Dr. Khanday has done Post-Doctoral Research from Universiti Sains Malyasia (USM) with Bassim H. Hameed. Presently he's working as Assistant Professor, Chemistry at J&K Higher Education Department. Dr. Khanday's research interest is waste processing into Zeolite-composites to be utilized as noval catalysts and adsorbents. He has published more than 30 high Impact research articles in SCI journals and his h-index & i10-index are 19 & 22 respectively. Besides He's reviewer for many SCI journals Supervisors: Prof. (Dr.) Bassim H Hameed, Prof. (Dr.) Radha Tomar, and Dr. S Chandra Shekar
Composites of polypyrrole and various cation exchanged forms of zeolite X were successfully synth... more Composites of polypyrrole and various cation exchanged forms of zeolite X were successfully synthesized and characterized by FTIR, powder XRD, SEM and TGA.
Abstract Biodiesel production can be achieved through different processes and different reactor t... more Abstract Biodiesel production can be achieved through different processes and different reactor types as well as varying reaction parameters such as catalyst dose, oil: alcohol ratio, reaction time, mixing intensity, free fatty acid content (
Journal of The Taiwan Institute of Chemical Engineers, 2017
Abstract A mesoporous high-surface-area zeolite–activated carbon (Z–AC) composite was prepared by... more Abstract A mesoporous high-surface-area zeolite–activated carbon (Z–AC) composite was prepared by chemically facilitated NaOH activation and hydrothermal treatment with oil palm ash as substrate. The prepared Z–AC composite was characterized by X-ray diffraction, Fourier transform infrared spectroscopy, BET surface area and pore structural analysis, and scanning electron microscopy. The adsorption performance of Z–AC for methylene blue (MB) removal was examined using a batch method. The effects of initial dye concentration (25–400 mg/L), temperature (30 °C–50 °C), and pH (3–13) on the adsorption of MB on Z–AC were studied. Pseudo-second-order kinetics was found to describe the adsorption process better than pseudo-first-order kinetics. Freundlich and Langmuir isotherms applied on the adsorption data reveal that data best fitted Freundlich model. The maximum adsorption capacity values of the Z–AC composite for MB were 143.47, 199.6, and 285.71 mg/g at 30, 40, and 50 °C, respectively. These results show that the Z–AC composite could provide basis for more low-cost composites to be used as adsorbents for dye removal.
Composites of polypyrrole and various cation exchanged forms of zeolite X were successfully synth... more Composites of polypyrrole and various cation exchanged forms of zeolite X were successfully synthesized and characterized by FTIR, powder XRD, SEM and TGA.
Abstract Biodiesel production can be achieved through different processes and different reactor t... more Abstract Biodiesel production can be achieved through different processes and different reactor types as well as varying reaction parameters such as catalyst dose, oil: alcohol ratio, reaction time, mixing intensity, free fatty acid content (
Journal of The Taiwan Institute of Chemical Engineers, 2017
Abstract A mesoporous high-surface-area zeolite–activated carbon (Z–AC) composite was prepared by... more Abstract A mesoporous high-surface-area zeolite–activated carbon (Z–AC) composite was prepared by chemically facilitated NaOH activation and hydrothermal treatment with oil palm ash as substrate. The prepared Z–AC composite was characterized by X-ray diffraction, Fourier transform infrared spectroscopy, BET surface area and pore structural analysis, and scanning electron microscopy. The adsorption performance of Z–AC for methylene blue (MB) removal was examined using a batch method. The effects of initial dye concentration (25–400 mg/L), temperature (30 °C–50 °C), and pH (3–13) on the adsorption of MB on Z–AC were studied. Pseudo-second-order kinetics was found to describe the adsorption process better than pseudo-first-order kinetics. Freundlich and Langmuir isotherms applied on the adsorption data reveal that data best fitted Freundlich model. The maximum adsorption capacity values of the Z–AC composite for MB were 143.47, 199.6, and 285.71 mg/g at 30, 40, and 50 °C, respectively. These results show that the Z–AC composite could provide basis for more low-cost composites to be used as adsorbents for dye removal.
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