With once effluent every two cycles and total treatment amount of 300 mL simulation wastewater, the average removal rate of Cu(II) (C 0 = 54.8 mg/L) on the anode was 82.3%, in which resin ion exchange and electromigration accounted for 75.3% and 7.0%, respectively (Fig. 5(a and b)). The contribution of resin on Cu (II) removal was the most obvious, following electrosorption, and electromigration was the least obvious.
Based on the CDI-EDI stack, the simulated Cu(II) wastewater (C0 = 42.9 mg/L) was treated, and its average removal rate in 1st cycle cathode- and anode-effluent was 95.7% and 87.6%, respectively, under optimal direct current (DC) of 1.5 mA for 1.5 min, followed by electroregeneration of resin and electrode.
Get PriceThe synthetic Cu (II) and Cd (II) contaminated water (CW) was prepared by adding CuCl 2 and CdCl 2 into tap water. Four concentrations of Cu (II) and Cd (II) (1, 5, 10 and 20 mg L −1) were used to study the effect of various initial metal concentration on the removal efficiency of the system.
Get PriceThe influence of pH, adsorbent dose, initial Cu(II) concentration and contact time on the removal of Cu(II) from aqueous solution by the batch adsorption technique using waste tire rubber ash as a
Get PriceFirstly, a Cu-TREB was used to remove Cu(II) from wastewater, and the maximum power density of 37 W m −2-electrode was obtained with an energy density of 280 W h m −3 and a removal efficiency of 63% during the treatment of 0.1 M Cu(II)-laden wastewater .
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Get PriceTreatment of low-level Cu(II) wastewater and regeneration through a novel capacitive deionization-electrodeionization (CDI-EDI) technology. Chemosphere 2019, 217, 763-772. DOI: 10.1016/j.chemosphere.2018.11.071. Nicolas E. Holubowitch, Ayokunle Omosebi, Xin Gao, James Landon, Kunlei Liu.
Get PriceIn another study, Yi et al. desorbed Cu(II) by 0.3 mol/L HCl and UO(II) by 0.3 mol/L HNO 3 from GO encapsulated polyvinyl alcohol/sodium alginate (SPG) hydrogel, and tested the reusability performance of the SPG with five cycles experiments. The removal efficiency for Cu(II) and UO(II) was decreased after the first adsorption-desorption cycle
Get PriceThe reduced natural waters and the large amount of wastewater produced by textile industry necessitate an effective water reuse treatment. In this study, a combined two-stage water reuse treatment was established to enhance the quality and recovery rate of reused water. The primary treatment incorporated a flocculation and sedimentation system, two sand filtration units, an ozonation unit, an
Get PriceKatalox Light is a versitile medium for the treatment of iron, manganese and hydrogen sulfide. It's lighter than Filox, and requires significantly less backwash. It can also provide sediment filtration down to 3 microns, and can reduce arsenic, zinc, copper, radium and uranium.
Get PriceVan der Bruggen B, Canbolat ÇB, Lin J, Luis P (2017) The potential of membrane technology for treatment of textile wastewater. In: Figoli A, Criscuoli A (eds) Sustainable membrane technology water wastewater treatment. Springer, Singapore, pp 349–380 Google Scholar
Get PricePreparation and regeneration of iron-modified nanofibres for low-concentration phosphorus-containing wastewater treatment Abstract Iron hydroxide was loaded on nanocellulose, a natural macromolecule derived from bamboo, to produce the second-generation iron-loaded nanocellulose for the removal of low-concentration phosphorus from wastewater.
Get PriceSorption of dyes and Cu(II) ions from wastewater by sonochemically synthesized MnWO 4 and MnMoO 4 nanostructures Dimple P. Dutta, a* Aakash Mathur,b Jayshree Ramkumar,c Avesh Kumar Tyagi, aChemistry Division, Bhabha Atomic Research Centre, Mumbai 400 085, India; bCentre for Converging Technologies, University of Rajasthan, Jaipur 302 004, India; cAnalytical Chemistry Division, Bhabha Atomic
Get PriceHowever, for the treatment of manganese mine wastewater, the MnOB thrive in harsh environmental conditions containing toxic concentrations of Mn(II), strong acidity, and competition with other indigenous microorganisms resulting in a low survival rate by MnOB and weak Mn(II) oxidation rates [78,89].
Get PriceAhmad et al. (2010) conducted a study and demonstrated that biosorption by ASB is a sustainable technique and effective system that can remove 59.3%, 68.5% and 86.5% of Cd(II), Pb(II) and Zn(II) ions respectively from industrial wastewater, treatment plants and municipal sewage sludge.
Get PriceThe most widely studied nanomaterials for wastewater treatment are AC, CNTs, graphene, Fe 3 O 4, MnO 2, Co 3 O 4, TiO 2, MgO and ZnO, etc. [22, 43, 46, 52, 57, 61–68].They may be prepared in different morphological forms such as particles, tubes and sheets [].Hereby we review recent advances in heavy metals and dye removal from wastewater using nanomaterials as effective adsorbents and
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Get PriceWe investigate with this study the effectiveness of mechanically activated serpentinite in capturing Cu (II) from the multi-constituent acidic wastewater of the pit lakes of the Agios Philippos mine (Greece), proposing specific areas with serpentinites suitable for such environmental applications. For this purpose ultramafic rock samples that are characterized by variable degrees of
Get PriceWater/Wastewater . Arsenate, As 5+, forms anionic complexes so it can be removed from solutions with a strong base anion exchange resin like AmberSep™ 21K XLT Resin. For streams that have a high organic content and are prone to surface fouling AmberLite™ HPR9200 Cl Resin is recommended. Unfortunately, arsenate is very weakly ionic so it is not selectively removed and resin capacity will be
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Get PriceNatural attenuation of Mn(II) was observed inside the metal refinery wastewater pipeline, accompanying dark brown-colored mineralization (mostly MnIVO2 with some MnIII2O3 and Fe2O3) on the inner pipe surface. The Mn-deposit hosted the bacterial community comprised of Hyphomicrobium sp. (22.1%), Magnetospirillum sp. (3.2%), Geobacter sp. (0.3%), Bacillus sp. (0.18%), Pseudomonas sp. (0.03%
Get Pricewastewater treatment. The research results were used for development of the new environmentally sound method for utilisation of eluates of ion-exchange filters with production of a marketable product - copper ferrit and other ferromagnetic substances. Key words : wastewater treatment, copper, utilization, ferritization. 1. Introduction
Get PriceApplication of Chitin and Zeolite adsorbents for treatment of low level radioactive liquid wastes. International Journal of Environmental Science & Technology 2004, 1 (1) , 45-50. DOI: 10.1007/BF03325815. V.K. Gupta, Imran Ali. Removal of lead and chromium from wastewater using bagasse fly ash—a sugar industry waste.
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Get PriceThe electrocoagulation (EC) process is an electrochemical means of introducing coagulants and removing suspended solids, colloidal material, and metals, as well as other dissolved solids from water and wastewaters. The EC process has been successfully employed in removing pollutants, pesticides, and radionuclides. This process also removes harmful microorganisms.
Get PriceNatural attenuation of Mn(II) was observed inside the metal refinery wastewater pipeline, accompanying dark brown-colored mineralization (mostly MnIVO2 with some MnIII2O3 and Fe2O3) on the inner pipe surface. The Mn-deposit hosted the bacterial community comprised of Hyphomicrobium sp. (22.1%), Magnetospirillum sp. (3.2%), Geobacter sp. (0.3%), Bacillus sp. (0.18%), Pseudomonas sp. (0.03%
Get PriceTreatment of wastewater by electrocoagulation: a review Treatment of wastewater by electrocoagulation: a review Sahu, Omprakash; Mazumdar, Bidyut; Chaudhari, P. 2013-11-17 00:00:00 Environ Sci Pollut Res (2014) 21:2397–2413 DOI 10.1007/s11356-013-2208-6 REVIEW ARTICLE Omprakash Sahu & Bidyut Mazumdar & P. K. Chaudhari Received: 1 July 2013 /Accepted: 30 September 2013 /Published online: 17
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Get PriceAbstract. Here, we describe the fundamentals, laboratory experiments, and environmental applications of indirect electrooxidation methods based on H 2 O 2 electrogeneration such as electro-Fenton, photoelectro-Fenton and peroxicoagulation for the treatment of acidic wastewaters containing toxic and recalcitrant organics. These methods are electrochemical advanced oxidation processes that can
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