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Removal of acid wastewater with ferric sulfate

Established in 2001, Puyang Zhong Yuan Restar Petroleum Equipment Co.,Ltd, “RSD” for short, is Henan’s high-tech enterprise with intellectual property advantages and independent legal person qualification. With registered capital of RMB 50 million, the Company has two subsidiaries-Henan Restar Separation Equipment Technology Co., Ltd We are mainly specialized in R&D, production and service of various intelligent separation and control systems in oil&gas drilling,engineering environmental protection and mining industries.We always take the lead in Chinese market shares of drilling fluid shale shaker for many years. Our products have been exported more than 20 countries and always extensively praised by customers. We are Class I network supplier of Sinopec,CNPC and CNOOC and registered supplier of ONGC, OIL India,KOC. High quality and international standard products make us gain many Large-scale drilling fluids recycling systems for Saudi Aramco and Gazprom projects.

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Removal of acid wastewater with ferric sulfate
Photocatalytic degradation of acid blue 74 in water using ...
Photocatalytic degradation of acid blue 74 in water using ...

Water pollution due to industrial effluents from industries which utilize dyes in the manufacturing of their products has serious implications on aquatic lives and the general environment. Thus, there is need for the removal of dyes from ,wastewater, before being discharged into the environment. In this study, a nanocomposite consisting of silver, silver oxide (Ag2O), zinc oxide (ZnO ...

Removal of Erioglaucine (Acid Blue 9) with a new coagulant ...
Removal of Erioglaucine (Acid Blue 9) with a new coagulant ...

Erioglaucine (also called Acid Blue 9 or FD&C Blue 1) belongs to the triphenylmethane dye group. Because of its high solubility in alcohol (e.g. ethanol and methanol) and in cold water, it can be found in a great many industrial applications [ 3 ]: for example, textile dyeing for wool and silk, foodstuffs, pharmaceuticals, algaecides, herbicides, etc.

Brilliant Blue FCF | C37H34N2Na2O9S3 - PubChem
Brilliant Blue FCF | C37H34N2Na2O9S3 - PubChem

acid blue 9,. ,blue, 4. ,blue, no. 1. brilliant ,blue,. brilliant ,blue, Al (3:1) salt. brilliant ,blue, diammonium salt. brilliant ,blue, dipotassium salt. ... Activated sludge and chemical precipitation treatment of ,wastewater, containing anionic dyes resulted in dye removal efficiencies of less than 25% for Brilliant ,Blue,(2), ...

A review on the sustainability of textile industries ...
A review on the sustainability of textile industries ...

Mittal A. Use of hen feathers as potential adsorbent for the removal of a hazardous dye, Brilliant ,Blue, FCF, from ,wastewater,. J Hazard Mater 2006;128:233–,9,. Search in Google Scholar. 119. Panayotova M, Velikov B. Influence of zeolite transformation in a homoionic form on the removal of some heavy metal ions from ,wastewater,.

ANNEXURES Sr. Content No.
ANNEXURES Sr. Content No.

5 ,Acid Blue,-,9, Ethyl Benzyl Aniline Sulfonic ,Acid, 101-11-1 11.10 Ortho Benzaldehyde sulfonic ,acid, 1008-72-6 3.99 Soda ash 1310-73-2 2.40 H2SO4 98% 7664-93-,9, 4.79 Oxalic ,Acid, 6153-56-6 2.60 Sodium Dichromate 7789-12-0 2.04 Salt 7647-14-5 21.88 6 ,Acid Blue,-15 Ethyl benzyl aniline sulfonic ,acid, 101-11 …

Effects of Operational Parameters on the Decolorization of ...
Effects of Operational Parameters on the Decolorization of ...

wastewater, treatment dyes oxidation pH temperature 30 degC advanced ,oxidation process, Fenton reagent C.I. ,Acid Blue 9, hydrogen peroxide concentration iron concentration temperature chloride ion decolorization degradation efficiency dye aqueous solution time 60 min Degradation Chemicals ,Wastewater, Iron Carbon

"Optimization of Photocatalytic Degradation of Acid Blue ...

Textile industries produce copious amounts of colored ,wastewater, some of which are toxic to humans and aquatic biota. This study investigates optimization of a bench-scale UV-C photocatalytic process using a TiO2 catalyst suspension for degradation of two textile dyes, ,Acid Blue, 113 (AB 113) and ,Acid, Red 88 (AR 88). From preliminary experiments, appropriate ranges for experimental factors ...

"Optimization of Photocatalytic Degradation of Acid Blue ...

Textile industries produce copious amounts of colored ,wastewater, some of which are toxic to humans and aquatic biota. This study investigates optimization of a bench-scale UV-C photocatalytic process using a TiO2 catalyst suspension for degradation of two textile dyes, ,Acid Blue, 113 (AB 113) and ,Acid, Red 88 (AR 88). From preliminary experiments, appropriate ranges for experimental factors ...

Evaluation of possibility of textile dye removal from ...
Evaluation of possibility of textile dye removal from ...

Possibility of removal of textile dye from ,wastewater, by extraction in aqueous two-phase system (ATPS) was studied in model solution of ,Acid blue 9,. Partitioning of the dye in ATPSs composed of polyethylene glycol of different molecular weights (1,500, 6,000, and 10,000 g/mol) and several salts (ammonium sulfate, sodium sulfate, and sodium citrate) was investigated.

OPEN ACCESS water
OPEN ACCESS water

Crystal Violet, Methyl Violet and Methylene ,Blue, with degradation efficiencies of 68.0%, 99.0% and 98.5%, respectively. Catalytic oxidation of simulated ,wastewater, containing ,Acid, Chrome ,Blue, K using chlorine dioxide as oxidant was investigated [26]. The activated carbon-MnO 2 catalyst was used for this

Electrochemical degradation of Acid Blue and Basic Brown ...
Electrochemical degradation of Acid Blue and Basic Brown ...

Electrocatalytic degradation of ,Acid Blue, and Basic Brown dyes from simulated ,wastewater, on lead dioxide anode was investigated in different conductive electrolytes. It was shown that complete degradation of these dyes is dependent primarily on type and concentration of …

Recent advances in textile wastewater treatment using ...
Recent advances in textile wastewater treatment using ...

acid,, disperse and reactive dyes . 200 . 90% . ,9, days (Yang et al.86) Bjerkandera adusta OBR105 . Reactive and ,acid, dyes . 200 . 99% . 3 days (Sodaneath et al.87) Pleurotus sp. MAK-II . Congo Red . 150 . 96% . NA (Manavalan et al.88) Remazol Brilliant ,Blue, R . 150 . 72% . Marasmius cladophyllus UMAS MS8 . Remazol Brilliant ,Blue, R . 200 . 100% ...

In vivo and in vitro efficient textile wastewater ...
In vivo and in vitro efficient textile wastewater ...

For ,Acid Blue, 40, a slight decoloration was observed when the pH value was about 1.23. In contrast to ,Acid Blue, 40 and ,Acid, Orange 56, ,Acid Blue, 93 is a weak ,acid, dye. However, in the case of ammonia, zinc and other reductants, ,Acid Blue, 93 is reduced to a colorless state. The discoloration ranges from ,9,.4 to 14.0 in pH (Fig. S3c†).

Evaluation of possibility of textile dye removal from ...
Evaluation of possibility of textile dye removal from ...

Possibility of removal of textile dye from ,wastewater, by extraction in aqueous two-phase system (ATPS) was studied in model solution of ,Acid blue 9,. Partitioning of the dye in ATPSs composed of polyethylene glycol of different molecular weights (1,500, 6,000, and 10,000 g/mol) and several salts (ammonium sulfate, sodium sulfate, and sodium citrate) was investigated.

ANNEXURES Sr. Content No.
ANNEXURES Sr. Content No.

5 ,Acid Blue,-,9, Ethyl Benzyl Aniline Sulfonic ,Acid, 101-11-1 11.10 Ortho Benzaldehyde sulfonic ,acid, 1008-72-6 3.99 Soda ash 1310-73-2 2.40 H2SO4 98% 7664-93-,9, 4.79 Oxalic ,Acid, 6153-56-6 2.60 Sodium Dichromate 7789-12-0 2.04 Salt 7647-14-5 21.88 6 ,Acid Blue,-15 Ethyl benzyl aniline sulfonic ,acid, 101-11 …

Brilliant Blue FCF | C37H34N2Na2O9S3 - PubChem
Brilliant Blue FCF | C37H34N2Na2O9S3 - PubChem

acid blue 9,. ,blue, 4. ,blue, no. 1. brilliant ,blue,. brilliant ,blue, Al (3:1) salt. brilliant ,blue, diammonium salt. brilliant ,blue, dipotassium salt. ... Activated sludge and chemical precipitation treatment of ,wastewater, containing anionic dyes resulted in dye removal efficiencies of less than 25% for Brilliant ,Blue,(2), ...

Recent advances in textile wastewater treatment using ...
Recent advances in textile wastewater treatment using ...

acid,, disperse and reactive dyes . 200 . 90% . ,9, days (Yang et al.86) Bjerkandera adusta OBR105 . Reactive and ,acid, dyes . 200 . 99% . 3 days (Sodaneath et al.87) Pleurotus sp. MAK-II . Congo Red . 150 . 96% . NA (Manavalan et al.88) Remazol Brilliant ,Blue, R . 150 . 72% . Marasmius cladophyllus UMAS MS8 . Remazol Brilliant ,Blue, R . 200 . 100% ...

Exploration of the Binding Properties of the Azo Dye ...
Exploration of the Binding Properties of the Azo Dye ...

Acid Blue, 29, ,Acid, Orange 5, ... of the Binding Properties of the Azo Dye Pollutants with Nitrogen‐Doped Graphene Oxide by Computational Modeling for ,Wastewater, Treatment Improvement. Maryam Hezarkhani. Department of Environmental Sciences, Faculty of Natural Resources and Environment, Malayer University, Malayer, Iran.

"Optimization of Photocatalytic Degradation of Acid Blue ...

Textile industries produce copious amounts of colored ,wastewater, some of which are toxic to humans and aquatic biota. This study investigates optimization of a bench-scale UV-C photocatalytic process using a TiO2 catalyst suspension for degradation of two textile dyes, ,Acid Blue, 113 (AB 113) and ,Acid, Red 88 (AR 88). From preliminary experiments, appropriate ranges for experimental factors ...

In vivo and in vitro efficient textile wastewater ...
In vivo and in vitro efficient textile wastewater ...

For ,Acid Blue, 40, a slight decoloration was observed when the pH value was about 1.23. In contrast to ,Acid Blue, 40 and ,Acid, Orange 56, ,Acid Blue, 93 is a weak ,acid, dye. However, in the case of ammonia, zinc and other reductants, ,Acid Blue, 93 is reduced to a colorless state. The discoloration ranges from ,9,.4 to 14.0 in pH (Fig. S3c†).

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