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Method for simultaneously removing phosphorous and nitrogen through synergistic effect of nanoscale-iron and microbes

A synergistic denitrification and phosphorus removal technology, which is applied in the field of advanced treatment of domestic sewage to prevent eutrophication of water bodies, can solve the problems of high dosage, low efficiency of nano-iron nitrite reaction and high nitrite cost, etc. question

Active Publication Date: 2014-05-21
HEFEI UNIV OF TECH
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Problems solved by technology

However, the dosage of nano-iron is very high, and the mass ratio of nano-iron to nitrate nitrogen should reach 1:40, which shows that the reaction and utilization efficiency of nano-iron with nitrate and nitrite is not high, resulting in the reduction of nitrate in water treated by nano-iron , The cost of nitrite is high, and there are still obstacles in the promotion and application of technical and economic aspects

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  • Method for simultaneously removing phosphorous and nitrogen through synergistic effect of nanoscale-iron and microbes
  • Method for simultaneously removing phosphorous and nitrogen through synergistic effect of nanoscale-iron and microbes
  • Method for simultaneously removing phosphorous and nitrogen through synergistic effect of nanoscale-iron and microbes

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[0032] The iron grade of limonite ore is not less than 40%.

[0033] The limonite is crushed to obtain granular materials with a particle size of 1.0-3mm. The particles are reduced with hydrogen at 300°C, and the goethite in the particles is reduced to elemental iron until no water is formed. The hydrogen reduction product elemental iron inherits the nano-needle-like morphology of goethite, but becomes nano-iron due to the phase transition. Therefore, the particle material after hydrogen reduction not only has the chemical activity of nano-iron, but also maintains the porosity and pore structure characteristics of limonite before calcination, which provides the basic premise for microorganisms to attach and enter the particle interior.

[0034] Fill the prepared nano-iron particles into the experimental column, and inoculate the enriched and cultured denitrifying bacteria and nitrate-dependent iron-oxidizing bacteria bacteria solution, and the ODP value of the bacteria soluti...

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Abstract

The invention provides a method for simultaneously removing phosphorous and nitrogen through the synergistic effect of nanoscale-iron and microbes. The method is characterized in that firstly limonite ore is broken and sieved so as to obtain particulate materials with the required particle size, the particulate materials mainly comprising nanoscale iron and having millimeter particle size and the porous structure characteristic are prepared through high temperature reduction under a hydrogen or carbon monoxide atmosphere, the nanoscale iron in the particulate materials slowly release nascent hydrogen atoms and hydrogen gas, and nitrate is chemically reduced; meanwhile, the particulate materials have relatively high void ratio, and abundant function anaerobic microbe denitrifying bacteria adhere to the inner parts and the outer surfaces of the particulate materials and reduce the nitrate by using hydrogen released through reaction between the nanoscale-iron and water as electron donors; adherent dependent nitrate iron-oxidizing bacteria also have the effect of reducing the nitrate; the nitrate in wastewater is removed under the chemical action of the nanoscale-iron and the synergistic effects of the anaerobic microbes; ferrous and ferric hydroxides are continuously formed on the inner surfaces and the outer surfaces of the porous particulate materials through the chemical reaction of the nanoscale-iron and water and the synergistic effect of the anaerobic microbes, so that the chemical adsorption of phosphorous in water is promoted, thus the effect of simultaneously removing phosphorous and nitrogen is achieved.

Description

1. Technical field [0001] The invention relates to a method for advanced treatment of slightly polluted water, in particular to a method for advanced treatment of domestic sewage for preventing water body eutrophication. 2. Background technology [0002] Due to my country's rapid economic development and accelerated urbanization, a large amount of nutrients nitrogen and phosphorus have entered lakes and other water bodies, resulting in serious eutrophication in lakes such as Chaohu Lake, Taihu Lake, Dianchi Lake and urban landscape water bodies. In order to control environmental pollution, the state has invested heavily in the construction of urban sewage treatment facilities to increase the treatment rate of urban domestic sewage. However, at present, the aerobic activated sludge process is commonly used in urban domestic sewage treatment, and scholars at home and abroad are also vigorously studying biological phosphorus removal technology, but the concentrations of total n...

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Application Information

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IPC IPC(8): C02F3/28C02F3/34
Inventor 陈天虎李宏伟邢波波刘海波谢晶晶邹雪华
Owner HEFEI UNIV OF TECH
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