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A method based on pulse aeration to strengthen sewage nitrogen and phosphorus removal and energy saving and consumption reduction

A technology for nitrogen and phosphorus removal and aeration, applied in chemical instruments and methods, multi-stage water/sewage treatment, water/sludge/sewage treatment, etc. Nitrogen efficiency and other issues to achieve the effect of strengthening the efficiency of nitrogen and phosphorus removal and reducing operating energy consumption

Active Publication Date: 2017-08-25
KUNMING DIANCHI WATER TREATMENT CO LTD
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Problems solved by technology

Continue to increase the reflux ratio, the total nitrogen removal rate will not increase significantly, and the dissolved oxygen from the aerobic tank into the anoxic tank will increase, thereby consuming the organic carbon source in the influent and affecting the efficiency of denitrification and denitrification
[0004] At present, pulse aeration is mainly used to control membrane fouling in membrane bioreactors, and there are no studies and reports on aeration control in sewage treatment plants.

Method used

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  • A method based on pulse aeration to strengthen sewage nitrogen and phosphorus removal and energy saving and consumption reduction
  • A method based on pulse aeration to strengthen sewage nitrogen and phosphorus removal and energy saving and consumption reduction

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Embodiment 1

[0015] Such as figure 1 Shown, sewage treatment method of the present invention mainly is made up of anaerobic / anoxic / aerobic / precipitation stage, or is made up of anoxic / anaerobic / aerobic / precipitation stage; Through pretreated sewage flow into anaerobic zone, gather Phosphorus bacteria, etc. utilize small molecular carbon source substances and store them as cohesive polymers, and mainly undergo biochemical processes such as releasing phosphorus. The effluent from the anaerobic zone sequentially enters the anoxic zone for denitrification, then enters the pulse aeration aerobic zone for nitrification and phosphorus uptake, and finally the sewage mixture flows into the sedimentation zone. After sedimentation, the supernatant is discharged from the treatment system to the natural water body; after sedimentation, part of the sludge is returned to the anaerobic zone, so that the sludge undergoes an anaerobic-anoxic-aerobic alternating process to complete the removal of various pol...

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Abstract

The invention is a method based on pulse aeration to strengthen the denitrification and dephosphorization of sewage and to save energy and reduce consumption. On the basis of the traditional A2O process, the different corridors or areas of the aerobic zone are divided into partitions, and the aeration system is controlled by the central control system of the sewage treatment plant to control the fans, pipelines and air valves of the aeration system, and pulse aeration is performed on the aerobic zone. so that one area in the aerobic zone is always in a state of low dissolved oxygen, DO<0.5mg / L, while other areas are in a state of high dissolved oxygen DO2‑3mg / L with normal aeration, and different areas in the aerobic zone are alternately in low Dissolved oxygen state, the time each area is in a low dissolved oxygen state within a cycle is t / n, t is the hydraulic retention time in the aerobic area, n is the number of corridors or areas in the aerobic area, and the pulse period is the hydraulic retention time in the aerobic area. Residence time, after intermittent pulse aeration in the aerobic zone, an alternate anoxic and aerobic environment can be realized, denitrification can be strengthened, and the sewage treatment effect and water quality can be improved.

Description

technical field [0001] The invention relates to the technical field of sewage treatment, in particular to a method for strengthening sewage denitrification and dephosphorization and energy saving and consumption reduction based on pulse aeration. Background technique [0002] Nitrogen and phosphorus in discharged sewage are important nutrients that cause eutrophication of water bodies. With the increasingly serious problem of eutrophication in my country's water bodies and the implementation of the new "Pollutant Discharge Standards for Urban Sewage Plants" (GB18918-2002), the development of economical, efficient and stable sewage nitrogen and phosphorus removal technologies has become an urgent need in the field of water treatment. Technical requirements. At the same time, the high energy consumption of sewage treatment plants is the main source of investment costs for their operation; aeration and oxygen supply are the main consumers of energy consumption, so reducing the ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C02F9/14
Inventor 郭玉梅吴毅晖郭昉吴光学周平潘国强林阳杜吉灿李志平
Owner KUNMING DIANCHI WATER TREATMENT CO LTD
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