排序方式: 共有2条查询结果,搜索用时 0 毫秒
1
1.
Archina Buthiyappan Raja Shazrin Shah Raja Ehsan Shah Anam Asghar Mohd Ashri Wan Daud Shaliza Ibrahim 《Chemical Engineering Communications》2019,206(4):541-557
This work investigates the performance of an integrated Fenton-Ultrafiltration treatment scheme to treat textile wastewater. The treated effluent is particle-free at a quality higher than that obtained by any novel membrane based process or Fenton oxidation in singularity. The study is divided into three parts: part one, Fenton process was optimized for COD: H2O2 (wt/wt), H2O2: Fe+2 (wt/wt) and pH to attain highest degradation removal and lowest sludge generation. The process efficiency was analyzed by considering COD, TOC and color removal as key parameters. Part two, the process was scaled up to 5?L and efficiency of integrated system was investigated under optimized conditions by using two different types of membranes at different operating pressures. Part three, the performance of membrane process was studied in terms of flux behavior and its recovery. The treated effluent has COD, TOC and color removal values of 48.0?mg/L, 1.2?mg/L and >99% respectively. These values are compliant to typical discharge environmental standards. 相似文献
2.
Archina Buthiyappan Meysam Davoody Wan Mohd Ashri Wan Daud 《Chemical Engineering Communications》2017,204(6):658-676
The Fenton oxidation is rarely used industrially due to its high operating cost, large chemical consumption, excessive sludge production, and operability only within a narrow pH range. Therefore, there is a need to evaluate the Fenton oxidation to maximize its ability to degrade high-strength dye wastewater at reduced operating cost. Optimization tools are among the most commonly used tool to maximize the degradation of pollutants. The current study aims at evaluating the applicability of response surface methodology (RSM) and adaptive neuro-fuzzy inference system (ANFIS) to optimize the degradation of Remazol brilliant blue through the Fenton oxidation. The effects of four operating parameters including dye concentration, retention time, and mass ratios of Dye:Fe2+ and H2O2:Fe2+ were evaluated by applying RSM. According to the RSM results, color and chemical oxygen demand (COD) removal of 99.9% and 84%, respectively, were obtained at 120?min at the COD value of 795?mg/L, mass ratios of Dye:Fe2+?=?16, H2O2:Fe2+?=?15 and pH?=?3. ANFIS was also used to evaluate the most influential operating parameters on the COD removal based on the RSM results. The ANFIS results showed that the mass ratio of H2O2:Fe2+ had the most significant contribution to the COD removal. High R2 values (≥90%) indicated that the predictions of RSM and ANFIS models for COD removal were acceptable. In conclusion, this study demonstrated that RSM and ANFIS were able to determine the most significant operating parameters and optimum ratios of pollutant:oxidant:catalyst, which reduced the operating cost directly. 相似文献
1