Jing-fan Xu scite author profile

Jing-fan Xu

2Publications

16Citation Statements Received

111Citation Statements Given

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Southwest Petroleum University

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Effects of SDS and SDBS on CO₂Hydrate Formation, Induction Time, Storage Capacity and Stability at 274.15 K and 5.0 MPa

Jiang

et al. 2016

ChemistrySelect

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The CO2 hydratetechnology is growing in relative to CO2 capture, storage and transportation processes. An experimental investigation on CO2 hydrate formation in case of SDS (Sodium dodecyl sulfate) and SDBS (Sodium dodecyl benzene sulfonate) with seven concentrationsi. e.0, 0.1, 0.2, 0.3, 0.4, 0.5 and 0.6 g/L was conducted at temperature of 274.15 K and initial pressure of 5.0 MPa. It was found that SDS and SDBS surfactants havelittleinfluence on the total moles of gas consumed in the stirred reactor. The induction time of CO2hydrate formation was approximately 35 minsinboth of 0.5 g/L SDS and 0.3 g/L SDBS solution,while that was 50 minsin pure water. Although the surfactantsreduced the CO2hydrate induction time significantly, they did not show clear influence on the gas storage capacities. The maximum gas storage capacities of CO2 hydrate in pure water, SDS and SDBS aqueous solutions are 89.62, 92.67, 92.62 V/VH, respectively. The difference in decomposition time of CO2 hydrate formed in pure water, SDS and SDBS solutions indicates that SDS and SDBScan greatly enhance the stability of CO2 hydrate.

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Preparation of WO₃/CNT catalysts in presence of ionic liquid [C₁₆mim]Cl and catalytic efficiency in oxidative desulfurization

Wang

et al. 2019

J of Chemical Tech & Biotech

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BACKGROUND With the strict regulation for environmental protection, the removal of sulfur compounds from fuels is becoming more and more urgent. Hydrodesulfurization is one of the most widely used technologies in chemical industry, but its application is limited because of the harsh reaction conditions and the low efficiency in removal of aromatic organic sulfide. In this work, catalysts consisting of tungsten trioxide immobilized on carbon nanotubes (WO3/CNT) in the presence of ionic liquid [C16mim]Cl were prepared for the oxidative desulfurization of aromatic organic sulfide. RESULTS The catalysts were systematically characterized by TG‐DSC, XRD, UV–visible, FTIR, Raman, SEM, TEM, XPS and BET. The dispersion of CNT and the crystal phase of WO3 on the carrier (CNT) were changed in the presence of ionic liquid [C16mim]Cl. The WO3 exists in tetrahedral form when the mass ratio of [C16mim]Cl to CNT is 2. The WO3/CNT catalyst demonstrates better activity in the oxidative desulfurization system, with the removal of dibenzothiophene (DBT) reaching 90.73% under optimal conditions. The oxidation process of DBT follows pseudo‐first‐order kinetics, and the activation energy is about 29.69 kJ mol−1. Dibenzothiophene sulfone (DBTO2) was determined to be the oxidative product of DBT. CONCLUSION The results illustrated that the oxidative desulfurization efficiency of different forms of WO3 loaded on the same carrier (CNT) followed the order tetrahedral WO3 > tetragonal phase WO3 > monoclinic phase WO3. © 2019 Society of Chemical Industry

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Jing-fan Xu

Effects of SDS and SDBS on CO₂Hydrate Formation, Induction Time, Storage Capacity and Stability at 274.15 K and 5.0 MPa

Preparation of WO₃/CNT catalysts in presence of ionic liquid [C₁₆mim]Cl and catalytic efficiency in oxidative desulfurization

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Jing-fan Xu

Effects of SDS and SDBS on CO2Hydrate Formation, Induction Time, Storage Capacity and Stability at 274.15 K and 5.0 MPa

Preparation of WO3/CNT catalysts in presence of ionic liquid [C16mim]Cl and catalytic efficiency in oxidative desulfurization

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Effects of SDS and SDBS on CO₂Hydrate Formation, Induction Time, Storage Capacity and Stability at 274.15 K and 5.0 MPa

Preparation of WO₃/CNT catalysts in presence of ionic liquid [C₁₆mim]Cl and catalytic efficiency in oxidative desulfurization