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Experimental Measurement of Speeds of Sound in Dense Supercritical Carbon Monoxide and Development of a High-Pressure, High-Temperature Equation of State
- Source :
- The Journal of Physical Chemistry B. 117:5675-5682
- Publication Year :
- 2013
- Publisher :
- American Chemical Society (ACS), 2013.
-
Abstract
- We report the adiabatic sound speeds for super- critical fluid carbon monoxide along two isotherms, from 0.17 to 2.13 GPa at 297 K and from 0.31 to 3.2 GPa at 600 K. The carbon monoxide was confined in a resistively heated diamond-anvil cell, and the sound speed measurements were conducted in situ using a recently reported variant of the photoacoustic light scattering effect. The measured sound speeds were then used to parametrize a single site dipolar exponential-6 intermolecular potential for carbon monoxide. PρT thermodynamic states, sound speeds, and shock Hugoniots were calculated using the newly parametrized intermolecular potential and compared to previously reported experimental results. Additionally, we generated an analytical equation of state for carbon monoxide by fitting to a grid of calculated PρT states over a range of 0.1−10 GPa and 150−2000 K. A 2% mean variation was found between computed high- pressure solid-phase densities and measured dataa surprising result for a spherical interaction potential. We further computed a rotationally dependent fluid to β-solid phase boundary; results signal the relative magnitude of short-range rotational disorder under conditions that span existing phase boundary measurements.
- Subjects :
- Carbon Monoxide
Phase boundary
Equation of state
Shock (fluid dynamics)
Temperature
Thermodynamics
Light scattering
Supercritical fluid
Surfaces, Coatings and Films
chemistry.chemical_compound
chemistry
Speed of sound
Pressure
Materials Chemistry
Physical and Theoretical Chemistry
Adiabatic process
Carbon monoxide
Subjects
Details
- ISSN :
- 15205207 and 15206106
- Volume :
- 117
- Database :
- OpenAIRE
- Journal :
- The Journal of Physical Chemistry B
- Accession number :
- edsair.doi.dedup.....a96d7993dc3c293ea1318778b515cb06