CN203715379U - Intramembrane yeast phosphorus removal device - Google Patents

Abstract

The utility model discloses an intramembrane yeast phosphorus removal device comprising a gas circuit, a reactor, a water inlet pipe and a water outlet pipe, wherein the top of the reactor is opened, the inner wall and bottom of the reactor are provided with filtering membranes, and the bottom of the reactor is provided with the water outlet pipe; a liquid outlet of the water inlet pipe for supplying phosphorus wastewater to the reactor is lower than the highest position of the filtering membrane on the inner wall of the reactor; the gas circuit comprises an air inlet pipe and an aeration tray which are connected with each other, wherein the aeration tray is arranged above the filtering membrane at the bottom inside the reactor, and the upper end of the air inlet pipe extends out of the reactor and the filtering membranes. The device is small in floor area, easy to maintain and manage, simple and convenient in operation and low in cost; in addition, the treatment time is controlled according to the condition of TP (total phosphorus) in wastewater, so that the removal rate of TP in the treated wastewater can be up to 80%.

Description

Yeast dephosphorization apparatus in film

Technical field

The utility model relates to a kind of dephosphorization apparatus, is specifically related to yeast dephosphorization apparatus in a kind of film and utilizes the method for this device processes phosphorus-containing wastewater, belongs to environmental protection equipment technical field.

Background technology

Phosphorus is one of essential substance causing body eutrophication, along with the exploitation of the mankind to environmental resources, a large amount of phosphorus-containing wastewaters is discharged among rivers and lakes, aggravate the eutrophication of water body, due to the enrichment of phosphorus nutrition material in water body, cause algae and other planktonic rapid breedings, Dissolved Oxygen in Water content is declined, cause algae, planktonic organism, plant, aquatic organism and the even contamination phenomenon of disappearance of fish decline.At present the biological treatment of phosphorus-containing wastewater is mainly to A/O method or A ²/ O method, this technique is comparatively ripe, can meet the dephosphorization requirement of common engineering.But this technique need to have huge internal reflux system (comprising sludge reflux, mixed-liquor return), and independent secondary sedimentation basins need to be set, floor space is larger, therefore more complicated in operational management, still have some deficits, and cost is higher in energy consumption with on to the adaptability of water quality, the water yield.Therefore, need a kind of new phosphor-containing waste water treating device.

Utility model content

The purpose of this utility model is to provide yeast dephosphorization apparatus in a kind of film, and this plant area area is little, easy care management, easy and simple to handle, with low cost, and according to the waste water TP situation control treatment time, processed waste water TP clearance can reach 80%.

The purpose of this utility model is achieved through the following technical solutions, and yeast dephosphorization apparatus in a kind of film, comprises gas circuit, reactor, water inlet pipe, rising pipe; Reactor head opening, reactor wall and bottom are provided with filtering membrane, and reactor bottom sets out water pipe; For provide the liquid outlet of water inlet pipe of phosphorus-containing wastewater lower than the extreme higher position of the filtering membrane on reactor wall to reactor; Gas circuit comprises interconnective inlet pipe and aeration plate, and aeration plate is arranged on reactor inner bottom part filtering membrane top, and stretch out outside reactor and filtering membrane inlet pipe upper end.

Further, described inlet pipe is plastic hose.

Further, described aeration plate is discoid or square plate shape, and aeration plate is provided with outlet nozzle, and outlet nozzle is inserted in tracheae lower end, and the production well of aeration plate is nano level.

Further, described reactor is circular or square.

Further, described water inlet pipe is provided with control valve, and control valve is electronic control valve or manually operated control valve.

Further, described rising pipe is provided with control valve, and control valve is electronic control valve or manually operated control valve.

Further, described filtering membrane precision is 1-2 μ m, and filtering membrane material is nylon or plastics, and the height of filtering membrane is greater than or equal to height for reactor.

The method of utilizing yeast dephosphorization apparatus Removal of Phosphorus in Wastewater in above-mentioned film, comprises the following steps:

(1) cultured yeast liquid is poured in the filtering membrane in reactor, and filtering membrane is trapped in yeast in filtering membrane, and nutrient solution, by outside filtering membrane, rising pipe outflow reactor, is closed rising pipe after nutrient solution is drained;

(2) flowing into pending phosphorus-containing wastewater from water inlet pipe enters in the filtering membrane reactor, pass into air by inlet pipe, aeration plate and make yeast generation aerobic reaction, reaction times 4-12 h, reaction finishes rear unlatching rising pipe, waste water after treatment is discharged outside reactor via filtering membrane, rising pipe, yeast is still trapped in filtering membrane, carries out the treatment of Phosphorus Containing Waste Water of a new round.

Further, described yeast aerobic reaction carries out bacterial sediment after 4-12 hour, and thalline precipitates in filtering membrane, and waste water after treatment is realized the solid-liquid separation of thalline and liquid by filtering membrane.

Compared with prior art, the utlity model has following beneficial effect:

The first, this plant area area is little, easy care management, easy and simple to handle, with low cost;

The second, the phosphorus of the utility model in not only can steady removal waste water, can also remove organism and heavy metal in waste water, has less energy-consumption, advantage cheaply; Through its TP(total phosphorous of the utility model waste water after treatment) clearance can reach 80%;

The 3rd, the utility model is reasonable in design, and whole process only needs yeast aerobic treatment, without anaerobism link, only needs a bio-reactor, and floor space is little, is easy to maintenance management;

The 4th, present method is to water quality TP wide adaptability, and entering water TP is 16-80 mg/L, and processed waste water TP can drop to below 8 mg/L, reaches CJ343-2010 " People's Republic of China's city-building industry standard " B grade standard.

Brief description of the drawings

Fig. 1 is the structural representation of yeast dephosphorization apparatus in the utility model film;

In figure: 1 inlet pipe, 2 aeration plates, 3 reactors, 4 filtering membranes, 5 yeast, 6 water inlet pipes, 7 rising pipes.

Embodiment

Below in conjunction with embodiment, the utility model is described in further detail.

As shown in Figure 1, in film, yeast dephosphorization apparatus comprises inlet pipe 1, aeration plate 2, reactor 3, filtering membrane 4, yeast 5, water inlet pipe 6, rising pipe 7.The outlet nozzle place composition gas circuit that inlet pipe 1 is connected in to aeration plate 2, is arranged in filtering membrane 4 bottommosts by gas circuit, more adherent filtering membrane 4, the subsides end are placed in reactor 3.Reactor 3 open tops, reactor bottom sets out water pipe.Water inlet pipe 6 is for providing phosphorus-containing wastewater to reactor.The liquid outlet of water inlet pipe 6 is lower than the extreme higher position of the filtering membrane 4 on reactor 3 inwalls, and the water side of water inlet pipe, in filtering membrane film mouth coverage, makes water side water outlet directly enter filtering membrane.

Inlet pipe 1 is plastic hose.

Aeration plate 2 is any suitable shapes such as discoid, square plate shape, and the production well of aeration plate 2 is nano level, and aeration plate 2 is provided with outlet nozzle, and outlet nozzle is inserted in tracheae 1 lower end.

Reactor 3 is any shape and structure that is adapted to biological respinse such as circular, square.

Water inlet pipe 6 is provided with control valve, makes to be subject to valve control into water.Control valve can be electronic control valve or manually operated control valve.

Rising pipe 7 is positioned at outside, reactor lower end.Rising pipe 7 is provided with control valve, makes water outlet be subject to valve control.Control valve can be electronic control valve or manually operated control valve.

Filtering membrane 4 precision are 1-2 μ m, and filtering membrane material is any corrosion-resistant materials such as nylon or plastics, and the height of filtering membrane is greater than or equal to height for reactor.

This device workflow is: cultured yeast 5 liquid are poured in filtering membrane 4, filtering membrane 4 is trapped in yeast 5 in film, nutrient solution is by outside filtering membrane 4 outflow reactors 3, now rising pipe 7 is opened condition, after nutrient solution is drained, close rising pipe 7, the phosphorus-containing wastewater that flows into wish processing from water inlet pipe 6 enters in filtering membrane 4, pass into air from gas circuit and make yeast aerobic reaction, after processing 4-12 h, open rising pipe 7, make waste water after treatment discharge reactor 3 by filtering membrane 4, yeast 5 is still trapped in filtering membrane 4, then carries out the wastewater treatment of a new round.

Dephosphorization reaction process is and is only aerobic reaction.

Waste water after treatment can pass through bacterial sediment process, and now thalline only precipitates in filtering membrane, and then water is realized the solid-liquid separation of thalline and liquid by filtering membrane; Also can be without the solid-liquid separation that directly realizes thalline and liquid without thalline precipitation process by filtering membrane.

Embodiment 1:

The outlet nozzle of inlet pipe and aeration plate is connected to form to gas circuit, gas circuit is arranged in to filtering membrane bottommost, again filtering membrane periphery is pasted to reactor wall, bottom is pasted reactor bottom and is placed in reactor, cultured yeast is (as yeast saccharomyces cerevisiae, rhodothece rubra etc.) liquid pours in filtering membrane, filtering membrane is trapped in yeast in film, nutrient solution is by outside filtering membrane outflow reactor, now rising pipe is opened condition, after nutrient solution is emptying, close rising pipe, the waste water that is 16 mg/L from the total nitrogen content (TP) of water inlet pipe inflow wish processing enters in filtering membrane, pass into air, maintain dissolved oxygen (DO) at 2-4 mg/L, after processing 4 h, open rising pipe, make waste water after treatment discharge reactor by filtering membrane, yeast is still trapped in filtering membrane, carry out again the wastewater treatment of a new round.

Embodiment 2:

The outlet nozzle of inlet pipe and aeration plate is connected to form to gas circuit, gas circuit is arranged in to filtering membrane bottommost, again filtering membrane periphery is pasted to reactor wall, bottom is pasted reactor bottom and is placed in reactor, cultured yeast is (as yeast saccharomyces cerevisiae, rhodothece rubra etc.) liquid pours in filtering membrane, filtering membrane is trapped in yeast in film, nutrient solution is by outside filtering membrane outflow reactor, now rising pipe is opened condition, after nutrient solution is emptying, close rising pipe, the waste water that is 50 mg/L from the TP of water inlet pipe inflow wish processing enters in filtering membrane, pass into air, maintain DO at 2-4 mg/L, after processing 6-8 h, open rising pipe, make waste water after treatment discharge reactor by filtering membrane, yeast is still trapped in filtering membrane, carry out again the wastewater treatment of a new round.

Embodiment 3:

The outlet nozzle of inlet pipe and aeration plate is connected to form to gas circuit, gas circuit is arranged in to filtering membrane bottommost, again filtering membrane periphery is pasted to reactor wall, bottom is pasted reactor bottom and is placed in reactor, cultured yeast is (as yeast saccharomyces cerevisiae, rhodothece rubra etc.) liquid pours in filtering membrane, filtering membrane is trapped in yeast in film, nutrient solution is by outside filtering membrane outflow reactor, now rising pipe is opened condition, after nutrient solution is emptying, close rising pipe, the waste water that is 80 mg/L from the TP of water inlet pipe inflow wish processing enters in filtering membrane, pass into air, maintain DO at 2-4 mg/L, after processing 12 h, open rising pipe, make waste water after treatment discharge reactor by filtering membrane, yeast is still trapped in filtering membrane, carry out again the wastewater treatment of a new round.

The utility model advantage:

1. the utility model is reasonable in design, and whole process only needs yeast aerobic treatment, without anaerobism link, only needs a bio-reactor, and floor space is little, is easy to maintenance management.

2. present method is to water quality TP wide adaptability, and entering water TP is 16-80 mg/L, and processed waste water TP can drop to below 8 mg/L, reaches CJ343-2010 " People's Republic of China's city-building industry standard " B grade standard.

3. the utility model is applicable to the processing of multiple phosphorus-containing wastewater.

Claims (7)

1. a yeast dephosphorization apparatus in film, is characterized in that, described device comprises gas circuit, reactor (3), water inlet pipe (6), rising pipe (7); Reactor (3) open top, reactor (3) inwall and bottom are provided with filtering membrane (4), and reactor bottom sets out water pipe; For provide the liquid outlet of water inlet pipe (6) of phosphorus-containing wastewater lower than the extreme higher position of the filtering membrane (4) on reactor (3) inwall to reactor; Gas circuit comprises interconnective inlet pipe (1) and aeration plate (2), and aeration plate (2) is arranged on reactor (3) inner bottom part filtering membrane (4) top, and stretch out outside reactor (3) and filtering membrane (4) inlet pipe (1) upper end.

2. yeast dephosphorization apparatus in film according to claim 1, is characterized in that, described inlet pipe (1) is plastic hose.

3. yeast dephosphorization apparatus in film according to claim 1, it is characterized in that, described aeration plate (2) is discoid or square plate shape, and the production well (2) of aeration plate is nano level, aeration plate (2) is provided with outlet nozzle, and outlet nozzle is inserted in tracheae (1) lower end.

4. yeast dephosphorization apparatus in film according to claim 1, is characterized in that, described reactor (3) is circular or square.

5. yeast dephosphorization apparatus in film according to claim 1, is characterized in that, described water inlet pipe (6) is provided with control valve, and control valve is electronic control valve or manually operated control valve.

6. yeast dephosphorization apparatus in film according to claim 1, is characterized in that, described rising pipe (7) is provided with control valve, and control valve is electronic control valve or manually operated control valve.

7. yeast dephosphorization apparatus in film according to claim 1, is characterized in that, described filtering membrane (4) precision is 1-2 μ m, and filtering membrane material is nylon or plastics, and the height of filtering membrane is greater than or equal to height for reactor.