Evaluating Diffusivity of Toluene in Heavy Oil Using Nuclear Magnetic Resonance Imaging

Fayazi, Amir; Kryuchkov, Sergey; Kantzas, Apostolos

doi:10.1021/acs.energyfuels.6b02464

Cited by 24 publications

(28 citation statements)

References 43 publications

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“…The method, which is based on the neutron imaging of a cell containing a deuterated liquid upon its pressurization with a gas containing protium in its molecule, proved the ability to provide information on the methane diffusion into liquid, its swelling and capillarity from the single experiment in one pot. Hence, our new method enabled to collectively observe quantities, which could otherwise be studied only using multiple single-purpose methods, such as those for the visualization and measurement of diffusion in liquids [10,11,18,21,22,32,33,[35][36][37][38][39]41], measurement of capillarity [16][17][18][24][25][26][27][28][29][30][31] and liquid density [7,8,23]. Our method provided values of methane diffusivity and partial molar volume, liquid density of the solution, surface tension and its pressure derivative and contact angle at titanium under harsh conditions, while the observed quantities showed good agreement with the literature data where literature data or methods for their prediction are available [6-8, 10, 11, 13, 14, 16, 25, 26, 53, 54, 74, 81].…”

Section: Discussionmentioning

confidence: 99%

“…Recently, several advanced methods allowing for the observation of mass transport in bulk bodies have been reported. These methods involve the detection based on i) Raman spectroscopy, which was used to characterize diffusion in liquids and liquids at pressures near atmospheric [32,33] and the distribution of methane in methane hydrate at pressures up to 140 bar [34], ii) dynamic light scattering, which was used for the studies of diffusion of gases in liquids at pressures up to 34 bar [35], iii) Nuclear Magnetic Resonance (NMR), which was used for the studies on diffusion in liquids at pressures close to atmospheric [36][37][38], propane diffusion in liquids at pressures up to 10 bar [39] or methane distribution in methane hydrate at pressures up to 250 bar [40], iv) X-ray tomography, which was used for the studies on diffusion in liquids at pressures near atmospheric [38,41] and methane hydrate formation at pressures up to 62 bar [42], and, most recently, v) neutron imaging, which was used for the observation of ammonium absorption in solids at pressures near atmospheric [43].…”

Section: Introductionmentioning

confidence: 99%

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One-pot neutron imaging of surface phenomena, swelling and diffusion during methane absorption in ethanol and n-decane under high pressure

et al. 2020

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We report a powerful method for capturing the time-resolved concentration profiles, liquid swelling and surface phenomena during the absorption of methane (CH 4) in still liquid ethanol (C 2 D 6 O) and n-decane (n-C 10 D 22) and at high spatial resolution (pixel size 21.07 μm) using neutron imaging. Absorption of supercritical methane was followed at two temperatures and two pressures of methane, namely 7.0, 37.8˚C and 80, 120 bar. Fick's second law, which was used in the liquid-fixed coordinates, enabled for an adequate parameterization of the observed concentration profiles and liquid levels using simple analytical expressions. For both studied liquids, anomalously slow diffusion was observed in the initial stage of the absorption experiment. This was ascribed to the slow formation of the surface excess on the interface, time constant ranged 130-275 s. The axial symmetry of the cell allowed for the tomographic reconstructions of the profiles of the menisci. Based on these profiles, contact angle and surface tension were evaluated using the Young-Laplace equation. Overall, neutron imaging made it possible to capture time-and space-resolved information from which the methane concentration, liquid level and meniscus shape under high-pressure conditions inside a cylindrical titanium vessel were quantitatively derived. Multiple characteristics of ethanol, a methane hydrate inhibitor, and n-decane, a model constituent of crude oil, were thus measured for the first time under industrially relevant conditions in a one-pot experiment.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

One-pot neutron imaging of surface phenomena, swelling and diffusion during methane absorption in ethanol and n-decane under high pressure

et al. 2020

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“…Nuclear Magnetic Resonance (NMR) technology has been utilized in the oil and gas industry for core analysis, fluid characterization, and logging applications via relaxation measurements. 18 NMR imaging or MRI expands the realm of NMR by providing the spatial variability considerations (more details in ref 19). These spatiotemporal data are useful to establish the concentration profiles which can be employed for computation of concentration-dependent diffusivity.…”

Section: Theorymentioning

confidence: 99%

Determining Diffusivity, Solubility, and Swelling in Gaseous Solvent–Heavy Oil Systems

Fayazi

Kantzas

2019

Ind. Eng. Chem. Res.

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The values of the diffusion coefficient, swelling, and solubility are frequently required for designing processes which involve contact of various gases with liquids. Solubility determines the capacity of a liquid phase to dissolve gas, diffusivity controls the rate and extent of mass transfer, and swelling is the amount of volume change due to gas dissolution. Accurate estimation of these parameters by reliable and practical techniques is of continuing interest. In this study, 1D magnetic resonance imaging (MRI) is coupled with a numerical model to evaluate the diffusivity of gaseous solvents in heavy oil with a moving boundary condition. Diffusion tests are conducted for various solvents (dimethyl ether, propane, ethane, and carbon dioxide) under constant pressure and temperature inside a closed pressure volume temperature (PVT) cell. Spatial and temporal signal amplitudes are acquired during the diffusion tests which are further analyzed to obtain the concentration profiles and calculate the concentration-dependent diffusion coefficients using the measured correlation between the signal amplitude and solvent content. Oil swelling is found by tracking the gas−liquid interface and solubility is calculated by PVT analysis. Finally, the diffusivity results are compared with the pressure decay method considering both equilibrium and quasi-equilibrium boundary conditions.

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“…Such information can be collected using a nondestructive method that involves application of CT, 47−53 NMR, 54 or MRI. 55 To implement this method, a cylindrical aluminum cylinder with the inner diameter of 5.07 cm was used as a test reservoir. Approximately half of this cylinder was filled with the liquid Peace River bitumen (ρ ≈ 1010 kg/m 3 , μ ≈ 55000 mPa•s), and then the selected gas was pumped above the liquid zone.…”

Section: Application To Bitumen−dimethyl Ether Binary Systemmentioning

confidence: 99%

“…To provide the estimation of the diffusion of dissolved gases into liquids the volume concentration information has to be collected. Such information can be collected using a nondestructive method that involves application of CT, − NMR, or MRI . To implement this method, a cylindrical aluminum cylinder with the inner diameter of 5.07 cm was used as a test reservoir.…”

Section: Application To Bitumen–dimethyl Ether Binary Systemmentioning

confidence: 99%

Estimation of Gas Absorption and Diffusion Coefficients for Dissolved Gases in Liquids

Babak

Kantzas

2018

Ind. Eng. Chem. Res.

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The multifaceted process of gas absorption and diffusion of dissolved gases has several useful applications in engineering, medicine, pharmaceutics, and science. A new systematic study for modeling of this process using an inverse problem for concentration dependent diffusion with free boundary at the gas−liquid interface is presented in this work. The study includes the model derivation based on the Fick's second law of diffusion, the Henry's absorption law, the Stefan's principles of free boundary problems, and the development of new techniques for estimation of concentration dependent diffusion coefficient and the gas absorption coefficient governing propagation of gas−liquid interface due to absorption. The developed estimation technique utilized the dissolved gas concentration profiles measured and different time moments and is applied to real X-ray CT measurement data for a binary gas liquid mixture containing dimethyl ether and bitumen.

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Evaluating Diffusivity of Toluene in Heavy Oil Using Nuclear Magnetic Resonance Imaging

Cited by 24 publications

References 43 publications

One-pot neutron imaging of surface phenomena, swelling and diffusion during methane absorption in ethanol and n-decane under high pressure

One-pot neutron imaging of surface phenomena, swelling and diffusion during methane absorption in ethanol and n-decane under high pressure

Determining Diffusivity, Solubility, and Swelling in Gaseous Solvent–Heavy Oil Systems

Estimation of Gas Absorption and Diffusion Coefficients for Dissolved Gases in Liquids

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