CN109354357A - The compensation aeration of one kind exempts from turning aerobic fermentation device - Google Patents
The compensation aeration of one kind exempts from turning aerobic fermentation device Download PDFInfo
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- CN109354357A CN109354357A CN201811544085.4A CN201811544085A CN109354357A CN 109354357 A CN109354357 A CN 109354357A CN 201811544085 A CN201811544085 A CN 201811544085A CN 109354357 A CN109354357 A CN 109354357A
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- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F11/00—Treatment of sludge; Devices therefor
- C02F11/02—Biological treatment
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- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F2103/00—Nature of the water, waste water, sewage or sludge to be treated
- C02F2103/20—Nature of the water, waste water, sewage or sludge to be treated from animal husbandry
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- Environmental & Geological Engineering (AREA)
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Abstract
The present invention relates to organic solid waste processing technology fields, more particularly to a kind of compensation aeration to exempt from turning aerobic fermentation device.The device includes aerator and agitating device, aerator setting is in fermentation cylinder, including the identical aeration tube of two root canal road specifications, two aeration tubes are embedded in mutually in vortex wire shaped, multiple solarization air caps are provided on aeration tube, solarization air cap and aeration tube are equidistantly staggered downwards at 120 °, agitating device includes agitating shaft, stirrer paddle and multiple blade support bars, along the agitating shaft, helically line rises trend to stirrer paddle, and stirrer paddle is fixedly connected on the agitating shaft by blade support bar.Present invention employs compensation piping mode, make to be aerated more uniform, reduces anaerobic fermentation region, keep organic solid waste aerobic fermentation more abundant, ferment effect is promoted, internal agitating device can achieve the effect of turning operation, material is made to be sufficiently mixed and stir evenly.
Description
Technical field
The present invention relates to organic solid waste processing technology fields, more particularly to a kind of compensation aeration to exempt from the aerobic hair of turning
Ferment device.
Background technique
With the fast development of China's economic society and the continuous acceleration of Development of China's Urbanization, more and more works are produced
Industry, agricultural and house refuse.Wherein, the yield of organic solid waste (predominantly sludge, feces of livestock and poultry and kitchen garbage) is non-
Chang great, it is estimated that China generates ten thousand tons of moisture content of 3000-4000 in 80% or so municipal sludge and 40,000,000 tons of work every year
Industry sludge;In addition to this, China generates about 3,800,000,000 tons of feces of livestock and poultry and 60,000,000 tons of kitchen garbages every year.Municipal sludge yield
Holding maintains sustained and rapid growth, it is contemplated that arrives the year two thousand twenty, the municipal sludge yield in China is up to ten thousand tons of 6000-9000.Processing at present
The main method of organic solid waste has stacking method, sanitary landfill method, incineration method, aerobic compost method, Unareobic fermentation and heat point
Solution.Wherein, incineration method is ideal processing method, but processing cost is too high, and aerobic compost method can achieve it is organic
It is much lower that waste stabilization, innoxious, minimizing, the purpose of recycling, and processing cost compare incineration method, therefore makes now
Increased with the ratio of aerobic compost method processing organic solid waste.Many large scale processing organic solids have been set up now
The company of waste, day output can achieve 1000 tons, but centralized processing freight is higher, is suitable for organic solid waste and produces
Measure big user, the user small for organic solid waste yield, voluntarily handled using small-sized aerobic fermentation device it is both economical,
There are many aerobic fermentation devices currently on the market, but there are following 3 disadvantages:
1 aeration is uneven, will lead to heap body portion region in this way and anaerobic fermentation occurs, influence ferment effect;
2 need regular turning to remove heap internal water, improve porosity and are uniformly mixed, larger workload;
3 serious heat loss are unfavorable for the generation of vapor so that heap temperature is lower, to extend fermentation period.
Summary of the invention
(1) technical problems to be solved
In order to solve the above problem of the prior art, the present invention provides a kind of compensation aerations to exempt from turning aerobic fermentation dress
It sets, for handling the organic solid wastes such as municipal sludge and feces of livestock and poultry.
(2) technical solution
In order to achieve the above object, the main technical schemes that the present invention uses:
It includes fermentation cylinder, supporting leg, feed inlet, discharge port, inlet duct that compensation aeration, which exempts from turning aerobic fermentation device,
And power device, the installation for fermenting further include aerator and agitating device;
Aerator setting is in fermentation cylinder, including aeration tube, and the aeration tube includes the first aeration tube and the
Two aeration tubes, first aeration tube are provided with the first aeration tube pipe plug and the first aeration tube air inlet, second aeration tube
It is provided with the second aeration tube pipe plug and the second aeration tube air inlet;
First aeration tube and the second aeration tube are embedded in mutually in vortex wire shaped, the first aeration tube air inlet with
The second aeration tube pipe plug is adjacent.
According to the present invention, solarization air cap, the multiple aeration are provided on first aeration tube and second aeration tube
Hole is equidistantly staggered downwards with the aeration tube two sides at 120 °.
According to the present invention, first aeration tube is identical with the second aeration tube pipeline specification, between aeration tube between
Away from identical.
According to the present invention, the aerator further includes having aeration tube support plate and wire netting, the aeration tube support plate
Positioned at the lower section of the aeration tube, the bottom of aeration tube and fermentation cylinder keeps a distance;
The wire netting is laid on above the aeration tube, and specification is 18 mesh, it is therefore an objective to by the fermentation more than a certain size
Object is blocked in above wire netting.
According to the present invention, the agitating device includes agitating shaft, stirrer paddle and multiple blade support bars, the agitating paddle
Along the agitating shaft, helically line rises trend to leaf, and the stirrer paddle is fixedly connected on the agitating shaft by blade support bar
On.
According to the present invention, the agitating shaft upper and lower ends are provided with bearing, respectively first bearing and second bearing, institute
Stating in agitating device further includes having multiple bearing support bars, and the bearing support bar is evenly distributed in using first bearing as the center of circle
Circumference on, one end of the bearing support bar and the first bearing are rotatablely connected, the inner sidewall of the other end and fermentation cylinder
It is fixedly connected, the bottom surface of the second bearing and fermentation cylinder is rotatablely connected;
Agitating shaft lower end is additionally provided with the second belt wheel, second belt wheel and power device synchronized links.
According to the present invention, the feed inlet be located at it is described fermentation cylinder top, fermentation material from feed inlet slowly enter to
Ferment cylinder;
The discharge port includes the first discharge port and the second discharge port, is symmetrically distributed in the left and right two of the fermentation cylinder
Side, fermentation material is simultaneously from two discharge hole for discharge.
According to the present invention, the side wall surface of the fermentation cylinder is made of cylinder outer layer and two layers of barrel inner, the cylinder
Internal layer is glass-reinforced plastic material, and the cylinder outer layer is thermal insulation material.
According to the present invention, the inlet duct includes total inlet pipe and blower;
Described total inlet pipe one end is total air inlet, is connected with the first aeration tube air inlet, the second aeration tube air inlet, separately
One end is connected with blower;
Flowmeter and valve are additionally provided on the pipeline that the total inlet pipe is connected with blower.
According to the present invention, the power device includes motor, transmission shaft, reduction gearbox, first pulley and belt, and described second
By the belt synchronized links, the first pulley is arranged on the reduction gearbox, described to subtract for belt wheel and the first pulley
Fast case is connected on the motor by the transmission shaft.
(3) beneficial effect
The beneficial effects of the present invention are:
1, the cylinder in the present invention uses double layer material, and cladding material is thermal insulation material, can be reduced in fermentation process
The loss of heat, is conducive to the raising of heap temperature, and then is more prone to produce vapor discharge heap body, shortens fermentation period;
2, the effect of turning operation may be implemented in the agitating device used in the present invention, is sufficiently mixed material and stirs
It is even;The vapor of generation can also be discharged when being stirred to heap body above cylinder, improve the porosity of heap body, guaranteed
Next stage aerobic fermentation sufficiently carries out;
3, present invention employs compensation piping mode, make to be aerated more uniform, reduce anaerobic fermentation region, make organic
Solid waste aerobic fermentation is more abundant, promotes ferment effect.
Detailed description of the invention
Fig. 1 is the device of the invention structure chart;
Fig. 2 is aeration tube piping mode schematic diagram of the invention;
Fig. 3 (a) is the second aeration tube drilling top view of the invention;
Fig. 3 (b) is the second aeration tube drilling side view of the invention;
Fig. 4 is agitating device schematic diagram of the invention;
Fig. 5 is fermentation cylinder bottom plan view of the invention.
[description of symbols]
1: agitating device;2: fermentation cylinder;3: discharge port;4: supporting leg;5: total inlet pipe;6: flowmeter;7: valve;8: wind
Machine;9: motor;10: transmission shaft;11: reduction gearbox;12: first pulley;13: belt;14: feed inlet;15: the first aeration tube pipes
It is stifled;16: the first aeration tube air inlets;17: the second aeration tube pipe plugs;18: the second aeration tube air inlets;19: total air inlet;20:
First aeration tube;21: the second aeration tubes;22: solarization air cap;101: first bearing;102: bearing supporting frame;103: agitating shaft:
104: blade support bar;105: stirrer paddle;106: second bearing;107: the second belt wheels;201: cylinder outer layer;202: in cylinder
Layer;203: supporting leg;204: axis hole;205: aeration tube support plate.
Specific embodiment
In order to preferably explain the present invention, in order to understand, with reference to the accompanying drawing, by specific embodiment, to this hair
It is bright to be described in detail.
The present invention provides the compensation aeration of one kind and exempts from turning aerobic fermentation device, which includes agitating device 1, fermentation
Cylinder 2, aerator, power device and inlet duct, wherein agitating device 1 and aerator are arranged at fermentation cylinder 2
Inside, the installation for fermenting further include having multiple supporting legs 4, and supporting leg 4 supports the device to be placed on the ground it;
Power device includes motor 9, transmission shaft 10, reduction gearbox 11, first pulley 12 and belt 13;
Inlet duct includes blower 8 and total inlet pipe 5.
Specifically, being uncovered structure above fermentation cylinder 2, it is therefore an objective to the vapor generated in fermentation process be discharged, and set
It is equipped with feed inlet 14, fermentation material can be slowly entered from feed inlet 14 to the inside of fermentation cylinder 2, simple and convenient;Ferment cylinder 2
Bottom is enclosed construction, and cylinder bottom center position is provided with axis hole 204;The side wall surface of fermentation cylinder 2 is by 201 He of cylinder outer layer
Two layers of barrel inner 202 composition and it is provided with discharge port 3, wherein barrel inner 202 is glass-reinforced plastic material, the quality of materials is light,
Intensity is big, corrosion-resistant, heat insulation effect is good, while long service life, can overcome the evil of fermentation process high temperature and moisture corrosion
Bad environment;Cylinder outer layer 201 is thermal insulation material, which can reduce the loss of heat in fermentation process, be conducive to vapor
Generation, shorten fermentation period.
Specifically, agitating device 1 includes agitating shaft 103 and stirrer paddle 105,103 upper and lower ends of agitating shaft are provided with
Bearing, respectively first bearing 101 and second bearing 106 further include having multiple bearing support bars 102, bearing in agitating device 1
Support rod 102 is evenly distributed in first bearing 101 as on the circumference in the center of circle, one end of bearing support bar 102 and first axle
101 rotation connections are held, the other end is fixedly connected with the inner sidewall of fermentation cylinder 2, and bearing support bar 102 is to entire agitating shaft 103
Positioning action is played, after agitating device 1 works, guarantees that agitating shaft 103 remains vertical direction, in the present embodiment, preferably
Ground is provided with six roots of sensation bearing support bar 102 above agitating device 1;
Further, using rectangle steel disc, along agitating shaft 103, helically line rises trend, stirrer paddle to stirrer paddle 105
105 are fixedly connected with agitating shaft 103 by blade support bar 104;The spiral construction of stirrer paddle 105 makes fermentation material enter hair
It is adequately stirred after ferment cylinder 2, can also enable the vapor generated in fermentation material heap body along the upper of cylinder 2 in whipping process
Side's discharge heap is external, plays the effect of turning;
Further, agitating shaft 103 passes through axis hole 204, is rotatablely connected by the bottom surface of second bearing 106 and fermentation cylinder 2,
103 lower end of agitating shaft is additionally provided with the second belt wheel 107, and the second belt wheel 107 passes through belt with the first pulley 12 in power device
13 synchronized links, first pulley 12 are arranged on reduction gearbox 11, and reduction gearbox 11 is connected on motor 9 by transmission shaft 10, when opening
When dynamic motor 9, motor 9 drives transmission shaft 10, and driving reduction gearbox 11 drives first pulley 12 to rotate, and first pulley 12 drives
Belt 13 drives the rotation of the second belt wheel 107, and the second belt wheel 107 drives agitating shaft 103 to rotate, and spiral is set on agitating shaft 103
The stirrer paddle 105 set rotates with it, and stirrer paddle 105 is distributed in close to fermentation 2 inner side of cylinder, 105 meeting of stirrer paddle
The fermentation material that will be close to fermentation cylinder 2 slowly shifts top onto, and the fermentation material in middle position can in time supplement vacant space,
By continuously running, fermentation material will be stirred, and entire agitating device occupies little space, and does not continuously run, and need
Turning on the switch when operating can realize to the progress turning of heap body, avoid artificial turning, reduce workload, and energy conservation and environmental protection.
Specifically, the bottom of fermentation cylinder 2 is arranged in aerator, it include aeration pipe network, aeration pipe network is advised by two
The identical aeration tube composition of lattice, respectively the first aeration tube 20 and the second aeration tube 21, the both ends of this two aeration tubes are respectively
Air inlet and pipe plug, two aeration tubes carry out stringing using compensation piping mode, and specific piping mode is as shown in figure 3, first
Aeration tube 20 and the second aeration tube 21 are embedded in mutually in vortex wire shaped, and between the first aeration tube 20 and the second aeration tube 21
Spacing is identical, but the position of the air inlet of this two aeration tubes and pipe plug is just on the contrary, the first of i.e. the first aeration tube 20 is aerated
Pipe air inlet 16 is adjacent with the second aeration tube pipe plug 17 of the second aeration tube 21, using compensation piping mode aeration tube each other
Air quantity compensation is carried out, can guarantee that the air quantity in fermentation zone is identical everywhere;
Further, to guarantee aeration uniformly, on the basis of compensation piping mode, there is also multiple aerations on aeration tube
Hole 22, solarization air cap 22 and 21 two sides of aeration tube are exposed as shown in Fig. 3 (a) at the bore mode of 120 ° of equidistant staggeredly progress downwards
Stomata 22 is distributed in 21 side wall of aeration tube, moves towards along pipeline, is staggered front to back and is distributed in left and right sidewall, as shown in Fig. 3 (b), two sides
Solarization air cap 22 be distributed in 21 tube wall lower end of aeration tube at 120 °, such bore mode avoids the oxygen concentration into heap body
In a certain region, becomes anaerobic zone so as to cause other regions, that is, ensure that the uniformity of aeration;
Further, aerator further includes having aeration tube support plate 205 and wire netting, and aeration tube support plate 205, which is located at, to expose
The lower section of gas pipe network enables aeration pipe network and the bottom for the cylinder 2 that ferments keep a distance, forms a small solarization air cell space,
Air from solarization air cap outflow after, cached and merged in this space, make to be aerated it is more uniform, improve heap body fermentation effect
Fruit;
Wire netting is laid on aeration tube side on the net, and specification guarantees more than 18 mesh, in this way can will be more than a certain size
Fermentation material is blocked in above wire netting, is prevented fermentation material from falling into aeration pipe network and is caused aeration pipe choking in pipe network, influences to be aerated
Uniformity carries out influence ferment effect.
Specifically, the both ends of two aeration tubes are respectively air inlet and pipe plug, the both ends of the first aeration tube 20 are respectively
One aeration tube pipe plug 15, the first aeration tube air inlet 16, the both ends of the second aeration tube 21 are respectively the second aeration tube pipe plug 17,
Two aeration tube air inlets 18, the first aeration tube air inlet 16 and the second aeration tube air inlet 18 and the total inlet pipe in inlet duct
Total air inlet 19 on 5 is connected, and the bottom surface that total inlet pipe 5 passes through fermentation cylinder 2 is connected with blower, and total inlet pipe 5 is located at hair
Flowmeter 6 and valve 7 are additionally provided on pipeline outside ferment cylinder 2, since the air quantity required for the different phase of fermentation is big
It is small also different, therefore, is controlled by air force of the valve 7 to the generation of blower 8, make the air quantity shown in flowmeter 6
Within the scope of the best air force in size stage locating for it, it can just guarantee that the ferment effect of the installation for fermenting is ideal.
When heap body after fermentation, carries out draw operation by discharge port 3, discharge port 3 includes first in installation for fermenting
Discharge port and the second discharge port, two discharge ports are symmetrically distributed in the side wall surface of fermentation cylinder 2, and tunning is in discharging process
In simultaneously from two discharge hole for discharge, not only accelerate discharging speed, also make tunning be discharged to as far as possible fermentation cylinder 2
Outside, the tunning residual fermented in cylinder 2 is less, is conducive to the progress fermented next time.
Entire fermentation workflow are as follows:
Two discharge ports 3 for being located at the side wall of fermentation cylinder 2 are closed, by municipal sludge or feces of livestock and poultry and rice chaff or rice
Shell etc. is tentatively mixed in proportion on ground, reaches the optimum of aerobic fermentation, the hair that then will tentatively mix
Ferment object is poured slowly into fermentation cylinder 2 from feed inlet 14 and is sufficiently mixed, and aerator and agitating device is opened, to fermentation material
It is stirred, uniformly rear closing agitating device to be mixed, then adjusts the valve 7 in aerator, air quantity is transferred to fermentation first
Within the scope of the best air quantity in stage;
At the end of the first stage of fermenting, air quantity is adjusted to required air force, agitating device is opened, since fermentation produces
Raw heat can generate vapor to internal, and under the action of stirring and aeration, the intracorporal vapor of heap will be from fermentation cylinder
The top discharge heap of body 2 is external, in addition, stirring can be such that tunning is uniformly mixed and improve heap body porosity, under being conducive to
Agitating device is closed in the fermentation in one stage, air quantity is adjusted again into the best air quantity of place fermentation stage, Mei Gejie
Section all repeats above operation;
Continuously ferment 4 step left-rights in this way, and fermentation period is 16 days or so, and entire fermentation process terminates, by air quantity tune
Required air force is saved, agitating device is opened, opens the discharge port 3 of fermentation 2 two sides of cylinder, tunning is discharged.
The present invention efficiently reduces the loss of heat in fermentation process, is conducive to the raising of heap temperature, shortens fermentation week
Phase;Agitating device with screw blade can be such that material is sufficiently mixed, and improve the porosity of heap body, guarantee next stage
The abundant progress of aerobic fermentation;Compensation piping mode makes to be aerated more uniform, reduces anaerobic fermentation region, makes organic solid
Waste aerobic fermentation is more abundant, promotes ferment effect.
It is to be appreciated that describing the skill simply to illustrate that of the invention to what specific embodiments of the present invention carried out above
Art route and feature, its object is to allow those skilled in the art to can understand the content of the present invention and implement it accordingly, but
The present invention is not limited to above-mentioned particular implementations.All various changes made within the scope of the claims are repaired
Decorations, should be covered by the scope of protection of the present invention.
Claims (10)
1. a kind of compensation aeration exempts from turning aerobic fermentation device, including ferments cylinder (2), supporting leg (4), feed inlet (14), goes out
Material mouth (3), inlet duct and power device, it is characterised in that:
The installation for fermenting further includes aerator and agitating device;
Aerator setting is in fermentation cylinder (2), including aeration tube, the aeration tube include the first aeration tube (20) and
Second aeration tube (21), first aeration tube (20) are provided with the first aeration tube pipe plug (15) and the first aeration tube air inlet
(16), second aeration tube (21) is provided with the second aeration tube pipe plug (17) and the second aeration tube air inlet (18);
First aeration tube (20) and the second aeration tube (21) are embedded in mutually in vortex wire shaped, the first aeration tube air inlet
Mouth (16) is adjacent with the second aeration tube pipe plug (17).
2. installation for fermenting according to claim 1, it is characterised in that:
It is provided with solarization air cap (22) on first aeration tube (20) and second aeration tube (21), multiple solarization air caps
(22) it is equidistantly staggered downwards with the aeration tube two sides at 120 °.
3. installation for fermenting according to claim 1, it is characterised in that:
First aeration tube (20) is identical with the second aeration tube (21) pipeline specification, and the spacing between aeration tube is identical.
4. installation for fermenting according to claim 1, it is characterised in that:
The aerator further includes having aeration tube support plate (205) and wire netting, and the aeration tube support plate (205) is located at institute
The lower section for stating aeration tube makes aeration tube and the bottom of fermentation cylinder (2) keep a distance;
The wire netting is laid on above the aeration tube, and specification is 18 mesh.
5. installation for fermenting according to claim 1, it is characterised in that:
The agitating device (1) includes agitating shaft (103), stirrer paddle (105) and multiple blade support bars (104), described to stir
Mixing blade (105), helically line rises trend along the agitating shaft (103), and the stirrer paddle (105) passes through blade support bar
(104) it is fixedly connected on the agitating shaft (103).
6. installation for fermenting according to claim 5, it is characterised in that:
Agitating shaft (103) upper and lower ends are provided with bearing, respectively first bearing (101) and second bearing (106), institute
Stating in agitating device (1) further includes having multiple bearing support bars (102), the bearing support bar (102) be evenly distributed in
First bearing (101) is on the circumference in the center of circle, and one end and the first bearing (101) of the bearing support bar (102) rotate
Connection, the other end are fixedly connected with the inner sidewall of fermentation cylinder (2), the bottom surface of the second bearing (106) and fermentation cylinder (2)
Rotation connection;
Agitating shaft (103) lower end is additionally provided with the second belt wheel (107), and second belt wheel (107) is synchronous with power device
Connection.
7. installation for fermenting according to claim 1, it is characterised in that:
The feed inlet (14) is located at the top of fermentation cylinder (2), and fermentation material is slowly entered from feed inlet (14) to fermentation
Cylinder (2);
The discharge port (3) includes the first discharge port and the second discharge port, is symmetrically distributed in the left and right two of fermentation cylinder (2)
Side, fermentation material is simultaneously from two discharge hole for discharge.
8. installation for fermenting according to claim 1, it is characterised in that:
The side wall surface of fermentation cylinder (2) is made of cylinder outer layer (201) and two layers of barrel inner (202), in the cylinder
Layer (202) is glass-reinforced plastic material, and the cylinder outer layer (201) is thermal insulation material.
9. installation for fermenting according to claim 1, it is characterised in that:
The inlet duct includes total inlet pipe (5) and blower (8);
Described total inlet pipe (5) one end is total air inlet (19), with the first aeration tube air inlet (16), the second aeration tube air inlet
(18) it is connected, the other end is connected with blower (8);
Flowmeter (6) and valve (7) are additionally provided on the pipeline that the total inlet pipe (5) is connected with blower (8).
10. installation for fermenting according to claim 5, it is characterised in that:
The power device includes motor (9), transmission shaft (10), reduction gearbox (11), first pulley (12) and belt (13), described
Second belt wheel (107) and the first pulley (12) pass through the belt (13) synchronized links, first pulley (12) setting
On the reduction gearbox (11), the reduction gearbox (11) is connected on the motor (9) by the transmission shaft (10).
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