Hojjat Dadkhah scite author profile

Hojjat Dadkhah

3Publications

8Citation Statements Received

28Citation Statements Given

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Islamic Azad University of Tabriz

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Horizontally rotating disc recirculated photoreactor with TiO₂-P25 nanoparticles immobilized onto a HDPE plate for photocatalytic removal of p-nitrophenol

Behnajady

Dadkhah

Eskandarloo

2017

Environmental Technology

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In this study, a horizontally rotating disc recirculated (HRDR) photoreactor equipped with two UV lamps (6 W) was designed and fabricated for photocatalytic removal of p-nitrophenol (PNP). Photocatalyst (TiO) nanoparticles were immobilized onto a high-density polyethylene (HDPE) disc, and PNP containing solution was allowed to flow (flow rate of 310 mL min) in radial direction along the surface of the rotating disc illuminated with UV light. The efficiency of direct photolysis and photocatalysis and the effect of rotating speed on the removal of PNP were studied in the HRDR photoreactor. It was found that TiO-P25 nanoparticles are needed for the effective removal of PNP and there was an optimum rotating speed (450 rpm) for the efficient performance of the HRDR photoreactor. Then effects of operational variables on the removal efficiency were optimized using response surface methodology. The results showed that the predicted values of removal efficiency are consistent with experimental results with an R of 0.9656. Optimization results showed that maximum removal percent (82.6%) was achieved in the HRDR photoreactor at the optimum operational conditions. Finally, the reusability of the HRDR photoreactor was evaluated and the results showed high reusability and stability without any significant decrease in the photocatalytic removal efficiency.

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Optimization of photooxidative removal of p-nitrophenol in a spinning disc photoreactor using response surface methodology

Dadkhah

Behnajady

2018

Chemical Engineering Communications

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Photooxidative Removal of p-Nitrophenol by UV/H2 O2 Process in a Spinning Disk Photoreactor: Influence of Operating Parameters

Dadkhah¹

2017

Chem.Biochem.Eng.Q.

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In this paper, spinning disk photoreactor (SDP) has been used for the removal of a refractory pollutant, namely p-nitrophenol (PNP), in UV/H 2 O 2 process. The effect of various parameters such as the plate type in the SDP, concentration of oxidant (H 2 O 2 ), fluid volume, initial concentration of PNP, distance of the lamps from the spinning disk, distance of the lamps from each other, pH, and rotation speed of the spinning disk in the removal efficiency has been investigated. The results indicated that the use of scrobiculate disc instead of flat disc significantly increased the removal percentage of PNP from 46 to 100 % for the irradiation time of 20 min; it also increased with increasing H 2 O 2 concentration, but the increase in fluid volume and the initial concentration of PNP reduced the removal percentage of PNP in the SDP. The increase in the distance of UV lamps from each other and from disc surface in the SDP reduced the removal percentage of PNP. However, the increase in pH to 5.5 increased removal efficiency while increasing pH above 5.5 reduced PNP removal efficiency. The disk rotation speed from 0 to 90 rpm increased the removal percentage from 49 to 70 % for the irradiation time of 5 min, but increasing the rotation speed to more than 90 rpm reduced the removal efficiency.

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Hojjat Dadkhah

Horizontally rotating disc recirculated photoreactor with TiO₂-P25 nanoparticles immobilized onto a HDPE plate for photocatalytic removal of p-nitrophenol

Optimization of photooxidative removal of p-nitrophenol in a spinning disc photoreactor using response surface methodology

Photooxidative Removal of p-Nitrophenol by UV/H2 O2 Process in a Spinning Disk Photoreactor: Influence of Operating Parameters

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Hojjat Dadkhah

Horizontally rotating disc recirculated photoreactor with TiO2-P25 nanoparticles immobilized onto a HDPE plate for photocatalytic removal of p-nitrophenol

Optimization of photooxidative removal of p-nitrophenol in a spinning disc photoreactor using response surface methodology

Photooxidative Removal of p-Nitrophenol by UV/H2 O2 Process in a Spinning Disk Photoreactor: Influence of Operating Parameters

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Horizontally rotating disc recirculated photoreactor with TiO₂-P25 nanoparticles immobilized onto a HDPE plate for photocatalytic removal of p-nitrophenol