Sukumar Laik scite author profile

In this study, ethane hydrates were produced in the presence of a surfactant to investigate the effect of a surfactant on hydrate formation and dissociation. The hydrate formation rate increases with the surfactant concentration above the critical micelle concentration. The gas storage capacities in the presence of a surfactant were calculated at the system pressure and temperature. The dissociation behaviors of hydrates were also studied. The dissociation of hydrates increases with the surfactant concentration under similar operating pressure and temperature.

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Biosurfactant as a Promoter of Methane Hydrate Formation: Thermodynamic and Kinetic Studies

Arora

Cameotra

Kumar

et al. 2016

Sci Rep

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Natural gas hydrates (NGHs) are solid non-stoichiometric compounds often regarded as a next generation energy source. Successful commercialization of NGH is curtailed by lack of efficient and safe technology for generation, dissociation, storage and transportation. The present work studied the influence of environment compatible biosurfactant on gas hydrate formation. Biosurfactant was produced by Pseudomonas aeruginosa strain A11 and was characterized as rhamnolipids. Purified rhamnolipids reduced the surface tension of water from 72 mN/m to 36 mN/m with Critical Micelle Concentration (CMC) of 70 mg/l. Use of 1000 ppm rhamnolipids solution in C type silica gel bed system increased methane hydrate formation rate by 42.97% and reduced the induction time of hydrate formation by 22.63% as compared to water saturated C type silica gel. Presence of rhamnolipids also shifted methane hydrate formation temperature to higher values relative to the system without biosurfactant. Results from thermodynamic and kinetic studies suggest that rhamnolipids can be applied as environment friendly methane hydrate promoter.

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Promoting effect of Al2O3/ZnO-based nanofluids stabilized by SDS surfactant on CH4+C2H6+C3H8 hydrate formation

Kakati

Mandal

Laik

2016

Journal of Industrial and Engineering Chemistry

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Methane hydrate formation and dissociation in synthetic seawater

Saw¹,

Ahmad²,

Mandal³

et al. 2012

Journal of Natural Gas Chemistry

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Effect of SDS/THF on thermodynamic and kinetic properties of formation of hydrate from a mixture of gases (CH4+C2H6+C3H8) for storing gas as hydrate

Kakati

Mandal

Laik

2016

Journal of Energy Chemistry

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Sukumar Laik

Effect of the Promoter on Gas Hydrate Formation and Dissociation

Biosurfactant as a Promoter of Methane Hydrate Formation: Thermodynamic and Kinetic Studies

Promoting effect of Al2O3/ZnO-based nanofluids stabilized by SDS surfactant on CH4+C2H6+C3H8 hydrate formation

Methane hydrate formation and dissociation in synthetic seawater

Effect of SDS/THF on thermodynamic and kinetic properties of formation of hydrate from a mixture of gases (CH4+C2H6+C3H8) for storing gas as hydrate

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