easy installation and debugging of cost, easily mobile, area occupied is little, security and level of automation advantages of higher, can promote the use of on a large scale.

Accompanying drawing explanation

The one assembling exemplary plot that Fig. 1 provides for the utility model;

The another kind assembling exemplary plot that Fig. 2 provides for the utility model;

Fig. 3 is the schematic perspective view of Fig. 2.

Embodiment

Below in conjunction with accompanying drawing, the utility model is described in detail:

The utility model provides a kind of modularized bioreactor for the treatment of organic waste, this modularized bioreactor forms primarily of four class processing units, is respectively: bio-reactor unit 1, garbage feeding unit 2, reusing of energy source unit 3 and liquid natural pond, natural pond slag extraction system 4.

The function of each processing unit is mainly:

(1) garbage feeding unit

Garbage feeding unit 2 is configured with the 2nd opening for feed 2-1 and discharge gate; Discharge gate is used for the 1st opening for feed 1-2 being connected to bio-reactor unit 1 by web member.For outside rubbish is imported to bio-reactor unit.

In addition, according to the feature of processed rubbish, rubbish pretreatment unit 2-2 can also be set; Rubbish pretreatment unit 2-2 can adopt crushing system and/or pulping system and/or inorganics separation system.After pre-treatment being carried out to initial rubbish by rubbish pretreatment unit, then import to bio-reactor unit, the processing efficiency of rubbish at bio-reactor unit can be improved.

In addition, for convenience of using, garbage feeding unit 2 can be arranged at the top of bio-reactor unit 1.Make organic waste directly can enter present treatment system from eminence.

(2) bio-reactor unit

Bio-reactor unit 1 comprises Digestive tract 1-1; Digestive tract 1-1 offers the 1st opening for feed 1-2, liquid natural pond, natural pond slag discharge gate 1-3 and firedamp drainage mouth 1-4; The inside of Digestive tract 1-1 is also configured with heating unit 1-5; Heating unit 1-5 is configured with and adds hot interface 1-6;

It is emphasized that the modularized bioreactor that the utility model provides, can adopt the bio-reactor unit of all kinds of pattern in prior art, such as, is anaerobic fermentation of biological reactor or aerobic fermentation bio-reactor; For anaerobic fermentation of biological reactor, stream piston can be adopted to continue dry-type anaerobic fermentation bio-reactor.As a kind of optimal way, the patent No. that the utility model people especially can be adopted to apply for is the bio-reactor of ZL 2,012 1 0187663.X.

In addition, according to the actual requirements, Digestive tract 1-1 can also be configured with at least one in agitator 1-7, pressure regulating device 1-8, heat-proof device 1-9 and Emergency treatment System.Wherein, agitator is preferably horizontal agitator.Pressure regulating device is for controlling the gaseous tension of Digestive tract inside.When for anaerobically fermenting, be mainly used in regulating biogas pressure.Emergency treatment System can adopt and release flare.

(3) reusing of energy source unit

Reusing of energy source unit 3 comprises energy conversion subelement 3-1 and purification subelement 3-4;

(3.1) subelement is purified

The purification subelement that the utility model provides, the biogas be mainly used in bio-reactor unit is discharged purifies, and such as, remove water vapour, hydrogen sulfide, in other words volatile organic matter etc., thus convenient energy transformant unit recycles to biogas.

Therefore, purification subelement 3-4 is configured with the inlet mouth of the firedamp drainage mouth 1-4 for being connected to bio-reactor unit 1, and the air outlet of purification subelement 3-4 is connected to the inlet mouth of energy conversion subelement 3-1.

(3.2) energy conversion subelement

Energy conversion subelement 3-1 is mainly used in the heat produced in bio-reactor reaction to recycle, concrete, all kinds of form of energy can be produced, such as, heat energy, electric energy or cold air, the device adopted is boiler, co-generator and/or thermoelectric cold cogeneration generator.

Therefore, energy conversion subelement 3-1 is configured with the 1st energy resource supply interface 3-3 and the 2nd energy resource supply interface 3-4; What the 1st energy resource supply interface 3-3 was connected to bio-reactor unit 1 adds hot interface 1-6; 2nd energy resource supply interface 3-4 is the interface for externally carrying the energy;

(4) natural pond liquid natural pond slag extraction system

Liquid natural pond, natural pond slag extraction system is mainly used in extracting the product generated after Digestive tract carries out digestion reaction.Concrete, liquid natural pond, natural pond slag extraction system 4 is configured with liquid natural pond, natural pond slag and extracts interface; Liquid natural pond, natural pond slag extracts interface is communicated to bio-reactor unit 1 liquid natural pond, natural pond slag discharge gate 1-3 by web member.

In practical application, liquid natural pond, natural pond slag extraction system 4 can adopt various ways, such as, adopts extraction pump; Or, adopt spiral discharge device; Or liquid natural pond, natural pond slag extraction system 4 is for being configured at the discharge gate of bio-reactor unit 1, and liquid natural pond, natural pond slag relies on action of gravity directly to discharge from discharge gate;

(5) Controlling System

Also comprise Controlling System 11; Controlling System 11 comprises centralized monitoring system and man-machine interactive system;

Wherein, centralized monitoring system, for gathering the equipment operating parameter of bio-reactor, specifically comprises: the operating parameter of Digestive tract 1-1 and the operating parameter of reusing of energy source unit 3;

The equipment operating parameter that man-machine interactive system collects for showing centralized monitoring system.

Above-mentioned every class processing unit that the utility model provides, its specific configuration quantity, determines according to actual organic garbage treatment amount.And, according to actual needs, above-mentioned four class processing units, can be combined as different functional units by arbitrary combination mode, such as, bio-reactor unit 1, garbage feeding unit 2, reusing of energy source unit 3 and liquid natural pond, natural pond slag extraction system 4 can be combined as a functional unit; Also bio-reactor unit 1 and garbage feeding unit 2 can be combined as a functional unit, and reusing of energy source unit 3 and liquid natural pond, natural pond slag extraction system 4 are combined as another functional unit etc.Concrete, with reference to figure 1, be the one assembling exemplary plot that the utility model provides, in FIG, configure liquid natural pond, two natural ponds slag extraction system 4 altogether; Liquid natural pond, natural pond slag extraction system 4 forms an independently functional unit; Another liquid natural pond, natural pond slag extraction system 4 and bio-reactor unit 1 are combined as a functional unit; And garbage feeding unit 2 and reusing of energy source unit 3 form an independently functional unit respectively.With reference to figure 2, be the another kind assembling exemplary plot that the utility model provides, in fig. 2, garbage feeding unit 2 is an independently functional unit, and bio-reactor unit 1, reusing of energy source unit 3 and liquid natural pond, natural pond slag extraction system 4 are combined as a functional unit; Fig. 3 is the schematic perspective view of Fig. 2.Visible, each functional unit that the utility model is combined into is encapsulated in the housings such as freight container, therefore, and convenient mobile each functional unit; Again because freight container directly offers the functional interface corresponding with functional unit interface, therefore, each is being comprised the encased conveying of functional unit after waste processing sites, only need to use the web members such as pipeline, the corresponding function interface of each freight container is coupled together, namely be combined into the modularized bioreactor of final treating refuse, and then organic waste is processed; Visible, have convenient mobile, combined and instant fast, take the advantages such as volume is little, installation costs is low, thus reduce expense and the garbage sorting expense of garbage transporting.Again because modularized bioreactor is configured with controller, achieve rubbish is carried out effectively, the process of safety and automatization, improve garbage treatment efficiency.

In addition, the modularized bioreactor that the utility model provides, the energy produced in garbage processing procedure is recycled by reusing of energy source unit, and, the energy that reusing of energy source unit exports, mainly contain two purposes: the first, the energy that reusing of energy source unit exports directly is transmitted back to bio-reactor, for heating bio-reactor; The second, the energy that reusing of energy source unit exports, flows to other on-the-spot energy-consuming parts, such as, directly heats water, thus provide hot water; Above two kinds of power applications, the scene all achieving heat utilizes, and does not need the energy produced in garbage processing procedure outwards to carry, and further increases capacity usage ratio, saves the cost of energy conveying.

The modularized bioreactor for the treatment of organic waste that the utility model provides, applicable situation is extensive, mainly comprises:

1, be suitable for and be used in the lasting 1 week activity venue to 1 year short-term, especially the time length is the activity venue of 2 weeks to 8 months.

2, the applicable agricultural that is used in gathers in the crops area or tourist district.

3, the place being used in a large amount of generation rubbish in 2 weeks to 8 months is suitable for, especially a large amount of place producing rubbish in 1 to 6 months.

4, be suitable for be used in and produce 100 kilograms of units to 20 tons of organic wastes day, especially produce 200 kilograms of units to 5 tons of organic wastes day.

5, be suitable for be used in large supermarket, market, the place such as logistics center or residential quarter.

Sum up, be particularly useful for following three class places:

The first kind: medium scale organic waste produces place, and in such place, organic waste generation is approximately every day 100 kilograms to 20 tons, is specially adapted to 200 kilograms of places to 5 tons of output every day.

Such as, large supermarket, food market, logistics center and residential quarter etc.In such place, first organic waste can carry out manual sorting by the people of garbage throwing, then, the organic waste after sorting is directly dropped into garbage feeding unit, thus effectively saves cost, solves and uses sorting system in refuse collecting very complicated and the problem of costliness.In addition, due in the utility model, garbage feeding unit is arranged at the top of bio-reactor unit, therefore, actual to use, user can directly by rubbish from putting into garbage feeding unit upstairs, thus expense that saving rubbish Lifting Convey causes.

In such place, the energy produced in the garbage processing procedure that reusing of energy source unit is collected, preferably uses on the spot, concrete use-pattern, determines according to the demand of local area, such as, the heat that reusing of energy source unit can be made to provide heats water, and then provides hot water to user; The heat that also reusing of energy source unit can be provided, as the drive source of air-conditioning or freezer, thus provides cold air to user; Also can be directly electric energy etc. by the converting heat that reusing of energy source unit provides.Visible, adopt this kind of mode, namely saved the expense that the energy carries out transforming and transporting, reduce cost of investment; On the other hand, also the required all kinds of energy are provided for local user.

Equations of The Second Kind: seasonal strong organic waste produces place, such as, agriculture production area and tourist district etc.Because agriculture production area is in the agricultural harvest season, a large amount of organic waste can be produced; Equally, tourist district, in the tourist season, can produce a large amount of organic waste.

Under normal circumstances, in such place, it is 2 weeks to 8 months that annual organic waste produces peak times, and more peak times is 1 to 6 months.

By the modularized bioreactor adopting the utility model to provide, when organic waste peak generation time arrives, fast modularized bioreactor can be moved to waste processing sites, then, Fast Installation and the bio-reactor after starting combination, realize the efficient process to organic waste; When after the organic waste peak generation time past, modularized bioreactor can be removed easily and fast again, and modularized bioreactor be moved to the place that other need process organic waste, improve the utilising efficiency of modularized bioreactor.

Further, in such place, the energy that modularized bioreactor produces also can use on the spot, and such as, in agricultural results area, the energy that this utility model produces can produce cold air, thus preserves the product of results.

Visible, the modularized bioreactor that the utility model provides, efficiently solves the difficulty that such place organic waste is difficult to effectively process, reduces the negative impact of organic waste to environment.

3rd class: the of short duration gathering place of the stream of people, such as, artistic performance place, mineral prospecting place, humanitarian aid activity and Military activity etc.Such place only needs temporary stage process organic waste, and such place needs heat and electric power especially.

By the modularized bioreactor adopting the utility model to provide, can at waste processing sites, Fast Installation uses, and the energy that modularized bioreactor produces directly improves heat and the electric power of place needs; When activity end, again can fast transfer modularized bioreactor, make modularized bioreactor for Other Waste process place, improve the utilising efficiency of modularized bioreactor.

Visible, the modularized bioreactor that the utility model provides, efficiently solves the difficulty that such place organic waste is difficult to effectively process, reduces the negative impact of organic waste to environment.

In sum, the modularized bioreactor for the treatment of organic waste that the utility model provides, has the following advantages:

According to the demand of actual waste processing sites, adopt modularization assembling mode, the bio-reactor being assembled into corresponding function that can be fast simple, have low, the easy installation and debugging of cost, easily mobile, area occupied is little, security and level of automation advantages of higher, can promote the use of on a large scale.

The above is only preferred implementation of the present utility model; it should be pointed out that for those skilled in the art, under the prerequisite not departing from the utility model principle; can also make some improvements and modifications, these improvements and modifications also should look protection domain of the present utility model.

Claims (9)

1. the modularized bioreactor for the treatment of organic waste, it is characterized in that, comprise n bio-reactor unit (1), garbage feeding unit (2), reusing of energy source unit (3) and liquid natural pond, natural pond slag extraction system (4); Wherein, n is natural number;

N described bio-reactor unit (1), described garbage feeding unit (2), described reusing of energy source unit (3) and liquid natural pond slag extraction system, described natural pond (4) are combined as different functional units by arbitrary combination mode; Then, each described functional unit is encapsulated in a housing (10), and described housing (10) offers the functional interface be communicated with the external interface of described functional unit, thus forms modular unit; Then, connected the functional interface of modular unit described in each by web member, be combined as the modularized bioreactor with difference in functionality.

2. the modularized bioreactor for the treatment of organic waste according to claim 1, is characterized in that, described housing is freight container; And/or

Described bio-reactor unit (1) is anaerobic fermentation of biological reactor and/or aerobic fermentation bio-reactor;

Wherein, described anaerobic fermentation of biological reactor continues dry-type anaerobic fermentation bio-reactor for flowing piston.

3. the modularized bioreactor for the treatment of organic waste according to claim 1, is characterized in that, described bio-reactor unit (1) comprises Digestive tract (1-1); Described Digestive tract (1-1) offers the 1st opening for feed (1-2), liquid natural pond, natural pond slag discharge gate (1-3) and firedamp drainage mouth (1-4); The inside of described Digestive tract (1-1) is also configured with heating unit (1-5); Described heating unit (1-5) is configured with and adds hot interface (1-6);

Described garbage feeding unit (2) is configured with the 2nd opening for feed (2-1) and discharge gate; Described discharge gate is used for the 1st opening for feed (1-2) being connected to described bio-reactor unit (1) by web member;

Described reusing of energy source unit (3) comprises energy conversion subelement (3-1) and purification subelement (3-4); Described purification subelement (3-4) is configured with the inlet mouth of the firedamp drainage mouth (1-4) for being connected to described bio-reactor unit (1), and the air outlet of described purification subelement (3-4) is connected to the inlet mouth of described energy conversion subelement (3-1); Described energy conversion subelement (3-1) is configured with the 1st energy resource supply interface (3-3) and the 2nd energy resource supply interface (3-4); What described 1st energy resource supply interface (3-3) was connected to described bio-reactor unit (1) adds hot interface (1-6); Described 2nd energy resource supply interface (3-4) is the interface for externally carrying the energy;

Liquid natural pond slag extraction system, described natural pond (4) is configured with liquid natural pond, natural pond slag and extracts interface; Liquid natural pond, described natural pond slag extracts interface is communicated to described bio-reactor unit (1) liquid natural pond, natural pond slag discharge gate (1-3) by web member.

4. the modularized bioreactor for the treatment of organic waste according to claim 3, it is characterized in that, described Digestive tract (1-1) is also configured with at least one in agitator (1-7), pressure regulating device (1-8), heat-proof device (1-9) and Emergency treatment System.

5. the modularized bioreactor for the treatment of organic waste according to claim 4, is characterized in that, described agitator (1-7) is horizontal agitator.

6. the modularized bioreactor for the treatment of organic waste according to claim 3, is characterized in that, liquid natural pond slag extraction system, described natural pond (4) is extraction pump; Or liquid natural pond slag extraction system, described natural pond (4) is spiral discharge device; Or liquid natural pond slag extraction system, described natural pond (4) is for being configured at the discharge gate of described bio-reactor unit (1), and liquid natural pond, natural pond slag relies on action of gravity directly to discharge from described discharge gate;

Described energy conversion subelement (3-1) is boiler, co-generator and/or thermoelectric cold cogeneration generator.

7. the modularized bioreactor for the treatment of organic waste according to claim 3, it is characterized in that, the rubbish pretreatment unit (2-2) that described garbage feeding unit (2) comprises garbage feeding subelement and is communicated with described garbage feeding subelement; Described rubbish pretreatment unit (2-2) is crushing system and/or pulping system and/or inorganics separation system.

8. the modularized bioreactor for the treatment of organic waste according to claim 3, is characterized in that, described garbage feeding unit (2) is arranged at the top of described bio-reactor unit (1).

9. the modularized bioreactor for the treatment of organic waste according to claim 3, is characterized in that, also comprises Controlling System (11); Described Controlling System (11) comprises centralized monitoring system and man-machine interactive system;

Wherein, described centralized monitoring system, for gathering the equipment operating parameter of bio-reactor, specifically comprises: the operating parameter of described Digestive tract (1-1) and the operating parameter of described reusing of energy source unit (3);

The equipment operating parameter that described man-machine interactive system collects for showing described centralized monitoring system.