Find a detailed list of publications at each of the category links below:

Improving Safety through Rapid Detection & In Situ Characterization


Mark-Moser, M.; Miller, R.; Rose, K.; Bauer, J.; Disenhof, C. Detailed Analysis of Geospatial Trends of Hydrocarbon Accumulations, Offshore Gulf of Mexico; NETL-TRS-13-2018; NETL Technical Report Series; U.S. Department of Energy, National Energy Technology Laboratory: Albany, OR, 2018; p 108. DOI: 10.18141/1461471.

Rose, K.; Bauer, J. R.; Mark-Moser, M. Subsurface Trend Analysis, a Multi-Variate Geospatial Approach for Subsurface Evaluation and Uncertainty Reduction. Submitted to Interpretation, in review.


Tost, B.; Rose, K.; Aminzadeh, F.; Ante, M. A.; Huerta, N. Kick Detection at the Bit: Early Detection via Low Cost Monitoring; NETL-TRS-2-2016; EPAct Technical Report Series; U.S. Department of Energy, National Energy Technology Laboratory: Albany, OR, 2016; p. 48.


Levine, J. S.; Haljasmaa, I.; Lynn, R.; Shaffer, F.; Warzinski, R. P. Detection of Hydrates on Gas Bubbles during a Subsea Oil/Gas Leak; NETL-TRS-6-2015; EPAct Technical Report Series; U.S. Department of Energy, National Energy Technology Laboratory: Pittsburgh, PA, 2015; p 44.

Shaffer, F.; Savas, Ö.; de Vera, G.; Lee, K. Determining the discharge rate from a submerged oil leak jet using ROV video. Flow Measurement and Instrumentation 2015, 43, 34–46.


Lynn, R. J.; Haljasmaa, I. V.; Shaffer, F.; Warzinski, R. P.; Levine, J. S. A Pitot tube system for obtaining water velocity profiles with millimeter resolution in devices with limited optical access. Flow Measurement and Instrumentation 2014, 40, 50–57.

Warzinski, R. P.; Lynn, R.; Haljasmaa, I.; Leifer, I.; Shaffer, F.; Anderson, B. J.; Levine, J. S. Dynamic morphology of gas hydrate on a methane bubble in water: Observations and implications for hydrate film models. Geophysical Research Letters 2014, 41, 6841–6847.

Zhao, L.; Boufadel, M. C.; Socolofsky, S. A.; Adams, E.; King, T.; Lee, K. Evolution of droplets in subsea oil and gas blowouts: Development and validation of the numerical model VDROP-J. Marine Pollution Bulletin 2014, 83, 58–69.

Zhao, L.; Torlapati, J.; Boufadel, M. C.; King, T.; Robinson, B.; Lee, K. VDROP: A numerical model for the simulation of droplet formation from oils of various viscosities. Chem. Eng. J. 2014, 253, 93–106.


Anderson, K.; Bhatnagar, G.; Crosby, D.; Hatton, G.; Manfield, P.; Kuzmicki, A.; Fenwick, N.; Pontaza, J.; Wicks, M.; Socolofsky, S.; Brady, C.; Svedeman, S.; Sum, A. K.; Koh, C.; Levine, J.; Warzinski, R. P.; Shaffer, F. Hydrates in the Ocean Beneath, Around, and Above Production Equipment. Energy Fuels 2012, 26, 4167–4176. DOI: 10.1021/ef300261z.


McNutt, M. K.; Camilli, R.; Crone, T. J.; Guthrie, G. D.; Hsieh, P. A.; Ryerson, T. B.; Savas, Ö.; Shaffer, F. Review of flow rate estimates of the Deepwater Horizon oil spill; Special Perspective Paper for the Proceedings of the National Academy of Sciences (PNAS), 2011.