Thirugnanasambandham et al., 2016 - Google Patents
Studies on treatment of egg processing industry wastewater using electrocoagulation method: optimization using response surface methodologyThirugnanasambandham et al., 2016
- Document ID
- 6662576603989824931
- Author
- Thirugnanasambandham K
- Sivakumar V
- Shine K
- Publication year
- Publication venue
- Desalination and Water Treatment
External Links
Snippet
The present research analyzes the recovery of protein from egg industry wastewater using electrocoagulation technique under different operating conditions such as current density, initial pH, feed flow rate, and electrode distance. Initial pH value of 6, current density of 25 …
- 239000002351 wastewater 0 title abstract description 57
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| Thirugnanasambandham et al. | Studies on treatment of egg processing industry wastewater using electrocoagulation method: optimization using response surface methodology | |
| Birjandi et al. | Optimization of coagulation-flocculation treatment on paper-recycling wastewater: Application of response surface methodology | |
| Thirugnanasambandham et al. | Optimization of electrocoagulation process to treat biologically pretreated bagasse effluent | |
| Ozyonar | Optimization of operational parameters of electrocoagulation process for real textile wastewater treatment using Taguchi experimental design method | |
| Coskun et al. | Optimization of energy costs in the pretreatment of olive mill wastewaters by electrocoagulation | |
| Khosravi et al. | Decolorization of AR18 dye solution by electrocoagulation: sludge production and electrode loss in different current densities | |
| Ghosh et al. | Optimization of copper adsorption by chemically modified fly ash using response surface methodology modeling | |
| Song et al. | Development of a multi-species biotic ligand model predicting the toxicity of trivalent chromium to barley root elongation in solution culture | |
| Khosravi et al. | Electro-decolorization of Reactive Red 198 from aqueous solutions using aluminum electrodes systems: modeling and optimization of operating parameters | |
| Aboulhassan et al. | Influence of experimental parameters in the treatment of tannery wastewater by electrocoagulation | |
| Orssatto et al. | Optimization of the pretreatment of wastewater from a slaughterhouse and packing plant through electrocoagulation in a batch reactor | |
| Babu et al. | Removal of pharmaceuticals from wastewater by electrochemical oxidation using cylindrical flow reactor and optimization of treatment conditions | |
| Yahiaoui et al. | The feasibility of combining an electrochemical treatment on a carbon felt electrode and a biological treatment for the degradation of tetracycline and tylosin–application of the experimental design methodology | |
| Sravanth et al. | Continuous treatability of oily wastewater from locomotive wash facilities by electrocoagulation | |
| Güçlü | Optimization of electrocoagulation of pistachio processing wastewaters using the response surface methodology | |
| Akkaya et al. | Estimation of biogas generation from a UASB reactor via multiple regression model | |
| David et al. | Degradation of distillery effluent by twisted-type Iron electrodes: experimental with ANN approach | |
| Oden | Treatment of CNC industry wastewater by electrocoagulation technology: an application through response surface methodology | |
| Asaithambi et al. | Influence of experimental parameters in the treatment of distillery effluent by electrochemical oxidation | |
| Nandi et al. | Removal of brilliant green from aqueous solution by electrocoagulation using aluminum electrodes: experimental, kinetics, and modeling | |
| Boudjema et al. | Simultaneous removal of natural organic matter and turbidity from Oued El Harrach River by electrocoagulation using an experimental design approach | |
| Uzoh et al. | Electrocoagulation of Pb2+, Co2+, and Mn2+ from simulated wastewater: an algorithmic optimization using hybrid RSM–GA–PSO | |
| Bajdur et al. | LCA application in the assessment of new technologies of industrial effluents treatment | |
| Mondal et al. | Electrochemical treatment of dye-bath effluent by stainless steel electrodes: Multiple response optimization and residue analysis | |
| Radeef et al. | Resource recovery in potato chips processing industry: green bioelectricity production using continuous mediatorless microbial fuel cell |