Optimisation of photo‐Fenton‐like degradation of aqueous polyacrylic acid using Box‐Behnken experimental design

Ghafoori, Samira; Mehrvar, Mehrab; Chan, Philip K.

doi:10.1002/cjce.21849

Cited by 31 publications

(23 citation statements)

References 44 publications

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“…The main core of the CCD experimental design is the combination of fractional factorial or factorial and central points.The CCD method was selected to analyze the sensitivity and importance of the parameters selected in this study on the dynamics of particle clouds. Recently, the response surface methodology (RSM) has been used as a reliable tool for model optimization in the field of water and environmental engineering(Ghafoori et al 2014;Kirmizakis et al 2014;and Yahyapour et al 2014) Pakzad et al (2013). used RSM to verify the optimal process design for mixing of a non-Newtonian biopolymer solutions in a reactor equipped with coaxial mixers.…”

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confidence: 99%

Investigations on the dynamics of particle clouds in stagnant water using response surface methodology

Pakzad

Azimi

2017

Can. J. Civ. Eng.

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Disposal of sediments during land reclamation and dredging is an important component in many environmental engineering projects. Dredged material can be discharged into the ambient water either instantaneously to form a particle cloud or continuously to form a slurry jet. This paper presents the results of a laboratory experiments to understand the dynamics of particle cloud in stagnant water. Different independent parameters such as particle size, nozzle diameter, cumulative mass of sand particles, and release height were tested. Due to wide ranges of selected variables and interactions between parameters, response surface methodology (RSM) technique was employed to determine the importance and effectiveness of each parameter on the growth and motion of particle clouds. A narrow range of non-dimensional cloud buoyancy in thermal regime was selected for design of experiments. Particle size was found to be the most significant parameter for the response predictions. RSM results showed that increasing the nozzle diameter from 5 mm to 14 mm slightly increased the cloud width if all other parameters kept unchanged. Statistical analysis of results indicated that the effect of the release height on growth of particle cloud was not significant; however, it was effective on variations of frontal velocity.

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confidence: 99%

Investigations on the dynamics of particle clouds in stagnant water using response surface methodology

Pakzad

Azimi

2017

Can. J. Civ. Eng.

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“…in Table 3 and estimated by trial and error, were found to be 1 Â 10 4 and 1 Â 10 2 1/(M s), respectively. [32] R4 [33] R5 [34] R6 10 1/(M s) [35] R7 [35] R8…”

Section: Optimization Of H 2 O 2 Dosage In Uv/h 2 O 2 Processmentioning

confidence: 99%

“…AOPs produce highly reactive intermediates, mainly hydroxyl radicals ( . OH), which are able to oxidize most organics in water . During the UV photolytic process, the UV light with the wavelength energy of more than the bond energy can break the chemical bonds directly.…”

Section: Introductionmentioning

confidence: 99%

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Pharmaceutical wastewater treatment using granular activated carbon and UV/H₂O₂ processes: Experimental analysis and modelling

et al. 2014

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The treatment of a synthetic pharmaceutical wastewater was studied using granular activated carbon (GAC) adsorption, UV/H2O2 process, and their combination. Experimental results reveal that GAC adsorption alone has 79% efficiency in total organic carbon (TOC) removal in 10 min breakthrough time with the dosage of 333.33 mg activated carbon/L. The adsorption data are fitted well with the Langmuir adsorption isotherm. The UV/H2O2 process alone at 6 h hydraulic retention time with optimum dosage of 4.25 mgH2O2/mgCOD shows 29 and 26% TOC reduction using 185 and 254 nm UV lamps, respectively. The kinetic modelling of the UV254/H2O2 process is developed using chemical oxygen demand (COD) and TOC as lumped parameters. A good agreement between model predictions and experimental data is confirmed. In combined processes, pre‐treated pharmaceutical wastewater by UV254/H2O2 followed by GAC adsorption process along with the desorption of contaminants from GAC and the subsequent treatment of the condensed steam by UV254/H2O2 process leads to 82 % TOC removal efficiency. On the other hand, the GAC adsorption along with UV254/H2O2 treatment of regenerant (condensed steam) from the desorption process leads to 88 % TOC removal at optimum conditions.

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“…Furthermore, to analyze processes experimentally, statistical design of experiments is often employed. By utilizing statistical methods, the effect of process variables and their interaction on the experimental output can be quantified; this allows for comprehensive process analysis and optimization (Pakzad et al 2013;Ghafoori et al, 2014;Kirmizakis et al, 2014;Pakzad & Azimi, 2017;Kazemzadeh et al, 2017a).…”

Section: Introduction Objectivesmentioning

confidence: 99%

Hydrodynamic analysis of a liquid-solid fluidized bed via CFD-DEM simulations, stability analysis, and tomography

Zbib¹

2023

Preprint

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A coupled computational fluid dynamics (CFD) and discrete element method (DEM) model was developed to analyze the fluid-particle and particle-particle interactions in a 3D liquid-solid fluidized bed (LSFB). The CFD-DEM model was validated using the Electrical Resistance Tomography (ERT) experimental method. ERT was employed to measure the bed-averaged particle volume fraction (BPVF) of 0.002 m glass beads fluidized with water for various particle numbers and flow rates. It was found that simulations employing the combination of the Gidaspow drag model with pressure gradient and virtual mass forces provided the least percentage error between experiments and simulations. It was also found that contact parameters must be calibrated to account for the particles being wet. The difference between simulations and experiments was 4.74%. The CFD-DEM model was also employed alongside stability analysis to investigate the hydrodynamic behavior within the LSFB and the intermediate flow regime for all cases studied.

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Optimisation of photo‐Fenton‐like degradation of aqueous polyacrylic acid using Box‐Behnken experimental design

Cited by 31 publications

References 44 publications

Investigations on the dynamics of particle clouds in stagnant water using response surface methodology

Investigations on the dynamics of particle clouds in stagnant water using response surface methodology

Pharmaceutical wastewater treatment using granular activated carbon and UV/H₂O₂ processes: Experimental analysis and modelling

Hydrodynamic analysis of a liquid-solid fluidized bed via CFD-DEM simulations, stability analysis, and tomography

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Optimisation of photo‐Fenton‐like degradation of aqueous polyacrylic acid using Box‐Behnken experimental design

Cited by 31 publications

References 44 publications

Investigations on the dynamics of particle clouds in stagnant water using response surface methodology

Investigations on the dynamics of particle clouds in stagnant water using response surface methodology

Pharmaceutical wastewater treatment using granular activated carbon and UV/H2O2 processes: Experimental analysis and modelling

Hydrodynamic analysis of a liquid-solid fluidized bed via CFD-DEM simulations, stability analysis, and tomography

Contact Info

Product

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Pharmaceutical wastewater treatment using granular activated carbon and UV/H₂O₂ processes: Experimental analysis and modelling