CN205710068U - A kind of MBR membrane cisterna aeration energy-saving control system - Google Patents

Abstract

A kind of MBR membrane cisterna aeration energy-saving control system that this utility model provides, including MBR pond and the MBR film being arranged in MBR pond, this system also includes that PLC regulates control centre, distribution center, aerator, high aerating regulation valve, low aerating regulation valve, mass air flow sensor and pressure transmitter, and the air blast pipeline of aerator connects the membrane cisterna aerated conduit running through MBR pond；On two arms that described high aerating regulation valve and low aerating regulation valve are separately mounted on membrane cisterna aerated conduit, described mass air flow sensor and pressure transmitter are installed on air blast pipeline and to the current air force of PLC regulation control centre Real-time Feedback and pressure size, and PLC regulation control centre controls aeration rate according to calculating Air Quantity Required size and select the either or both of high aerating regulation valve and low aerating regulation valve to open and regulate aperture simultaneously.

Description

A kind of MBR membrane cisterna aeration energy-saving control system

[technical field]

This utility model relates to sewage disposal system, particularly relates to a kind of MBR membrane cisterna aeration energy-saving and controls system System.

[background technology]

At present, according to " membrane separation process sewage disposal code technical specification " and " integral membrane biological reaction Device sewage disposal application technology code " described in existing MBR system process in sewage, Treated sewage reusing project, Owing to sludge concentration is the highest, the viscosity of mud mixed liquid is caused to steeply rise, and the rising of viscosity, result in The drastically decline of membrane flux so that membrane pollution problem often occurs in MBR film, thus needs frequent clean Membrane module, causes that membrane module service life is short, operating cost is high, uses aerator to provide aeration and film simultaneously Source of purge gas.

In membrane aerated bioreactor, film is used for gaseous mass transmission, it is common that for aerobic process oxygen supply, The bubble-free aeration of bioreactor can be realized, be greatly improved the oxygen transfer efficiency of reactor.But in actual production Shi Faxian membranous system needs persistently to carry out aeration when processing sewage, and aeration blower power is very big, and power frequency is entered During row work, power consumption is relatively big, also electrical network can be produced greater impact.Cause system energy consumption higher, thus enter One step improves operating cost, i.e. wastes unnecessary production cost, does not meets the principle of energy-saving and emission-reduction.

[utility model content]

This utility model provides a kind of compact conformation, easy to control, and automaticity is high, it is possible to effectively save The MBR membrane cisterna aeration energy-saving control system of energy consumption.

In order to realize above-mentioned utility model purpose, the technical solution adopted in the utility model is:

A kind of MBR membrane cisterna aeration energy-saving control system, including MBR pond be arranged in MBR pond MBR film, this system also includes that PLC regulates control centre, distribution center, aerator, high aerating regulation Valve, low aerating regulation valve, mass air flow sensor and pressure transmitter, the air blast pipeline of aerator connects to have and runs through The membrane cisterna aerated conduit in MBR pond；Described high aerating regulation valve and low aerating regulation valve are separately mounted to membrane cisterna On two arms on aerated conduit, described mass air flow sensor and pressure transmitter are installed on air blast pipeline also The current air force of control centre's Real-time Feedback and pressure size is regulated, during PLC regulation controls to PLC The heart is same according to the either or both calculating the Air Quantity Required size high aerating regulation valve of selection and low aerating regulation valve Shi Kaiqi also regulates aperture to control aeration rate.

Preferably, described membrane cisterna aerated conduit is arranged at bottom MBR pond.

Preferably, the end pipeline of described membrane cisterna aerated conduit is arranged at intervals with some high velocity projectors.

The beneficial effects of the utility model are:

MBR membrane cisterna aeration energy-saving control system of the present utility model, first passes through PLC and regulates control centre The PID intelligent control program of indoor design, can feed back current membrane cisterna aeration air quantity according to mass air flow sensor automatic Enable high and low aerating regulation valve, and controlling opening of valve, regulate the operating frequency of aeration blower simultaneously To reach energy-conservation effect；Secondly, PLC control system can record blower output, frequency and exposure The historical datas such as air valve aperture, opening, make warning and facilitate user monitoring analysis, remind user and Time more exchange device；It addition, the multiple-factor algorithm routine within PLC control system, can set according to user Aeration air quantity, meets in guarantee and farthest saves energy consumption under aeration effect premise, and average energy-saving effect reaches To 20%.

[accompanying drawing explanation]

Fig. 1 is schematic diagram of the present utility model.

[detailed description of the invention]

A kind of MBR membrane cisterna aeration energy-saving control system, as it is shown in figure 1, include MBR pond 1 and arrange MBR film 2 in MBR pond, this system also includes that PLC regulates control centre's (not shown), joins Electrfic centre (not shown), aerator 3, high aerating regulation valve 4, low aerating regulation valve 5, air mass flow Meter 6 and pressure transmitter 7, the air blast pipeline of aerator connects the membrane cisterna aerated conduit 8 running through MBR pond； Be separately mounted on membrane cisterna aerated conduit 8 two, described high aerating regulation valve 4 and low aerating regulation valve 5 Guan Shang, described mass air flow sensor 6 and pressure transmitter 7 are installed on air blast pipeline and to PLC regulation control Air force that center processed Real-time Feedback is current and pressure size, PLC regulation control centre is required according to calculating The one of the air force high aerating regulation valve 4 of selection and low aerating regulation valve 5 is opened and is regulated aperture and controls Aeration rate.

Continue as it is shown in figure 1, membrane cisterna aerated conduit 8 is arranged on bottom MBR pond 1, and at membrane cisterna aeration Some high velocity projectors 9 it are arranged at intervals with on the end pipeline of pipeline.

During use, regulated the PID intelligent control program of control centre's indoor design by PLC, can basis Mass air flow sensor is fed back current membrane cisterna aeration air quantity and is automatically enabled high and low aerating regulation valve, and control valve Aperture, regulates the operating frequency of aeration blower to reach energy-conservation effect simultaneously；Secondly, PLC regulates control The PLC control system at center processed can record blower output, frequency and aeration valve opening, open Open the historical datas such as state, make warning and facilitate user monitoring analysis, remind user's more exchange device in time；Separately Outward, the multiple-factor algorithm routine within PLC control system, the aeration air quantity that can set according to user, protecting Card meets farthest saves energy consumption under aeration effect premise, average energy-saving effect reaches 20%.

Embodiment described above is simply preferred embodiment of the present utility model, not limits this practicality with this new The practical range of type, except in the case of enumerating in specific embodiment；All shapes according to this utility model, structure Make and principle is made equivalence change, all should be covered by protection domain of the present utility model.

Claims (3)

1. a MBR membrane cisterna aeration energy-saving control system, including MBR pond and being arranged in MBR pond MBR film, it is characterised in that:

This system also includes PLC regulation control centre, distribution center, aerator, high aerating regulation valve, low Aerating regulation valve, mass air flow sensor and pressure transmitter, the air blast pipeline of aerator connects to have and runs through MBR pond Membrane cisterna aerated conduit；

Two arms that described high aerating regulation valve and low aerating regulation valve are separately mounted on membrane cisterna aerated conduit On, described mass air flow sensor and pressure transmitter are installed on air blast pipeline and regulate control centre in fact to PLC Time feed back current air force and pressure size, PLC regulation control centre is according to calculating Air Quantity Required size The either or both selecting high aerating regulation valve and low aerating regulation valve is opened simultaneously and is regulated aperture and controls to expose Tolerance.

A kind of MBR membrane cisterna aeration energy-saving control system the most according to claim 1, it is characterised in that Described membrane cisterna aerated conduit is arranged at bottom MBR pond.

A kind of MBR membrane cisterna aeration energy-saving control system the most according to claim 1 and 2, its feature exists In, the end pipeline of described membrane cisterna aerated conduit is arranged at intervals with some high velocity projectors.