Multi-phase Flow and Micro-Imaging Lab

T. Li, Schlüter, S., Dragila, M. Ines, and Wildenschild, D., “An improved method for estimating capillary pressure from 3D microtomography images and its application to the study of disconnected nonwetting phase”, Advances in Water Resources, vol. 114, pp. 249 - 260, 2018.

D. E. Meisenheimer and Wildenschild, D., “Incorporating bubble evolution and transport in constitutive relationships for quasi- and non-equilibrium two-phase flows in porous media”, Frontiers in Water, vol. 5, 2023.

S. Ostvar, Iltis, G., Davit, Y., Schlüter, S., Andersson, L., Wood, B. D., and Wildenschild, D., “Investigating the influence of flow rate on biofilm growth in three dimensions using microimaging”, Advances in Water Resources, vol. 117, pp. 1 - 13, 2018.

R. T. Armstrong and Wildenschild, D., “Investigating the pore-scale mechanisms of microbial enhanced oil recovery”, Journal of Petroleum Science and Engineering, vol. 94-95, pp. 155 - 164, 2012.

M. L. Porter, Schaap, M. G., and Wildenschild, D., “Lattice-Boltzmann simulations of the capillary pressure–saturation–interfacial area relationship for porous media”, Advances in Water Resources, vol. 32, no. 11, pp. 1632 - 1640, 2009.

T. R. Ferreira, Pires, L. F., Wildenschild, D., Brinatti, A. M., Borges, J. A. R., Auler, A. C., and Reis, A. M. H. dos, “Lime application effects on soil aggregate properties: Use of the mean weight diameter and synchrotron-based X-ray μCT techniques”, Geoderma, 2018.

S. Katuwal, Norgaard, T., Moldrup, P., Lamandé, M., Wildenschild, D., and de Jonge, L. W., “Linking air and water transport in intact soils to macropore characteristics inferred from X-ray computed tomography”, Geoderma, vol. 237-238, pp. 9 - 20, 2015.

R. T. Armstrong, Porter, M. L., and Wildenschild, D., “Linking pore-scale interfacial curvature to column-scale capillary pressure”, Advances in Water Resources, vol. 46, pp. 55 - 62, 2012.

M. L. Porter, Wildenschild, D., Grant, G., and Gerhard, J. I., “Measurement and prediction of the relationship between capillary pressure, saturation, and interfacial area in a NAPL-water-glass bead system”, Water Resources Research, vol. 46, no. 8, p. n/a - n/a, 2010.

R. T. Armstrong and Wildenschild, D., “Microbial Enhanced Oil Recovery in Fractional-Wet Systems: A Pore-Scale Investigation”, Transport in Porous Media, vol. 92, no. 3, pp. 819 - 835, 2012.

V. Joekar-Niasar, ć, M., Wildenschild, D., and Hassanizadeh, S. M., “Network model investigation of interfacial area, capillary pressure and saturation relationships in granular porous media”, Water Resources Research, vol. 46, no. 6, p. n/a - n/a, 2010.

D. E. MEISENHEIMER, RIVERS, M. L., and Wildenschild, D., “Optimizing pink‐beam fast X‐ray microtomography for multiphase flow in 3D porous media”, Journal of Microscopy, 2020.

K. A. Culligan, Wildenschild, D., Christensen, B. S. B., Gray, W. G., and Rivers, M. L., “Pore-scale characteristics of multiphase flow in porous media: A comparison of air–water and oil–water experiments”, Advances in Water Resources, vol. 29, no. 2, pp. 227 - 238, 2006.

S. Schlüter, Berg, S., Rücker, M., Armstrong, R. T., Vogel, H. - J., Hilfer, R., and Wildenschild, D., “Pore-scale displacement mechanisms as a source of hysteresis for two-phase flow in porous media”, Water Resources Research, vol. 52, no. 3, pp. 2194 - 2205, 2016.

D. E. Meisenheimer and Wildenschild, D., “Predicting the Effect of Relaxation on Interfacial Area Development in Multiphase Flow”, Water Resources Research, vol. 57, no. 3, 2021.

C. L. BRUECK and Wildenschild, D., “A proximity‐based image processing algorithm for colloid assignment in segmented multiphase flow datasets”, Journal of Microscopy, 2020.

T. Deboodt, Ideker, J. H., O. Isgor, B., and Wildenschild, D., “Quantification of synthesized hydration products using synchrotron microtomography and spectral analysis”, Construction and Building Materials, vol. 157, pp. 476 - 488, 2017.

R. Paustian, Andersson, L., Helland, J. Olav, and Wildenschild, D., “On the relationship between capillary pressure, saturation, and interfacial area for three-phase flow in water-wet porous media”, Advances in Water Resources, vol. 151, p. 103905, 2021.

M. Naveed, Moldrup, P., Arthur, E., Wildenschild, D., Eden, M., Lamandé, M., Vogel, H. - J., and de Jonge, L. Wollesen, “Revealing Soil Structure and Functional Macroporosity along a Clay Gradient Using X-ray Computed Tomography”, Soil Science Society of America Journal, vol. 77, no. 2, p. 403, 2013.

L. W. de Jonge, Moldrup, P., Vendelboe, A. L., Tuller, M., and Wildenschild, D., “Soil Architecture and Physicochemical Functions: An Introduction”, Vadose Zone Journal, vol. 11, no. 1, 2012.

R. Kulkarni, Tuller, M., Fink, W., and Wildenschild, D., “Three-Dimensional Multiphase Segmentation of X-Ray CT Data of Porous Materials Using a Bayesian Markov Random Field Framework”, Vadose Zone Journal, vol. 11, no. 1, 2012.

S. Schlüter, Berg, S., Li, T., Vogel, H. - J., and Wildenschild, D., “Time scales of relaxation dynamics during transient conditions in two-phase flow”, Water Resources Research, pp. 4709 - 4724, 2017.

V. Joekar-Niasar, Doster, F., Armstrong, R. T., Wildenschild, D., and Celia, M. A., “Trapping and hysteresis in two-phase flow in porous media: A pore-network study”, Water Resources Research, vol. 49, no. 7, pp. 4244 - 4256, 2013.

S. Svadlenak, Wojcik, S., Ogunlalu, O., Vu, M., Dor, M., Boudouris, B. W., Wildenschild, D., and Goulas, K. A., “Upcycling of polyvinyl chloride to hydrocarbon waxes via dechlorination and catalytic hydrogenation”, Applied Catalysis B: Environmental, vol. 338, p. 123065, 2023.

T. Deboodt, Wildenschild, D., Ideker, J. H., and O. Isgor, B., “Use of iodine for improving phase quantification using x-ray tomography”, Cement and Concrete Research, vol. 116, pp. 102 - 112, 2019.