Vapor–Liquid Equilibria of Mixtures Containing Ethanol, Oxygen, and Nitrogen at Elevated Pressure and Temperature, Measured with In Situ Raman Spectroscopy in Microcapillaries

Abstract: Ethanol and oxygen containing gases are mixed in a T-junction at elevated pressure and then passed into a fused silica microcapillary, located in a heating block. Inside the microcapillary a Taylor flow of alternating liquid and vapor segments is formed. The thermodynamic equilibrium composition of the liquid and vapor segment depends on pressure and temperature. Their compositions are measured inside the microcapillary using in situ Raman spectroscopy. The main results obtained therefro… Show more

“…In this study, we used molecular dynamics simulations (see Appendix) to conduct preliminary evaluations of the storage efficiency of CO 2 -N 2 -O 2 mixtures. Although the behavior of this mixture has been studied at lower temperatures [17][18][19] or other compositions, 20 low-purity CO 2 (N CO2 /N total < 0.9) into a shallow formation (∼1000 m depth) is not efficient (Fig 2a); The density of CO 2 largely decreases with decreasing purity of CO 2 because this condition is close to the phase transition between gas and supercritical phase. On the other hand, in a deeper reservoir (Figs 2c and 2e), the CO 2 has a higher density and is more efficiently stored in limited pore space.…”

Geological storage of CO₂–N₂–O₂ mixtures produced by membrane‐based direct air capture (DAC)

“…In this study, we used molecular dynamics simulations (see Appendix) to conduct preliminary evaluations of the storage efficiency of CO 2 -N 2 -O 2 mixtures. Although the behavior of this mixture has been studied at lower temperatures [17][18][19] or other compositions, 20 low-purity CO 2 (N CO2 /N total < 0.9) into a shallow formation (∼1000 m depth) is not efficient (Fig 2a); The density of CO 2 largely decreases with decreasing purity of CO 2 because this condition is close to the phase transition between gas and supercritical phase. On the other hand, in a deeper reservoir (Figs 2c and 2e), the CO 2 has a higher density and is more efficiently stored in limited pore space.…”

Geological storage of CO₂–N₂–O₂ mixtures produced by membrane‐based direct air capture (DAC)

“…The Raman spectrum of a sample originates from an inelastic light/matter-interaction, which is referred to as Raman scattering. The Raman spectrum contains valuable information about the sample, such as its chemical composition [1][2][3], its temperature [4][5][6], its polymorphism [7][8][9], its heterogeneity and -with respect to medicine or biology -also the histopathological state of human, animalistic or herbal tissue [10][11][12]. Optical fibers play a pivotal role for making Raman measurements possible deep inside the body, remotely or in hardly accessible or hazardous environments [13,14].…”

“…It is true that the information-rich finger print region (0-1800 cm -1 ) of the Raman spectrum is still detectable with this configuration! But there are many examples, let it be in medicine [15][16][17] or in process engineering [3,18,19], where most interesting information was extracted not from the finger-print region, but from the spectral range exceeding 1800 cm -1 . Remember that this spectral range is not detectable with silicon-based detectors in the case of NIR excitation wavelengths.…”

Raman Fiber Bundle Probe of Individually Filter-Coated Fibers

“…Andreas Bräuer, two optical fibers and an Ocean View Qepro spectrometer. The Raman gun units optical parts for excitation and detection are described in detail in several publications (Braeuer, 2018;Fechter and Braeuer, 2020).…”

“…The mixing of water and model compound streams is placed in the T-junction located prior to the heating block. A detailed explanation of the system can be found elsewhere (Fechter and Braeuer, 2020).…”

Lignin valorization using supercritical water technology