Masoumeh M. Mirzaeian scite author profile

Sulfur compounds are one of the major problems and undesirable contaminants in the oil and gas industries. To address this issue, mercaptan removal from the gas stream in a fixed bed reactor under nanocatalyst was investigated. In this work, meso-tetrakis (4-carboxyphenyl) porphyrinatoiron (III) chloride-supported graphene oxide [GO-FeTCPP (Cl)] nanocatalyst was synthesized and adsorption of mercaptan on nanocatalyst was studied. Fourier-transform infrared spectroscopy (FT-IR), scanning electron microscopy (SEM), X-ray diffraction (XRD), BET, and Raman spectroscopy analysis were used to characterize the nanocatalyst. This experiment investigated how temperature and Gas Hour Space Velocity (GHSV) parameters affect the mercaptan removal in presence of nanocatalyst. The research results confirmed that the reaction rate improves with increasing temperature and decreasing GHSV. According to the results, at 100 °C and GHSV of 1000 h −1 , the maximum conversion (~ 96%) of reaction was reached.

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Synthesis of disodium phosphonate functionalized graphene oxide as an efficient heterogeneous nanocatalyst for mercaptan removal from the gas stream

Mirzaeian¹,

Rashidi²,

Zare³

2019

Funct. Mater. Lett.

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Mercaptans are commonly present in natural gas. Their high corrosiveness make them the most undesirable sulfur compounds, so they should be removed because of harmful effects on the environment. Disodium phosphonate functionalized graphene oxide (GO-P(Na)2) nanocatalyst was synthesized and adsorption of mercaptan on nanocatalyst was studied in this work. The nanocatalyst was characterized using Fourier transform infrared spectroscopy (FTIR), X-ray diffraction (XRD), scanning electron microscopy (SEM) and Raman spectroscopy analysis. The experiments were carried out in a fixed-bed reactor and the effect of temperature and Gas Hour Space Velocity (GHSV) parameters on mercaptan removal under nanocatalyst were investigated, demonstrating that increasing the temperature and decreasing the GHSV improves the rate of the reaction. Moreover, the kinetic parameters relevant to catalytic reaction for mercaptan removal under nanocatalyst were reported. The experimental results displayed that the maximum of mercaptan removal was obtained under GO-P(Na)2 nanocatalyst at the temperature of 100∘C and GHSV of 1000[Formula: see text]h[Formula: see text]. The concentration of output mercaptan under nanocatalyst reduced from 16,800[Formula: see text]ppm to less than 25[Formula: see text]ppm.

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Masoumeh M. Mirzaeian

Mercaptan removal from natural gas using carbon nanotube supported cobalt phthalocyanine nanocatalyst

Synthesis of carbon nanotube-supported metallo carboxyporphyrin as a novel nanocatalyst for the mercaptan removal

Synthesis of graphene oxide-supported meso-tetrakis (4-carboxyphenyl) porphyrinatoiron (III) chloride as a heterogeneous nanocatalyst for the mercaptan removal from the gas stream

Synthesis of disodium phosphonate functionalized graphene oxide as an efficient heterogeneous nanocatalyst for mercaptan removal from the gas stream

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