Analytic Setup for Multicomponent High‐Pressure Phase Equilibria via Dual Online Gas Chromatography

Fourie, Frederick Christiaan van Niekerk; Schwarz, Cara E.; Knoetze, J.H.

doi:10.1002/ceat.201400643

Cited by 10 publications

(26 citation statements)

References 23 publications

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“…Pressure is measured with an ONEhalf20 melt transmitter. Refer to Fourie et al 9 for more detail on the apparatus. The materials listed in Tab.…”

Section: Methodsmentioning

confidence: 99%

“… GC configuration: (BV) ball valve; (C 1 , C 2 ) DB‐1, l = 30 m, ø = 0.53 mm, film = 1.5 µm; (C 3 ) HP‐PLOT/Q, l = 15 m, ø = 0.53 mm, film = 40 µm; (C 4 ) HP‐PLOT/Q, l = 30 m, ø = 0.53 mm, film = 40 µm; (EPC) carrier gas control; (HB) heated valve box; (R) ROLSI™; (SSL) split‐splitless inlet; (TT) transfer tubing; (V) 4‐port valve; broken lines: temperature‐controlled regions [a], [b], and [c]; reproduced from 9. …”

Section: Gc Analysismentioning

confidence: 99%

“…This approach enables concurrent liquid‐ and vapor‐phase analysis for mixture species ranging from light gases to mid‐length hydrocarbons. Method parameters are tabulated in Fourie et al 9. Split and septum purge flow affect the success of this GC method: The effective split ratio is dependent on split vent flow (Fig.…”

Section: Gc Analysismentioning

confidence: 99%

“…Different functional groups, isomerism, and solute‐solute interactions have been investigated as factors affecting system behavior 7, 8. Within this project, an analytic apparatus to measure multicomponent high‐pressure phase equilibria via online gas chromatography (GC) was developed 9. This apparatus is currently used to study ternary mixtures comprising CO 2 and the solutes n ‐dodecane ( n C 12 ), 3,7‐dimethyl‐1‐octanol (37DM1O), and 1‐decanol (C 10 OH).…”

Section: Introductionmentioning

confidence: 99%

“…The objective of this paper is threefold. Firstly, the experimental procedure from Fourie et al 9 is expanded with an emphasis on the sampling procedure and optimum sample size. Secondly, online GC analysis is covered in detail.…”

Section: Introductionmentioning

confidence: 99%

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Analytic High‐Pressure Phase Equilibria. Part II: Gas Chromatography and Sampling Method Development

2016

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The phase equilibria of supercritical CO 2 -alkane-alcohol mixtures were studied using online gas chromatography. Gas chromatograph design criteria and quantitative detector calibration methods are presented. An adapted manual calibration injection technique eliminated liner overload and pressure wave effects. Observation of the cell contents has proven essential for accurate vapor phase sampling. Visuals, often not visible to the naked eye, show that sampling can disrupt an equilibrated high-pressure system even though pressure and temperature remain constant within 0.1 bar and 0.01°C. Such disruptions may manifest in one of three phenomena: global mist formation, localized mist formation, or no-warning droplet formation.

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“…Pressure is measured with an ONEhalf20 melt transmitter. Refer to Fourie et al 9 for more detail on the apparatus. The materials listed in Tab.…”

Section: Methodsmentioning

confidence: 99%

Section: Gc Analysismentioning

confidence: 99%

Section: Gc Analysismentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Analytic High‐Pressure Phase Equilibria. Part II: Gas Chromatography and Sampling Method Development

2016

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Phase Behavior of Isobutane + CO2 and Isobutane + H2 at Temperatures Between 190 and 400 K and at Pressures Up to 20 MPa

Latcham,

Trusler

2023

Int J Thermophys

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Mixtures containing isobutane, carbon dioxide, and/or hydrogen are found in various industrial processes, green refrigerant systems, and the growing hydrogen industry. Understanding the thermophysical properties of these mixtures is essential for these processes, and depends on reliable experimental data. Making use of an automated static-analytical apparatus, measurements were made of the phase behavior of binary mixtures of isobutane with CO2 and with H2, extending the range of available data for both mixtures. Measurements of the system isobutane + CO2 were carried out along three isotherms at temperatures of (240, 280, and 310) K with pressures from the lower limit of the sampling system (~ 0.5 MPa) to the mixture critical pressure. The results exhibit good agreement with literature data. Measurements on isobutane + H2 were carried out along nine isotherms at temperatures of (190, 240, 280, 311, 339, 363, 375, 390, and 400) K with pressures up to 20 MPa, covering a much broader range of conditions than the one prior investigation. The results have been used to optimize temperature-dependent binary parameters in the Peng–Robinson equation of state with two different mixing rules. This approach was found to perform well in comparison to alternative models.

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High-pressure fluid-phase equilibria: Experimental methods, developments and systems investigated (2013–2016)

Dohrn,

Peper,

Secuianu

et al. 2024

Fluid Phase Equilibria

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Analytic Setup for Multicomponent High‐Pressure Phase Equilibria via Dual Online Gas Chromatography

Cited by 10 publications

References 23 publications

Analytic High‐Pressure Phase Equilibria. Part II: Gas Chromatography and Sampling Method Development

Analytic High‐Pressure Phase Equilibria. Part II: Gas Chromatography and Sampling Method Development

Phase Behavior of Isobutane + CO2 and Isobutane + H2 at Temperatures Between 190 and 400 K and at Pressures Up to 20 MPa

High-pressure fluid-phase equilibria: Experimental methods, developments and systems investigated (2013–2016)

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