CN205068479U - Municipal sewage treatment system based on big data management technique - Google Patents

Abstract

The utility model discloses a municipal sewage treatment system based on big data management technique, it constructs to reach the sewage processor who is connected with big data management system including big data management system, be provided with data acquisition and pretreatment systems, data cleaning system, data storae system, database server and man -machine interface in the big data management system, big data management system connects data acquisition and pretreatment systems, data acquisition and pretreatment systems are connected the data cleaning system, data cleaning headtotail data storae system, data storae system connects database server, database server connects man -machine interface, gather the parameter information of each technology link of sewage treatment in -process to form big data basis with this, be basic architectural design for realizing the wastewater treatment process parameter sharing of many ground, and can adopt big data management mode, and combine current water quality sewage and process flow, form the processing tactics of an optimization.

Description

Based on the urban sewage treatment system of large data management technique

Technical field

The utility model relates to the technical field such as wastewater treatment, large data, specifically, is the urban sewage treatment system based on large data management technique.

Background technology

Wastewater treatment (sewagetreatment, wastewatertreatment): the process reaching a certain water body of draining or the water quality requirement that reuses for making sewage it is purified.

Preliminary sedimentation tank can remove in waste water can hypostasis and floating thing, waste water is after just sinking, about can remove can 50% of hypostasis, grease and floating thing, 20% of BOD, by removing unit mass BOD or solids calculating, preliminary sedimentation tank is the purifying step of saving the most economically, all easily adopts preliminary sedimentation tank pre-service for sanitary sewage and the higher industrial sewage of suspension.

Main Function:

(1) removing can hypostasis and floating thing, alleviates the load of subsequent treatment facility.

(2) make tiny solid flocculate into larger particle, enhance solid-liquid separation effect.

(3) to colloidal material, there is certain Adsorption effect.

(4) to a certain extent, preliminary sedimentation tank can play the effect of regulating reservoir, plays homogenizing effect to a certain extent to water quality.Slow down the impact of change of water quality to subsequent biochemical system.

(5) some waste water treatment process system is by part second pond sludge reflux to preliminary sedimentation tank, plays the biological flocculation of second pond mud, adsorbable more dissolubility and colloidal organic substrate, improves the removal efficiency of preliminary sedimentation tank.

(6) also iron content coagulant can be added before preliminary sedimentation tank, reinforced phosphor-removing effect.After the Sludge from primary sedimentation tank of iron content enters sludge digestion system, also can improve the activity of methane-producing bacteria, reduce the content of sulfuration in biogas, thus both can increase biogas output, biogas desulfurization cost can be saved again.

Affect the factor that preliminary sedimentation tank runs:

(1) surface loading: surface loading increases, and can affect effective sedimentation of suspension, the clearance of suspension is declined, and hydraulic loading rate is generally got 0.6 ~ 1.2m3/ (m2h) and is advisable.

(2) wastewater property:

Freshness: after fresh settlement of sewage, clearance is higher, waste water freshness depends on again the length, pumping plant progression etc. of sewer line, and the high-concentration industrial-water of anoxic is easy to putrid and deteriorated in addition.

Solids particles size, shape and density: when the solids grain in waste water is large, regular shape, relative density are large, sedimentation is very fast.

Temperature wastewater temperature reduces, suspension viscosity increases in water, such as suspension 27 DEG C time than 10 DEG C time sedimentation fast 50%.But water temperature height also can accelerate corruption, the anaerobic fermentation of sewage, the density difference of fluid reduces, and is unfavorable for that particle sinks, thus reduces the settling property of suspension.

(3) operation factors: the operation conditions of preceding working procedure as grille well or settling pit directly can affect the operation of preliminary sedimentation tank.If preceding working procedure runs the load that bad meeting increases the weight of preliminary sedimentation tank, and reduces removal effect.

(4) enter in the disposal system of preliminary sedimentation tank in the digested sludge of second pond mud and sludge digestion tank, should be specifically noted that and mud evenly, is stably entered.Must guard against gap, impact type adds, otherwise can make preliminary sedimentation tank overload operation, corruption amount of sludge also increases greatly, has influence on the removal of solid, and produces harmful effect to environment.

Second pond, namely secondary sedimentation tank (secondarysettlingtank) second pond is the important component part of activated Sludge System, and its effect mainly makes mud be separated, and mixed liquor is clarified, concentrates and returnedactivatedsludge.Its working effect directly can affect effluent quality and the returned sluge concentration of activated Sludge System.

Large data (bigdata), refer to and in the time range that can bear, cannot carry out catch, manage and process data acquisition with conventional software instrument.

In " large data age " that Victor mayer-Schoenberg and Kenneth Cook are write, large data refer to without the such shortcut of random analysis method (sample survey), and adopt all data analysis process.The 4V feature of large data: Volume(is a large amount of), Velocity(at a high speed), Variety(is various), Value(is worth).

Such definition is given for " large data " (Bigdata) research institution Gartner." large data " need new tupe just can have stronger decision edge, the magnanimity seeing clearly discovery power and process optimization ability, high growth rate and diversified information assets.

The strategic importance of large data technique does not lie in grasps huge data message, and is to carry out specialization process to these containing significant data.In other words, if large data are compared to a kind of industry, so this industry realizes the key of profit, is to improve " working ability " to data, is realized " increment " of data by " processing ".

Technically, large data are inseparable just as the pros and cons of one piece of coin with the relation of cloud computing.Large data must process with the computing machine of separate unit, must adopt distributed structure/architecture.Its characteristic is to carry out distributed data digging to mass data, but it must rely on, and the distributed treatment of cloud computing, distributed data base and cloud store, Intel Virtualization Technology.

Along with the arriving in cloud epoch, large data (Bigdata) have also attracted increasing concern.The analyst team of " work The Cloud Terrace " is thought, large data (Bigdata) are commonly used to a large amount of unstructured data and the semi-structured data that describe company's creation, and these data can overspending time and money when downloading to relevant database for analyzing.Normal and the cloud computing of large data analysis is linked together, because the real-time framework of large data set analysis needs as MapReduce shares out the work to tens of, hundreds of or even thousands of computers.

Large data need special technology, effectively to process the data in a large amount of tolerance elapsed time.Be applicable to the technology of large data, comprise massively parallel processing (MPP) database, data mining electrical network, distributed file system, distributed data base, cloud computing platform, internet and extendible storage system.

Utility model content

The purpose of this utility model is to design the urban sewage treatment system based on large data management technique, the parameter information of each process procedure in sewage disposal process is gathered, and form large data basis with this, do architecture design for realizing many ground sewage treatment process parameter sharing; And large Db Management Model can be adopted, in conjunction with current sewage quality and technological process, form a kind of processing policy of optimization, and the processing policy enabling this optimization carries out wastewater treatment, obtains optimized wastewater treatment efficiency.

The utility model is achieved through the following technical solutions: based on the urban sewage treatment system of large data management technique, the sewage treatment mechanism comprising large data management system and be connected with large data management system, data acquisition and pretreatment system is provided with in described large data management system, Data clean system, data-storage system, database server and human-computer interaction interface, described large data management system connection data gathers and pretreatment system, described data acquisition and pretreatment system connection data purging system, described Data clean system connection data storage system, described data-storage system connection data storehouse server, described database server connects human-computer interaction interface.

Further for better to realize the utility model, can by artificial the regulating the technological parameter of wastewater treatment links or arrange of the form of man-machine interaction, and can show in real time, so that technician visually can know treatment effect now, be provided with following structure especially: described human-computer interaction interface also connects sewage treatment mechanism.

Further for better to realize the utility model, technician gathers for the current process parameter information of required special understanding, so that for technician manually changes current process parameter, reach and form a kind of artificial optimization process strategy, be provided with following structure especially: described human-computer interaction interface is connection data collection and pretreatment system also.

Further for better to realize the utility model, be provided with following structure especially: in described sewage treatment mechanism, be provided with septic tank, mechanical grille canal, preliminary sedimentation tank and microbial decomposition pond, described septic tank connects mechanical grille canal, described mechanical grille canal connects preliminary sedimentation tank, described preliminary sedimentation tank connects microbial decomposition pond, and described data acquisition and the data acquisition unit in pretreatment system are connected septic tank, mechanical grille canal, preliminary sedimentation tank and microbial decomposition pond respectively.

Further for better to realize the utility model, be provided with following structure especially: also comprise fermenting cellar and biological compost system, described fermenting cellar connects microbial decomposition pond and biological compost system respectively, and described data acquisition is connected with fermenting cellar and biological compost system respectively with the data acquisition unit in pretreatment system.

Further for better to realize the utility model, be provided with following structure especially: in described biological compost system, be provided with fine fack passage, collected manure room, movement system, described movement system connects collected manure room, described collected manure room connects fine fack passage, described fine fack expanding channels fermenting cellar, described data acquisition and the data acquisition unit in pretreatment system are connected with fine fack passage, room of collecting manure, movement system respectively.

Further for better to realize the utility model, be provided with following structure especially: in described biological compost system, be also provided with microbial proliferation room and aerator, described microbial proliferation room and aerator are all connected with collected manure room, and described data acquisition is connected with microbial proliferation room and aerator respectively with the data acquisition unit in pretreatment system.

Further for better to realize the utility model, large data model can be set up, to provide data basis for forming optimum wastewater treatment strategy, be provided with following structure especially: store many ground different qualities in the database in described database server or/and the different sewage treatment process of identical water quality is or/and the Parameter data information of identical sewage treatment process and wastewater treatment policy information.

The utility model compared with prior art, has the following advantages and beneficial effect:

The parameter information of each process procedure in sewage disposal process gathers by the utility model, and forms large data basis with this, does architecture design for realizing many ground sewage treatment process parameter sharing; And large Db Management Model can be adopted, in conjunction with current sewage quality and technological process, form a kind of processing policy of optimization, and the processing policy enabling this optimization carries out wastewater treatment, obtains optimized wastewater treatment efficiency.

The utility model the utility model can collect many kinds of parameters information and each process section process parameter information such as chemical composition content information in solid waste content parameter information in such as sewage, BOD content parameter information, fat content parameter information, microbial proliferation rate information, change of water quality information, water, data basis is provided, so that the optimum that can carry out strategy is formulated for setting up large data.

The utility model has scientific and reasonable, advanced design, treatment effeciency high.

The utility model and by biological compost technology, the mud produced in sewage disposal process can be carried out recycling, reaches the object of energy-conserving and environment-protective.

Accompanying drawing explanation

Fig. 1 is the utility model structural representation.

Fig. 2 is sewage treatment mechanism structural representation described in the utility model.

Embodiment

Below in conjunction with embodiment, the utility model is described in further detail, but embodiment of the present utility model is not limited thereto.

Embodiment 1:

Based on the urban sewage treatment system of large data management technique, the parameter information of each process procedure in sewage disposal process being gathered, and form large data basis with this, doing architecture design for realizing many ground sewage treatment process parameter sharing, and large Db Management Model can be adopted, in conjunction with current sewage quality and technological process, form a kind of processing policy of optimization, and the processing policy enabling this optimization carries out wastewater treatment, obtain optimized wastewater treatment efficiency, as Fig. 1, shown in Fig. 2, be arranged to following structure especially: the sewage treatment mechanism comprising large data management system and be connected with large data management system, data acquisition and pretreatment system is provided with in described large data management system, Data clean system, data-storage system, database server and human-computer interaction interface, described large data management system connection data gathers and pretreatment system, described data acquisition and pretreatment system connection data purging system, described Data clean system connection data storage system, described data-storage system connection data storehouse server, described database server connects human-computer interaction interface.

Described data acquisition and pretreatment system comprise the data acquisition unit for carrying out data acquisition and carry out pretreated pretreatment system equipment to gathered data, can be real-time the many kinds of parameters information such as chemical composition content information are being carried out in solid waste content parameter information in the such as sewage in sewage disposal process, BOD content parameter information, fat content parameter information, microbial proliferation rate information, change of water quality information, water and each process section process parameter information carries out collection and pre-service to sewage treatment mechanism.

Described Data clean system will in pretreated such as sewage in solid waste content parameter information, BOD content parameter information, fat content parameter information, microbial proliferation rate information, change of water quality information, water the many kinds of parameters information such as chemical composition content information and each process section process parameter information carry out data cleansing, abandon inner that repeat, useless information; Then this type of information is transported in data-storage system and stores, and call in database server the basic data and sewage water treatment method strategy that form large data simultaneously.

Described human-computer interaction interface can carry out real-time query to the data message in database server, and sets up wastewater treatment strategy protocol, in order to being applied in the wastewater treatment link of different water quality or technique.

Embodiment 2:

The present embodiment is at the enterprising one-step optimization in the basis of above-described embodiment, further for better to realize the utility model, can by artificial the regulating the technological parameter of wastewater treatment links or arrange of the form of man-machine interaction, and can show in real time, so that technician visually can know treatment effect now, as shown in Figure 1 and Figure 2, following structure is provided with especially: described human-computer interaction interface also connects sewage treatment mechanism.

Embodiment 3:

The present embodiment is at the enterprising one-step optimization in the basis of above-mentioned any embodiment, further for better to realize the utility model, technician gathers for the current process parameter information of required special understanding, so that for technician manually changes current process parameter, reach and form a kind of artificial optimization process strategy, as shown in Figure 1 and Figure 2, following structure is provided with especially: described human-computer interaction interface is connection data collection and pretreatment system also.

Embodiment 4:

The present embodiment is at the enterprising one-step optimization in the basis of above-mentioned any embodiment, further for better to realize the utility model, as shown in Figure 1 and Figure 2, be provided with following structure especially: in described sewage treatment mechanism, be provided with septic tank, mechanical grille canal, preliminary sedimentation tank and microbial decomposition pond, described septic tank connects mechanical grille canal, described mechanical grille canal connects preliminary sedimentation tank, described preliminary sedimentation tank connects microbial decomposition pond, and described data acquisition and the data acquisition unit in pretreatment system are connected septic tank, mechanical grille canal, preliminary sedimentation tank and microbial decomposition pond respectively.

Municipal effluent will be imported in septic tank and carry out lattice precipitation, and anaerobic digestion is carried out to mud, then by just heavy by carrying out in mechanical grille canal input preliminary sedimentation tank by the sewage after septic tank process, removal can hypostasis, grease, floating thing and BOD, then the sewage after just heavy process is carried out microbial decomposition by microbial decomposition pond and the water body after microbial decomposition process is discharged, in whole septic tank process, mechanical grille canal is carried, preliminary sedimentation tank just sinks, data acquisition and pretreatment system all will be utilized technological parameter in the process that microbial decomposition pond is decomposed, the informations such as treatment effect, to do basic data support for forming large data.

The conditioning equipment of described human-computer interaction interface respectively in same septic tank, mechanical grille canal, preliminary sedimentation tank and microbial decomposition pond connects, what utilize that human-computer interaction interface can be artificial controls the conditioning equipment in septic tank, mechanical grille canal, preliminary sedimentation tank and microbial decomposition pond, to change the variable information such as technological parameter, make wastewater treatment can reach optimal effectiveness as much as possible.

Embodiment 5:

The present embodiment is at the enterprising one-step optimization in the basis of above-described embodiment, further for better to realize the utility model, as shown in Figure 1 and Figure 2, be provided with following structure especially: also comprise fermenting cellar and biological compost system, described fermenting cellar connects microbial decomposition pond and biological compost system respectively, and described data acquisition is connected with fermenting cellar and biological compost system respectively with the data acquisition unit in pretreatment system.

The mud left in microbial decomposition pond will be transported in fermenting cellar and carry out anaerobism or aerobic fermentation, and the mud after fermentation will be transported in biological compost system and carry out biological compost process, thus reach the object of recycling sludge utilization.

Described human-computer interaction interface is connected with the adjustment of fermenting cellar and biological compost system, facilities for observation respectively, the adjustment to fermenting cellar and biological compost system utilizing that human-computer interaction interface can be artificial, facilities for observation control, to change the variable information such as technological parameter, make sludge composting process can reach optimal effectiveness as much as possible.

Described data acquisition and pretreatment system gather the technological parameter information, treatment effect information etc. of fermenting cellar and biological compost system simultaneously, to form large Data Data basis.

Embodiment 6:

The present embodiment is at the enterprising one-step optimization in the basis of above-described embodiment, further for better to realize the utility model, as shown in Figure 1 and Figure 2, be provided with following structure especially: in described biological compost system, be provided with fine fack passage, collected manure room, movement system, described movement system connects collected manure room, described collected manure room connects fine fack passage, described fine fack expanding channels fermenting cellar, described data acquisition and the data acquisition unit in pretreatment system are connected with fine fack passage, room of collecting manure, movement system respectively.

Mud after fermentation carries out biology collected manure by utilizing fine fack passage to be transported to collected manure indoor, and the fertilizer of having collected manure is transported away utilizing movement system, in order to carrying out the recycling of fertilizer.

Described data acquisition and pretreatment system are by the operational data of Real-time Collection fine fack passage, collect manure room, movement system, so that it is basic to form large Data Data.

Described human-computer interaction interface is connected with the conditioning equipment of fine fack passage, room of collecting manure, movement system respectively.

Embodiment 7:

The present embodiment is at the enterprising one-step optimization in the basis of above-described embodiment, further for better to realize the utility model, as shown in Figure 1 and Figure 2, be provided with following structure especially: in described biological compost system, be also provided with microbial proliferation room and aerator, described microbial proliferation room and aerator are all connected with collected manure room, described data acquisition is connected with microbial proliferation room and aerator respectively with the data acquisition unit in pretreatment system, and described human-computer interaction interface is connected with aerator with the adjustment structure of microbial proliferation room respectively.

Embodiment 8:

The present embodiment is at the enterprising one-step optimization in the basis of above-mentioned any embodiment, further for better to realize the utility model, large data model can be set up, to provide data basis for forming optimum wastewater treatment strategy, be provided with following structure especially: store many ground different qualities in the database in described database server or/and the different sewage treatment process of identical water quality is or/and the Parameter data information of identical sewage treatment process and wastewater treatment policy information.

The above; it is only preferred embodiment of the present utility model; not do any pro forma restriction to the utility model, every any simple modification, equivalent variations done above embodiment according to technical spirit of the present utility model, all falls within protection domain of the present utility model.

Claims (8)

1. based on the urban sewage treatment system of large data management technique, it is characterized in that: the sewage treatment mechanism comprising large data management system and be connected with large data management system, data acquisition and pretreatment system is provided with in described large data management system, Data clean system, data-storage system, database server and human-computer interaction interface, described large data management system connection data gathers and pretreatment system, described data acquisition and pretreatment system connection data purging system, described Data clean system connection data storage system, described data-storage system connection data storehouse server, described database server connects human-computer interaction interface.

2. the urban sewage treatment system based on large data management technique according to claim 1, is characterized in that: described human-computer interaction interface also connects sewage treatment mechanism.

3. the urban sewage treatment system based on large data management technique according to claim 1 and 2, is characterized in that: described human-computer interaction interface is connection data collection and pretreatment system also.

4. the urban sewage treatment system based on large data management technique according to claim 2, it is characterized in that: in described sewage treatment mechanism, be provided with septic tank, mechanical grille canal, preliminary sedimentation tank and microbial decomposition pond, described septic tank connects mechanical grille canal, described mechanical grille canal connects preliminary sedimentation tank, described preliminary sedimentation tank connects microbial decomposition pond, and described data acquisition and the data acquisition unit in pretreatment system are connected septic tank, mechanical grille canal, preliminary sedimentation tank and microbial decomposition pond respectively.

5. the urban sewage treatment system based on large data management technique according to claim 4, it is characterized in that: also comprise fermenting cellar and biological compost system, described fermenting cellar connects microbial decomposition pond and biological compost system respectively, and described data acquisition is connected with fermenting cellar and biological compost system respectively with the data acquisition unit in pretreatment system.

6. the urban sewage treatment system based on large data management technique according to claim 5, it is characterized in that: in described biological compost system, be provided with fine fack passage, collected manure room, movement system, described movement system connects collected manure room, described collected manure room connects fine fack passage, described fine fack expanding channels fermenting cellar, described data acquisition and the data acquisition unit in pretreatment system are connected with fine fack passage, room of collecting manure, movement system respectively.

7. the urban sewage treatment system based on large data management technique according to claim 6, it is characterized in that: in described biological compost system, be also provided with microbial proliferation room and aerator, described microbial proliferation room and aerator are all connected with collected manure room, and described data acquisition is connected with microbial proliferation room and aerator respectively with the data acquisition unit in pretreatment system.

8. the urban sewage treatment system based on large data management technique according to claim 1 or 2 or 4 or 5 or 6 or 7, is characterized in that: store many ground different qualities in the database in described database server or/and the different sewage treatment process of identical water quality is or/and the Parameter data information of identical sewage treatment process and wastewater treatment policy information.