Paul Scovazzo
Affiliations: | 1995-1998 | Chemical Engineering | University of Colorado, Boulder, Boulder, CO, United States |
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Publications
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Scovazzo P. (2020) Membrane module design, constructions, and testing for vacuum sweep dehumidification (VSD): Part II, prototype performance vs variations in feed conditions Journal of Membrane Science. 611: 118391 |
Khakpay A, Scovazzo P, Nouranian S. (2019) Homogeneous and biphasic cellulose acetate/room temperature ionic liquid membranes for gas separations: Solvent and phase-inversion casting vs. supported ionic liquid membranes Journal of Membrane Science. 589: 117228 |
Scovazzo P, MacNeill R. (2019) Membrane module design, construction, and testing for vacuum sweep dehumidification (VSD): Part I, prototype development and module design Journal of Membrane Science. 576: 96-107 |
Khakpay A, Scovazzo P. (2018) Reverse-selective behavior of room temperature ionic liquid based membranes for natural gas processing Journal of Membrane Science. 545: 204-212 |
Sullivan-González F, Scovazzo P, Amos R, et al. (2017) Hydrogen-bond acceptance's role in designing room temperature ionic liquid (RTIL) membranes for gas dehumidification, part I: Impacts on permeance and selectivity Journal of Membrane Science. 533: 190-200 |
Scovazzo P, Scovazzo AJ. (2013) Isothermal dehumidification or gas drying using vacuum sweep dehumidification Applied Thermal Engineering. 50: 225-233 |
Scovazzo P. (2010) Testing and evaluation of room temperature ionic liquid (RTIL) membranes for gas dehumidification Journal of Membrane Science. 355: 7-17 |
Scovazzo P, Visser AE, Davis James H. J, et al. (2010) ChemInform Abstract: Supported Ionic Liquid Membranes and Facilitated Ionic Liquid Membranes Cheminform. 33: no-no |
Scovazzo P. (2009) Determination of the upper limits, benchmarks, and critical properties for gas separations using stabilized room temperature ionic liquid membranes (SILMs) for the purpose of guiding future research Journal of Membrane Science. 343: 199-211 |
Scovazzo P, Havard D, McShea M, et al. (2009) Long-term, continuous mixed-gas dry fed CO2/CH4 and CO2/N2 separation performance and selectivities for room temperature ionic liquid membranes Journal of Membrane Science. 327: 41-48 |