Phase equilibrium condition measurements in the clathrate hydrate forming system of (propan-2-ol + carbon dioxide + water) at temperatures between 250.8 K and 265.7 K

Naruki Fukushima; Satoshi Shiratori; Takeshi Makiya; Takashi Murakami; Ryo Ohmura

doi:10.1016/j.jct.2017.07.036

Phase equilibrium condition measurements in the clathrate hydrate forming system of (propan-2-ol + carbon dioxide + water) at temperatures between 250.8 K and 265.7 K

Naruki Fukushima, Satoshi Shiratori, Takeshi Makiya, Takashi Murakami, Ryo Ohmura

Department of Mechanical Engineering

Research output: Contribution to journal › Article › peer-review

7 Citations (Scopus)

Abstract

The phase equilibrium conditions in the (propan-2-ol + carbon dioxide + water) system were measured. The measurements were performed using the batch, isochoric method at the temperatures between 250.8 K and 265.7 K. The equilibrium pressures were measured between 0.275 MPa and 0.995 MPa, and increased with increasing temperatures. Propan-2-ol is known as thermodynamic inhibitor for hydrate formation. However at the temperatures below 262 K, the equilibrium pressures in the (propan-2-ol + carbon dioxide + water) system are lower than those without propan-2-ol (carbon dioxide + water system). The measurements indicate the formation of the hydrates containing propan-2-ol and carbon dioxide in this system.

Original language	English
Pages (from-to)	114-118
Number of pages	5
Journal	Journal of Chemical Thermodynamics
Volume	115
DOIs	https://doi.org/10.1016/j.jct.2017.07.036
Publication status	Published - 2017

Keywords

Alcohol hydrate
Carbon dioxide
Clathrate hydrate
Phase equilibria
Propan-2-ol

ASJC Scopus subject areas

Atomic and Molecular Physics, and Optics
Materials Science(all)
Physical and Theoretical Chemistry

Access to Document

10.1016/j.jct.2017.07.036

Cite this

Phase equilibrium condition measurements in the clathrate hydrate forming system of (propan-2-ol + carbon dioxide + water) at temperatures between 250.8 K and 265.7 K. / Fukushima, Naruki; Shiratori, Satoshi; Makiya, Takeshi et al.
In: Journal of Chemical Thermodynamics, Vol. 115, 2017, p. 114-118.

Research output: Contribution to journal › Article › peer-review

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title = "Phase equilibrium condition measurements in the clathrate hydrate forming system of (propan-2-ol + carbon dioxide + water) at temperatures between 250.8 K and 265.7 K",

abstract = "The phase equilibrium conditions in the (propan-2-ol + carbon dioxide + water) system were measured. The measurements were performed using the batch, isochoric method at the temperatures between 250.8 K and 265.7 K. The equilibrium pressures were measured between 0.275 MPa and 0.995 MPa, and increased with increasing temperatures. Propan-2-ol is known as thermodynamic inhibitor for hydrate formation. However at the temperatures below 262 K, the equilibrium pressures in the (propan-2-ol + carbon dioxide + water) system are lower than those without propan-2-ol (carbon dioxide + water system). The measurements indicate the formation of the hydrates containing propan-2-ol and carbon dioxide in this system.",

keywords = "Alcohol hydrate, Carbon dioxide, Clathrate hydrate, Phase equilibria, Propan-2-ol",

author = "Naruki Fukushima and Satoshi Shiratori and Takeshi Makiya and Takashi Murakami and Ryo Ohmura",

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AU - Shiratori, Satoshi

AU - Makiya, Takeshi

AU - Murakami, Takashi

AU - Ohmura, Ryo

PY - 2017

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N2 - The phase equilibrium conditions in the (propan-2-ol + carbon dioxide + water) system were measured. The measurements were performed using the batch, isochoric method at the temperatures between 250.8 K and 265.7 K. The equilibrium pressures were measured between 0.275 MPa and 0.995 MPa, and increased with increasing temperatures. Propan-2-ol is known as thermodynamic inhibitor for hydrate formation. However at the temperatures below 262 K, the equilibrium pressures in the (propan-2-ol + carbon dioxide + water) system are lower than those without propan-2-ol (carbon dioxide + water system). The measurements indicate the formation of the hydrates containing propan-2-ol and carbon dioxide in this system.

AB - The phase equilibrium conditions in the (propan-2-ol + carbon dioxide + water) system were measured. The measurements were performed using the batch, isochoric method at the temperatures between 250.8 K and 265.7 K. The equilibrium pressures were measured between 0.275 MPa and 0.995 MPa, and increased with increasing temperatures. Propan-2-ol is known as thermodynamic inhibitor for hydrate formation. However at the temperatures below 262 K, the equilibrium pressures in the (propan-2-ol + carbon dioxide + water) system are lower than those without propan-2-ol (carbon dioxide + water system). The measurements indicate the formation of the hydrates containing propan-2-ol and carbon dioxide in this system.

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KW - Clathrate hydrate

KW - Phase equilibria

KW - Propan-2-ol

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