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Integrated reactor and method for removing ammonia nitrogen and organic matter from drinking water

A technology for organic matter and drinking water, applied in chemical instruments and methods, multi-stage water/sewage treatment, water/sludge/sewage treatment, etc., can solve the problems of high cost of powder activated carbon, complicated management, physical damage to the membrane surface, etc. Achieve the effect of low operating cost, convenient operation and management, and small head loss

Active Publication Date: 2012-02-15
RES CENT FOR ECO ENVIRONMENTAL SCI THE CHINESE ACAD OF SCI
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, this method still has the following defects: when the concentration of colloidal particles or alum flowers in the raw water is high, the sludge in the reactor needs to be discharged, and the powdered activated carbon will inevitably be discharged during the sludge discharge process. It is difficult to effectively control the process operation, and the adaptability to the process operation of the raw water quality with different turbidity is poor, and the management is complicated; the cost of powder activated carbon Higher; powdered activated carbon particles gather on the surface of the membrane, and may cause physical damage to the membrane surface under the condition of membrane negative pressure suction, affecting the life of the membrane filament; once the membrane filament in the membrane module is broken, the powdered activated carbon with microorganisms on the surface can easily penetrate Ultrafiltration barriers and possible water supply accidents

Method used

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  • Integrated reactor and method for removing ammonia nitrogen and organic matter from drinking water
  • Integrated reactor and method for removing ammonia nitrogen and organic matter from drinking water
  • Integrated reactor and method for removing ammonia nitrogen and organic matter from drinking water

Examples

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Effect test

Embodiment 1

[0057] See figure 1 The integrated reactor for removing ammonia nitrogen and organic matter in drinking water that strengthens microbial nitrification, adsorption and membrane separation includes a tubular static mixer 3 before the biological oxidation zone and the ultrafiltration membrane filtration zone, and the biological The oxidation zone and the ultrafiltration membrane filtration zone are in the same reaction pool, and the biological oxidation zone is between the tubular static mixer and the ultrafiltration membrane filtration zone.

[0058] The biological oxidation zone includes a biological filler 7 for microbial film formation, an aeration device 9 and a sludge tank 10 .

[0059] A perforated plate 5 is installed in the reaction tank, and the top of the space formed between one side of the perforated plate 5 and the wall of the reaction tank is set as an opening; on the other side of the perforated plate 5 A bracket filled with the biological filler 7 is installed ...

Embodiment 2

[0072] See figure 2, the design and establishment of an integrated reactor for the removal of ammonia nitrogen and organic matter in drinking water with the enhanced microbial nitrification, adsorption and membrane separation as in Example 1, except that the support and ultrafiltration are filled with the biological filler There are four membrane modules respectively.

[0073] The installation method of the support filled with the biological filler and the ultrafiltration membrane module is to adopt the installation method of interlacing and mixing with each other, and adjacent to the perforated plate 2 is the bracket filled with the biological filler. stand.

[0074] The method of using the above-mentioned integrated reactor to remove ammonia nitrogen and organic matter in drinking water is as follows: the water to be treated enters the water inlet pipe from the water inlet 1, and the powdered activated carbon is added to the water to be treated from the feeding port 2 of t...

Embodiment 3

[0079] See figure 1 The integrated reactor for removing ammonia nitrogen and organic matter in drinking water that strengthens microbial nitrification, adsorption and membrane separation includes a tubular static mixer 3 before the biological oxidation zone and the ultrafiltration membrane filtration zone, and the biological The oxidation zone and the ultrafiltration membrane filtration zone are in the same reaction pool, and the biological oxidation zone is between the tubular static mixer and the ultrafiltration membrane filtration zone.

[0080] The biological oxidation zone includes a biological filler 7 for microbial film formation, an aeration device 9 and a sludge tank 10 .

[0081] A perforated plate 5 is installed in the reaction tank, and the top of the space formed between one side of the perforated plate 5 and the wall of the reaction tank is set as an opening; on the other side of the perforated plate 5 A bracket filled with the biological filler 7 is installed ...

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Abstract

The invention relates to an integrated reactor and a method for removing ammonia nitrogen and organic matter from drinking water. The integrated reactor comprises a biological oxidation area and an ultrafiltration membrane filtering area; a tube type static mixer is arranged before the biological oxidation area and the ultrafiltration membrane filtering area which are positioned in the same reaction tank; and the biological oxidation area is positioned between the tube type static mixer and the ultrafiltration membrane filtering area. Organic matter with medium molecular weight or volatile organic matter is adsorbed by activated carbon; ammonia nitrogen and organic matter with small molecular weight is removed by microorganisms on the surface of biofilm packing and powdered activated carbon; and bacteria, microbial films and the like are removed by filtering and an ultrafiltration membrane to ensure safety of the microorganisms. Particulate matter with high density in water, microbialfilms falling off, powdered activated carbon and the like enter a sludge chamber under the gravity action, and are discharged by a sludge discharge pipe. The integrated reactor can be used for drinking water treatment of a polluted water source, and can also be applied to treatment of municipal sewage and recycled water.

Description

technical field [0001] The invention belongs to the field of drinking water purification, and in particular relates to an integrated reactor for removing ammonia nitrogen and organic matter in drinking water that strengthens microbial nitrification, adsorption and membrane separation, and a method for using the integrated reactor to purify drinking water. Background technique [0002] Many urban drinking water sources in my country have persistent or seasonal organic matter, ammonia nitrogen and other pollutants exceeding the standard. Conventional drinking water treatment processes, namely coagulation, sedimentation, filtration and disinfection processes, have limited ability to remove organic matter, especially for medium or small molecular weight organic matter, and have almost no ability to remove ammonia nitrogen. On the other hand, the latest national drinking water standard (GB5749-2006) will be enforced in 2012. How to ensure that the factory water meets the standard...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C02F9/14
Inventor 曲久辉刘锐平刘会娟刘峰郭婷婷
Owner RES CENT FOR ECO ENVIRONMENTAL SCI THE CHINESE ACAD OF SCI
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