Person Profile

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  • Datasets 5
  • Publications 4
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Niti R. Agrawal

Graduate Student
University of Maryland / Department of Chemical and Biomolecular Engineering
nitiagr@umd.edu

Molecular Engineering of Food-Grade Dispersants as Highly Efficient and Safe Materials for the Treatment of Oil Spills

RFP-V
Gulf of Mexico Research Initiative (GoMRI)
Dataset Available

Dataset for: Dispersion of oil into water using lecithin-Tween 80 blends: The role of spontaneous emulsification

Authors: Riehm, D.A.; Rokke, D.J.; Paul, P.G.; Lee, HS.; Vizanko, B.S.; McCormick, A.V.
Published On: Oct 14 2016 13:55 UTC
File Format: mp4, tif, docx, txt, xlsx
DOI: 10.7266/N7KW5D2D
UDI: R5.x276.000:0001
File Size: 2.65 GB
Dataset Available

Dataset for: A solvent-free lecithin-Tween 80 system for oil dispersion

Authors: Geoffrey D. Bothun, Joseph Rocchio, John Neilsen, Kyle Everett
Published On: Oct 11 2017 20:54 UTC
File Format: docx, jpg, xlsx, tif
DOI: 10.7266/N7319T8M
UDI: R5.x276.000:0002
File Size: 20.78 MB
Dataset Available

Using microemulsion phase behavior as a predictive model for lecithin-Tween 80 marine oil dispersant effectiveness

Authors: Louis G. Corcoran, Brian Saldana Almaraz, Kamilah Amen, Srini Raghavan, Geoff Bothun, Vijay John, R. Lee Penn, and Alon McCormick
Published On: Jun 11 2020 21:37 UTC
File Format: jpg, xls
DOI: 10.7266/n7-1pwn-md30
UDI: R5.x276.000:0003
File Size: 2.13 GB
Dataset Available

Dataset for: Does the Solvent in a Dispersant Impact the Efficiency of Crude-Oil Dispersion?

Authors: Fernandes, Jay C.; Agrawal, Niti R.; Raghavan, Srinivasa R.
Published On: Feb 11 2020 23:00 UTC
File Format: jpeg, png, xlsx
DOI: 10.7266/PTKX4HDT
UDI: R5.x276.000:0004
File Size: 5.09 MB
Dataset Available

Probing the bacteria-mediated agglomeration of dispersed oil

Authors: Rocchio, Joseph
Published On: Nov 23 2020 17:35 UTC
File Format: xlsx, jpg, tif
DOI: 10.7266/H5HKMC9X
UDI: R5.x276.000:0005
File Size: 7.55 GB

Corcoran, L. G., Saldana Almaraz, B. A., Amen, K. Y., Bothun, G. D., Raghavan, S. R., John, V. T., … Penn, R. L. (2021). Using Microemulsion Phase Behavior as a Predictive Model for Lecithin–Tween 80 Marine Oil Dispersant Effectiveness. Langmuir. doi:10.1021/acs.langmuir.1c00651

Fernandes, J. C., Agrawal, N. R., Aljirafi, F. O., Bothun, G. D., McCormick, A. V., John, V. T., & Raghavan, S. R. (2019). Does the Solvent in a Dispersant Impact the Efficiency of Crude-Oil Dispersion? Langmuir, 35(50), 16630–16639. doi:10.1021/acs.langmuir.9b02184

Riehm, D. A., Rokke, D. J., Paul, P. G., Lee, H. S., Vizanko, B. S., & McCormick, A. V. (2017). Dispersion of oil into water using lecithin-Tween 80 blends: The role of spontaneous emulsification. Journal of Colloid and Interface Science, 487, 52–59. doi:10.1016/j.jcis.2016.10.010

Rocchio, J., Neilsen, J., Everett, K., & Bothun, G. D. (2017). A solvent-free lecithin-Tween 80 system for oil dispersion. Colloids and Surfaces A: Physicochemical and Engineering Aspects. doi:10.1016/j.colsurfa.2017.08.038