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Treatment method of printing and dyeing wastewater

A technology for printing and dyeing wastewater and its treatment method, which is applied in the textile industry wastewater treatment, multi-stage water treatment, water/sewage treatment and other directions, can solve the problems of difficulty in stably reaching the standard discharge, affecting the effect of wastewater, and high treatment costs, achieving obvious economic benefits and Environmental benefits, avoidance of inhibitions, effects of pollution mitigation

Inactive Publication Date: 2017-05-31
SICHUAN NORMAL UNIVERSITY
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

These treatment methods have high treatment costs, unstable effects, and are difficult to meet the discharge standards stably.
Due to the addition of sulfuric acid in the biochemical method, a large amount of H is produced in the process of anaerobic or hydrolytic acidification 2 S, causing serious secondary pollution, in addition, due to a large amount of SO 4 2- The existence of inhibiting the growth of microorganisms seriously affects the effect of wastewater biochemical treatment

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0007] Example 1: Treat 1m per day 3 Printing and dyeing wastewater (pH10.9, COD Cr 5800mg / L, BOD 5 1150mg / L, chroma 320, aniline 22mg / L, T-N101mg / L), after CO 2 Adjust pH (6.5), manganese-aluminum composite powder reduction (add 5g of manganese-aluminum composite powder per liter of wastewater, 3h, 25°C, CO 2 Pressure 0.1MPa), hydrolytic acidification (4h), aerobic biochemical (4h) and activated carbon biological filter tower (hydraulic load is 100m 3 / m 2 .d. The total thickness of activated carbon is 1m), and the effluent quality is COD Cr 78mg / L, BOD 5 11mg / L, chromaticity 8, T-N 14mg / L, no aniline detected.

Embodiment 2

[0008] Embodiment 2: 60m is processed every day 3 Printing and dyeing wastewater (pH10.8, COD Cr 6800mg / L, BOD 5 1400mg / L, chroma 400, aniline 30mg / L, T-N98mg / L), CO 2 Adjust pH (6.8), manganese-aluminum composite powder reduction (add 10g of manganese-aluminum composite powder per liter of wastewater, 1h, 40°C, CO 2 Pressure 0.3MPa), hydrolytic acidification (6h), aerobic biochemical (6h) and porous ceramsite biological filter tower (hydraulic load 150m3 / m2.d, porous ceramsite total thickness 2m) treatment, the effluent water quality is COD Cr 55mg / L, BOD 5 7mg / L, chromaticity 7, T-N 13mg / L, no aniline detected.

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Abstract

The invention discloses a treatment method of printing and dyeing wastewater. The treatment method comprises the treatment processes of CO2 neutralization, pressurized manganese-aluminum composite powder reduction, hydrolytic acidification, aerobic treatment, biological filtration tower and the like. The treated wastewater can be discharged by stably reaching a standard.

Description

technical field [0001] The invention relates to a treatment method for printing and dyeing wastewater. Background technique [0002] Printing and dyeing is an important process in the textile industry. Printing and dyeing can increase the color of textiles and improve the quality of human life. In the printing and dyeing process, printing and dyeing wastewater will inevitably be produced, and the COD of the wastewater Cr The concentration is high, the chroma is large, and the alkalinity is high. If it is directly discharged into the environment, it will cause serious pollution to the environment. At present, the treatment methods of printing and dyeing wastewater mainly include biochemical treatment methods, physical chemical methods and chemical treatment methods. These treatment methods have high treatment costs and unstable effects, making it difficult to meet the discharge standards stably. Due to the addition of sulfuric acid in the biochemical method, a large amoun...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C02F9/14C02F101/30C02F103/30
CPCC02F1/66C02F1/705C02F3/02C02F3/28C02F3/34C02F9/00C02F2003/001C02F2003/003C02F2101/308C02F2101/40C02F2103/30C02F2301/046C02F2301/08C02F2303/24
Inventor 龙炳清王旗超王森
Owner SICHUAN NORMAL UNIVERSITY
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