CN205170627U - High effective microbe handles all -in -one - Google Patents
High effective microbe handles all -in -one Download PDFInfo
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- CN205170627U CN205170627U CN201521010856.3U CN201521010856U CN205170627U CN 205170627 U CN205170627 U CN 205170627U CN 201521010856 U CN201521010856 U CN 201521010856U CN 205170627 U CN205170627 U CN 205170627U
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Abstract
The utility model discloses a high effective microbe handles all -in -one has solved current distributed domestic sewage and has got rid of the technical problem of difficulty to nutrients such as nitrogen, phosphorus, the utility model discloses high effective microbe handles all -in -one, including organism, fan, drain pump and dephosphorization filter equipment, the organism has an inner chamber, and the inner chamber bottom of this organism is equipped with the aeration head, the air outlet of aeration head intercommunication fan, the inner chamber bottom of the water inlet intercommunication organism of drain pump, the delivery port of this drain pump communicates dephosphorization filter equipment.
Description
Technical field
The utility model relates to high-effective microorganism process all-in-one.
Background technology
In recent years, various water technology achieves continuous development in actual applications, particularly as the activated sludge process of second-stage treatment with its technique relative maturity, stable, treatment effect is good and become the prevailing technology of municipal sewage treatment, but traditional active sludge not only initial cost is large, working cost is high, and it is main to remove for the purpose of carbon source pollutent, to nitrogen, the removal effect of the nutritive substances such as phosphorus is not good, the environmental problems such as eutrophication will be caused after water outlet after treatment enters water body, though tertiary treatment can solve the problem, but be difficult to spread because of investment and working cost costliness.Many samll cities and towns, rural area, community, hotel, school are due to pipe network imperfection, there is the problem of sanitary sewage disposal difficulty, the sanitary sewage in these areas is rich in again nitrogen, phosphoric, if wantonly discharge, the water body environment serious eutrophication of periphery can be caused, the sanitary sewage water yield again due to these places is little, fairly large sewage work cannot be built as process town domestic sewage, change distributed small sewage treatment plant into then to need to build a lot of seat, and have that floor space is large, cost is high, inefficient problem.
Utility model content
Technical problem to be solved in the utility model is just to provide high-effective microorganism process all-in-one, solves the technical problem of existing distributed sanitary sewage disposal difficulty.
For solving the problems of the technologies described above, the utility model adopts following technical scheme:
High-effective microorganism process integrated machine system, comprise body, blower fan, wet-pit and dephosphorization filtration unit, described body has inner chamber, the intracavity bottom of this body is provided with aeration head, described aeration head is communicated with the air outlet of blower fan, the water-in of described wet-pit is communicated with the intracavity bottom of body, and the water outlet of this wet-pit is communicated with dephosphorization filtration unit.
Further, first row water motorized valve is provided with between described wet-pit and dephosphorization filtration unit, second row water motorized valve is provided with between described wet-pit and first row water motorized valve, the water outlet of the water-in of this first row water motorized valve and the equal communicated drainage pump of water-in of second row water motorized valve, the water outlet of this first row water motorized valve is communicated with the water-in of dephosphorization filtration unit.
Further, the first ball valve for adjust flux is provided with between described wet-pit and body, the second ball valve for emergent draining is provided with between described first ball valve and wet-pit, the water-in of this first ball valve is communicated with the intracavity bottom of body, and the water-in of this second ball valve is all communicated with the water outlet of the first ball valve with the water-in of wet-pit.
Further, the water outlet of described second ball valve, the water outlet of second row water motorized valve and the water outlet of dephosphorization filtration unit are all communicated with the water-in of flow meters, and the water outlet of this under meter is communicated with sampled well.
Further, described wet-pit and blower fan are provided with two, a preparation and a use, rotation running every day.
Further, described body is provided with emergent shore pipe, and one end of described emergent shore pipe is communicated with the intracavity bottom of body, and the other end of this shore pipe is provided with ball valve and Link Port, for the interim sludge pump water-in of connection.
Further, the below of described body is provided with sole plate, and described sole plate is provided with sidewall, and described sidewall encloses formation groove, and the bottom of described body is established in a groove.
The beneficial effects of the utility model are:
1, sanitary sewage is concentrated and is carried out degradation treatment in body inner chamber, be conducive to improving the utilization ratio of microorganism and the degradation efficiency to pollutent, blower fan on body is by the aeration head exhaust in body inner chamber, there is stronger air lifting effect, reduce bottom sludge to pile up, the more important thing is and make oxygen high-efficiency dissolution in the sewage of body inner chamber, the oxygen supply needed during to ensure microbiological deterioration Pollutants in Wastewater is sufficient;
2, sanitary sewage passes through the effect degraded COD of microorganism in the body inner chamber of high-effective microorganism process all-in-one
crafter ammonia nitrogen, carry out dephosphorization by dephosphorization filtration unit, degraded COD
crwith ammonia nitrogen and dephosphorization step-by-step processing, more targetedly, processing efficiency is higher;
3, whole high-effective microorganism process all-in-one parts are few, and volume is little, can carry out degraded COD in single pond
crwith ammonia nitrogen reaction, and carry out dephosphorization by dephosphorization filtration unit, install fast simple and convenient, easy construction and the cycle short, compare traditional activated sludge process without the need to sludge reflux, do not establish second pond, cost of erection and running cost lower.
Accompanying drawing explanation
Below in conjunction with the drawings and specific embodiments, the utility model is described further:
Fig. 1 is the structural representation of high-effective microorganism process all-in-one;
Fig. 2 is the partial enlarged drawing of a-quadrant in Fig. 1.
Embodiment
Below in conjunction with accompanying drawing, embodiment of the present utility model is elaborated.
As depicted in figs. 1 and 2, high-effective microorganism process integrated machine system, comprise grille well 1, regulate water reservoir 2 and high-effective microorganism process all-in-one 3, water-in 11 is provided with in grille well 1, sanitary sewage flows in grille well 1 by this water-in 11, grid sheet 12 is coated with in this grille well 1, by the grate opening of grid sheet 12, the foreign material in sanitary sewage and thick suspended substance are filtered out, the first lift pump 13 is provided with in grille well 1, the water outlet of the first lift pump 13 is communicated with adjustment water reservoir 2, sanitary sewage in grille well 1 is evacuated to and regulates the Balance Water Quality water yield in water reservoir 2 by the first lift pump 13, regulate in water reservoir 2 and be provided with the second lift pump 21, on adjustment water reservoir, 2 are provided with the opening 22 for overhauling, this opening 22 is convenient to take out when the second lift pump 21 breaks down and is carried out keeping in repair and be convenient to clear up the mud regulated bottom water reservoir 2.
High-effective microorganism process all-in-one 3 comprises body 31, blower fan 32, wet-pit 33 and dephosphorization filtration unit 34, body 31 has inner chamber 311, the water outlet of the second lift pump 21 is communicated with the inner chamber 311 of body 31, by the second lift pump 21, the sanitary sewage regulated in water reservoir 2 is evacuated in the inner chamber 311 of body 31, have a large amount of microbic activity mud of attachment in body 31 inner chamber 311, sanitary sewage enters body 31 inner chamber Neutralization effect mud and mixes merga pass microbiological deterioration COD
crand ammonia nitrogen, aeration head 312 is provided with bottom the inner chamber 311 of this body 31, aeration head 312 is communicated with the air outlet of blower fan 32, blower fan 32 adopts quiet blower fan to reduce the noise effect environment produced, by blower fan 32 pairs of aeration head 312 air feed, air is fully contacted with the sanitary sewage in body 31 inner chamber 311, the utilization ratio of oxygen reaches more than 30%, greatly improve the dissolved oxygen amount of sanitary sewage, thus the oxygen met required for microbiological deterioration pollutent, efficient dissolution rate of oxygen makes power consumption significantly reduce, and can reduce a large amount of power consumption.
When the active sludge in body 31 makes the microorganism mortality of attachment because the reasons such as generation abnormal accident cause being deteriorated and no longer has the ability of process pollutent efficiently, then need the mud of discharging in the inner chamber 311 of body 31, in order to mud can be discharged smoothly, body 31 is provided with shore pipe 302, one end of shore pipe 302 is communicated with bottom the inner chamber 311 of body 31, the other end of this shore pipe 302 is communicated with the water-in of an interim sludge pump 303, starts sludge pump 303 and just the mud bottom the inner chamber 311 of body 31 can easily be discharged by shore pipe 302.
The water-in of wet-pit 33 is communicated with the intracavity bottom of body 31, the water outlet of this wet-pit 33 is communicated with dephosphorization filtration unit 34, first row water motorized valve 35 is provided with between wet-pit 33 and dephosphorization filtration unit 34, second row water motorized valve 36 is provided with between first row water motorized valve 35 and wet-pit 33, the water outlet of the water-in of this first row water motorized valve 35 and the equal communicated drainage pump 33 of water-in of second row water motorized valve 36, the water outlet of this first row water motorized valve 35 is communicated with the water-in of dephosphorization filtration unit 34, dephosphorization filtration unit 34 has the filtering membrane containing specific coatings, there is efficient dephosphorization, life cycle is long, can repeatedly Reusability after activated cleaning, the features such as use cost is low, sanitary sewage passes through degraded COD in the inner chamber 311 of body 31
crcarry out dephosphorization by wet-pit 33 suction dephosphorization filtration unit 34 again with after ammonia nitrogen, thus reduce total phosphorus in sanitary sewage, produce the process water meeting emission standard.
The first ball valve 37 for adjust flux is provided with between wet-pit 33 and body 31, the second ball valve 38 for emergent draining is provided with between first ball valve 37 and wet-pit 33, the water-in of this first ball valve 37 is communicated with bottom the inner chamber 311 of body 31, the water-in of this second ball valve 38 is all communicated with the water outlet of the first ball valve 37 with the water-in of wet-pit 33, treated sanitary sewage to be extracted out by wet-pit 33 flow from the inner chamber 311 of body 31 can be controlled by the opening degree controlling the first ball valve 37, and when wet-pit 33 and subsequent pipeline break down cannot draining time, by opening the second ball valve 38 to realize the function of emergent draining temporarily.
The water outlet of the second ball valve 38, the water outlet of second row water motorized valve 36 and the water outlet of dephosphorization filtration unit 34 are all communicated with the water-in of flow meters 301, the water outlet of this under meter 301 is communicated with sampled well 4, under meter 301 is for calculating the output of sanitary sewage, sampled well 4 can provide the sanitary sewage for outer row after treatment, and supplies artificial sample and water quality detection as required.
In order to avoid the treatment effect of envrionment temperature to sanitary sewage has an impact, the mode that high-effective microorganism process all-in-one preferably employing part buries underground underground is installed, keep stable to make the temperature in the inner chamber 311 of body 31, sewage smells in high-effective microorganism process all-in-one can also be alleviated on the impact of the above air ambient in ground simultaneously, and for the ease of adding complex microorganism preparations in body 31, the top of body 31 can be made to basset, the below of body 31 is provided with base 39, base 39 is provided with sidewall 391, this sidewall 391 encloses and forms groove 392, the bottom of body 31 is located in groove 392, base 39 and sidewall 391 adopt mixed earth one to pour into a mould and form, the buried installation of body 31 can be made more firm by the cast of base 39, thus be applicable to the installation environment of all kinds of complicated landform, body 31 is also not easy to be subject to earth corrosion simultaneously, and sidewall 391 pairs of bodies 31 also serve certain heat-blocking action.
High-effective microorganism process all-in-one also comprises PLC control module, hand control switch and automatic control switch, wet-pit 33, first lift pump 13, second lift pump 21, blower fan 32, first row water motorized valve 35 and second row water motorized valve 36 all have a corresponding manual start stop switch, hand control switch controls wet-pit 33, first lift pump 13, second lift pump 21, blower fan 32, first row water motorized valve 35 and second row water motorized valve 36 are communicated with or disconnection with its each self-corresponding manual start stop switch, automatic control switch controls wet-pit 33, first lift pump 13, second lift pump 21, blower fan 32, first row water motorized valve 35 and second row water motorized valve 36 are communicated with or disconnection with PLC control module, wherein automatically control as PLC controls by the program of setting, Non-follow control is then the start and stop of manual operation electrical equipment, wet-pit 33, first lift pump 13, second lift pump 21 and blower fan 32 are provided with two for the using and the reserved, two wet-pits 33, two the first lift pumps 13, manually start stop switch keying or PLC control module take turns starting work in units of sky for two the second lift pumps 21 and two blower fans 32, to reduce its working load, increase the service life, and ensure to have at least one can normally use in the equipment of a preparation and a use, wet-pit 33, first lift pump 13, second lift pump 21 and blower fan 32 are all connected with fault alarm module, when one of them of two wet-pits 33 or two the first lift pumps 13 or two the second lift pumps 21 or two blower fans 32 breaks down, the trouble signal of corresponding fault alarm CMOS macro cell sends to PLC control module, this trouble signal reminds managerial personnel to repair in time in the mode of reporting to the police by PLC control module, automatically control another normally wet-pit 33 of work or the first lift pump 13 or the second lift pump 21 or blower fan 32 start work simultaneously, ensure the normal processing of sanitary sewage, under meter 301 adopts electronic grout flow meter, its data on flows can be sent to PLC control module in real time, transfer to remote work station by PLC control module again to show.
In addition, regulate the first sensor being provided with in water reservoir 2 and detecting liquid level, the second sensor detecting liquid level is provided with in the inner chamber 311 of body 31, PLC control module receives first sensor respectively and will the liquid level signal of water reservoir 2 and the second sensor be regulated the liquid level signal of the inner chamber 311 of body 31, the liquid level of water reservoir 2 is regulated to have low liquid level and high liquid level, regulate when the low liquid level of water reservoir 2 and high liquid level and trigger a float switch respectively, liquid level in the inner chamber 311 of body 31 has low liquid level and high liquid level, also a float switch is triggered respectively when the low liquid level in the inner chamber 311 of body 31 and high liquid level, transmit liquid level signal to corresponding sensor by the triggering of float switch, when sensor detects the liquid level of adjustment water reservoir 2 lower than low liquid level, PLC control module controls the second lift pump 21 and quits work, the inner chamber 311 of body 31 stops water inlet, whole treatment system is in suspended state simultaneously, until when sensor detects the liquid level of adjustment water reservoir 2 higher than high liquid level, PLC control module controls the second lift pump 21 and restarts work, and the operation after proceeding, the inner chamber 311 of body 31 is intake until the second sensor detects that liquid level in the inner chamber 311 of body 31 is higher than high liquid level, PLC control module controls the second lift pump 21 and quits work, and when outwards draining makes the liquid level of the inner chamber 311 of body 31 lower than low liquid level to wet-pit 33, stop wet-pit 33 and close draining motorized valve, draining completes, the water yield flowing into grille well 1 when heavy rain is excessive, in order to prevent regulating the sanitary sewage spill-over in water reservoir 2, the outer wall regulating water reservoir 2 is provided with emergent water shoot 23, the two ends of this emergent water shoot 23 are communicated with adjustment water reservoir 2 and sampled well 4 respectively, Water in Rainwater Drainage to the sampled well 4 that exposes to the sun is regulated in water reservoir 2 to discharge to ensure that adjustment water reservoir 2 can not spill-over inflow by emergent water shoot 23.
Small-sized sanitary sewage integrated processor also comprises the RCI for receiving remote control signal, this RCI connects PLC control module, RCI can be used for the Function Extension of Internet of Things, output interface is provided to Long-distance Control chip, certainly this RCI also can be integrated in PLC control module, uses the bus marco of PLC to realize the transmission of data.
One way of life sewage treatment process, comprises the following steps:
4) according to the actual discharge situation of sanitary sewage, high phosphorus sewage execution time and low-phosphorous sewage execution time is determined;
5) perform in the high phosphorus sewage execution time: open the first electric draining valve, close second row water motorized valve, start wet-pit by the supernatant liquor of sanitary sewage input dephosphorization filtration unit, finally sanitary sewage after treatment drains into sampled well and finally enters and receives sewage body;
Perform in low-phosphorous sewage execution time: open second row water motorized valve, close the first electric draining valve, start wet-pit and sanitary sewage is directly entered sampled well and finally enter and receive sewage body.
Due to generally, resident is more in laundry at weekend, sanitary sewage is phosphorous higher, and working days, sanitary sewage was phosphorous relatively low, the time of water reservoir is regulated usually to need one day because sanitary sewage is discharged to flow into from resident family again, so, preferred step 5) in the high phosphorus sewage execution time be Sunday and Monday, the low-phosphorous sewage execution time is that Tuesday is to Saturday.
The weight percent of each component of complex microorganism preparations is: COD
crdegradation bacteria preparation 25 ~ 30%, ammonia nitrogen clear up bacteria preparation 40 ~ 50% and mud decrement bacteria preparation 20 ~ 25%, COD
crdegradation bacteria is to the COD in waste water
crthere is the degradation capability more powerful than natural bacteria, the organic pollutant in the rapid water of decomposition of energy, fast degradation overwhelming majority COD
cr; Ammonia nitrogen is cleared up bacterium and is had to high-concentration ammonia nitrogen in waste water the powerful removal ability that natural bacteria do not possess, and can accomplish at degraded COD
crwhile remove ammonia nitrogen in waste water, therefore short than natural bacteria for the time needed for ammonia nitrogen removal, removal efficiency is also higher; Mud decrement bacterium with the microorganism of death for food source, eliminate aging mud, prevent mud Cumulate Sum from expanding, greatly reduce excess sludge generation, can accomplish not arrange excess sludge outward for a long time, by such proportion relation, three kinds of bacterium can reach best mutual symbiosis metabolism, make the discomposing effect of often kind of bacterium better, adopt complex microorganism preparations efficient, with strong points, speed of reaction improves greatly, organic removal rate is high, system capacity of resisting impact load is strong, and treatment effect is stablized, and effluent quality is good.
This domestic sewage treatment process does not need to establish secondary sedimentation basins, thus its pool volume and floor space more conventional two stage biological treatment process much smaller, greatly save floor space and a large amount of civil engineering costs.
High-effective microorganism process all-in-one can adopt degree of depth field engineering, equipment is made to run the impact of climate condition hardly, sewage qualified discharge throughout the year after treatment, effluent quality can be made to reach one-level category-A emission standard and stable, its water outlet can be used for the stability that irrigation, landscape water etc. recycle retaining zone water surrounding and ecology.
The treatment effect of actual experiment is as follows:
Note: Con trolling index when the outer data of bracket are water temperature >=12 DEG C, Con trolling index when numerical value is water temperature≤12 DEG C in bracket.
Be described with regard to the utility model preferred embodiment above, but can not be interpreted as it is limitations on claims.The utility model is not only confined to above embodiment, its concrete structure allows to change, those skilled in the art can make various change and distortion according to the utility model, only otherwise depart from spirit of the present utility model, all belong to the scope that the utility model claims define.
Claims (7)
1. high-effective microorganism process all-in-one, it is characterized in that, comprise body, blower fan, wet-pit and dephosphorization filtration unit, described body has inner chamber, the intracavity bottom of this body is provided with aeration head, described aeration head is communicated with the air outlet of blower fan, and the water-in of described wet-pit is communicated with the intracavity bottom of body, and the water outlet of this wet-pit is communicated with dephosphorization filtration unit.
2. high-effective microorganism process all-in-one according to claim 1, it is characterized in that, first row water motorized valve is provided with between described wet-pit and dephosphorization filtration unit, second row water motorized valve is provided with between described first row water motorized valve and wet-pit, the water outlet of the water-in of this first row water motorized valve and the equal communicated drainage pump of water-in of second row water motorized valve, the water outlet of this first row water motorized valve is communicated with the water-in of dephosphorization filtration unit.
3. high-effective microorganism process all-in-one according to claim 2, it is characterized in that, the first ball valve for adjust flux is provided with between described wet-pit and body, the second ball valve for emergent draining is provided with between described first ball valve and wet-pit, the water-in of this first ball valve is communicated with the intracavity bottom of body, and the water-in of this second ball valve is all communicated with the water outlet of the first ball valve with the water-in of wet-pit.
4. the high-effective microorganism process all-in-one according to claim 3 any one, it is characterized in that, the water outlet of described second ball valve, the water outlet of second row water motorized valve and the water outlet of dephosphorization filtration unit are all communicated with the water-in of flow meters, and the water outlet of this under meter is communicated with sampled well.
5. the high-effective microorganism process all-in-one according to Claims 1 to 4 any one, it is characterized in that, described wet-pit and blower fan are provided with two.
6. the high-effective microorganism process all-in-one according to claim 1 any one, it is characterized in that, described body is provided with shore pipe, and one end of described shore pipe is communicated with the intracavity bottom of body, the other end of this shore pipe is provided with ball valve and Link Port, for the interim sludge pump water-in of connection.
7. the high-effective microorganism process all-in-one according to claim 1 any one, it is characterized in that, the below of described body is provided with base, and described base is provided with sidewall, and described sidewall encloses formation groove, and the bottom of described body is established in a groove.
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CN105461168A (en) * | 2015-12-08 | 2016-04-06 | 浙江华庆元生物科技有限公司 | Efficient microbiological treatment integrated machine |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN105461168A (en) * | 2015-12-08 | 2016-04-06 | 浙江华庆元生物科技有限公司 | Efficient microbiological treatment integrated machine |
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