Hiroaki Hayama scite author profile

Hiroaki Hayama

5Publications

56Citation Statements Received

70Citation Statements Given

How they've been cited

104

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Affiliations

Keio University

Publications

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Surfactant Effects on Crystal Growth Dynamics and Crystal Morphology of Methane Hydrate Formed at Gas/Liquid Interface

Hayama

Mitarai

Mori

et al. 2016

Crystal Growth & Design

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This paper presents visual observations aiming to clarify the underlying physics of surfactant effects on clathrate hydrate crystal growth at the interface between methane gas and water with surfactant. Sodium dodecyl sulfate (SDS), which is commonly used in industrial processes, was used in this study. Various SDS mass fractions from 0 to w SDS = 100 ppm with a step of size 10 ppm were examined, where w SDS represents the mass fraction of SDS aqueous solution. The crystal growth behavior and the crystal morphology of the methane hydrate at the interface varied depending on surfactant concentration and ΔT sub. In systems with w SDS ≤ 20 ppm, the nucleation occurred on the droplet surface (gas/liquid interface), then grew laterally, and finally covered the whole droplet surface. On the contrary, at w SDS ≥ 30 ppm, the droplet shape was not maintained and enhanced hydrate crystal growth was observed compared to those systems with w SDS ≤ 20 ppm. Individual hydrate crystals at w SDS = 20 ppm were observed to be smaller than those in a pure water system at a given ΔT sub, which is ascribed to the enhanced hydrate nucleation by the addition of SDS.

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Interfacial tension between (methane+ethane+propane) gas mixture and water from 283.2K to 298.2K under up to 10MPa

Hayama

Fukuzawa

Yasuda

et al. 2017

The Journal of Chemical Thermodynamics

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Crystal growth of ionic semiclathrate hydrate formed at interface between CO2+N2 gas mixture and tetrabutylammonium bromide aqueous solution

Hayama

Akiba²,

Asami³

et al. 2016

Korean J. Chem. Eng.

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This study reports a visual observation of the formation and growth of ionic semiclathrate hydrate on the surface of a Tetrabutylammonium bromide (TBAB) aqueous solution and CO 2 +N 2 gas mixture. The composition of CO 2 +N 2 gas mixture was 20 : 80. The experimental temperature range was from 280 K to 290 K, under the pressures of 2.3 MPa and 4.7 MPa, at w TBAB =0.10 and w TBAB =0.40, where w TBAB denotes the mass fraction of TBAB in the aqueous solution. At w TBAB =0.40, the hydrate crystals were initially observed to grow within the droplet, and followed by lateral growth at the droplet surface; but at w TBAB =0.10, the hydrate crystals grew exclusively in the liquid phase and did not cover the droplet surface. Two types of different crystals with different sizes were clearly observed.

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Methane Hydrate Crystal Growth At the Gas/Liquid Interface in the Presence of Sodium Dodecyl Sulfate

Hayama

Mitarai

Mori

et al. 2016

Procedia Engineering

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G121 Surfactant Effects on Crystal Growth of Clathrate Hydrate

Hayama

Mitarai

Mori

et al. 2015

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Hiroaki Hayama

Surfactant Effects on Crystal Growth Dynamics and Crystal Morphology of Methane Hydrate Formed at Gas/Liquid Interface

Interfacial tension between (methane+ethane+propane) gas mixture and water from 283.2K to 298.2K under up to 10MPa

Crystal growth of ionic semiclathrate hydrate formed at interface between CO2+N2 gas mixture and tetrabutylammonium bromide aqueous solution

Methane Hydrate Crystal Growth At the Gas/Liquid Interface in the Presence of Sodium Dodecyl Sulfate

G121 Surfactant Effects on Crystal Growth of Clathrate Hydrate

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