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MICHAELASPRAGUE.COM
This thesis entitled: Advanced Computational Techniques for the Analysis of 3-D Fluid-Structure Interaction with Cavitation written by Michael Alan Sprague has been approved for t A SPECTRAL-ELEMENT METHOD FOR MODELING CAVITATION … A SPECTRAL-ELEMENT METHOD FOR MODELING CAVITATION IN TRANSIENT FLUID-STRUCTURE INTERACTION: 3-D EVALUATION M.A. Spraguea and T.L. Geersb Department of Mechanical Engineering JOURNAL OF POWER SOURCES Coupled mechanical-electrical-thermal modeling for short-circuit prediction in a lithium-ion cell under mechanical abuse Chao Zhang a, Shriram Santhanagopalan b, *,1, Michael A. Sprague a, Ahmad A. Pesaran b a Computational Science Center, National Renewable Energy Laboratory, 15013 Denver West Parkway, Golden CO 80401, USA b Transportation and Hydrogen Systems Center, National Renewable STENCIL MASK DISTORTION CONTROL USING NONSYMMETRIC Stencil Mask Distortion Control Using Nonsymmetric Perforation Rings M. Spraguea*, W. Semkea, R. Engelstada, and E. Lovella A. Chalupkab, H. Löschnerb, and G. Stenglb a Center for X-ray Lithography, University of Wisconsin-Madison MIXING BEHAVIOR OF A MODEL CELLULOSIC BIOMASS SLURRY 6 liquid transportation fuel infrastructure . However, current biochemical deconstruc-7 tion technologies and processing strategies need further improvement in order to make 8 cellulosic biofuels cost competitive with petroleum-based fuels. 9 The deconstruction of cellulosic biomass into sugar-rich intermediates involves multi- 10 ple slurry-phase process streams . COUPLING MESO- AND MICRO-SCALE FLUID DYNAMICS CODES FOR Coupling meso- and micro-scale fluid dynamics codes for wind-energy computing 65th APS DFD Meeting San Diego, CA, November 19, 2012 Ignas Satkaukas1,2 Michael A. Sprague1 and Matt Churchfield3 1Computational Science Center, NREL 2Applied Mathematics, UC Boulder 3National Wind Technology Center, NREL NREL is a national laboratory of the U.S. Department of Energy, Office of WWW.MICHAELASPRAGUE.COM Treatment of acoustic fluid–structure interaction by localized Lagrange multipliers: Formulation Michael R. Rossa,*, Carlos A. Felippab, K.C. Parkb, Michael A ADVANCES IN COMPUTATIONAL METHODS FOR FLUID-STRUCTURE Advances in Computational Methods for Fluid-Structure-Interaction Problems by Michael Alan Sprague B.S., University of Wisconsin–Madison, 1997 A thesis submitted to the PATTERN FORMATION IN RAYLEIGH-B´ENARD CONVECTION IN … u· ∇ := u∂r + v r ∂θ + w∂z and thus C= „ v2 r − u r2 − 2 r2 ∂θv,− uv r − v r2 2 r2 ∂θu,0 «T We restrict our investigation to the case where the sidewalls are insulated, and no-slip conditions are employed on all A MIXTURE-ENTHALPY FIXED-GRID MODEL FOR TEMPERATURE A mixture-enthalpy fixed-grid model for temperature evolution and heterocyclic-amine formation in a frying beef patty Michael A. Spraguea,1,∗, Michael E. Colvina aCenter for Computational Biology and School of Natural Sciences, University of California, Merced, CA95343, USA
MICHAELASPRAGUE.COM
This thesis entitled: Advanced Computational Techniques for the Analysis of 3-D Fluid-Structure Interaction with Cavitation written by Michael Alan Sprague has been approved for t A SPECTRAL-ELEMENT METHOD FOR MODELING CAVITATION … A SPECTRAL-ELEMENT METHOD FOR MODELING CAVITATION IN TRANSIENT FLUID-STRUCTURE INTERACTION: 3-D EVALUATION M.A. Spraguea and T.L. Geersb Department of Mechanical Engineering JOURNAL OF POWER SOURCES Coupled mechanical-electrical-thermal modeling for short-circuit prediction in a lithium-ion cell under mechanical abuse Chao Zhang a, Shriram Santhanagopalan b, *,1, Michael A. Sprague a, Ahmad A. Pesaran b a Computational Science Center, National Renewable Energy Laboratory, 15013 Denver West Parkway, Golden CO 80401, USA b Transportation and Hydrogen Systems Center, National Renewable STENCIL MASK DISTORTION CONTROL USING NONSYMMETRIC Stencil Mask Distortion Control Using Nonsymmetric Perforation Rings M. Spraguea*, W. Semkea, R. Engelstada, and E. Lovella A. Chalupkab, H. Löschnerb, and G. Stenglb a Center for X-ray Lithography, University of Wisconsin-Madison MIXING BEHAVIOR OF A MODEL CELLULOSIC BIOMASS SLURRY 6 liquid transportation fuel infrastructure . However, current biochemical deconstruc-7 tion technologies and processing strategies need further improvement in order to make 8 cellulosic biofuels cost competitive with petroleum-based fuels. 9 The deconstruction of cellulosic biomass into sugar-rich intermediates involves multi- 10 ple slurry-phase process streams . COUPLING MESO- AND MICRO-SCALE FLUID DYNAMICS CODES FOR Coupling meso- and micro-scale fluid dynamics codes for wind-energy computing 65th APS DFD Meeting San Diego, CA, November 19, 2012 Ignas Satkaukas1,2 Michael A. Sprague1 and Matt Churchfield3 1Computational Science Center, NREL 2Applied Mathematics, UC Boulder 3National Wind Technology Center, NREL NREL is a national laboratory of the U.S. Department of Energy, Office of WWW.MICHAELASPRAGUE.COM Treatment of acoustic fluid–structure interaction by localized Lagrange multipliers: Formulation Michael R. Rossa,*, Carlos A. Felippab, K.C. Parkb, Michael AMICHAEL A. SPRAGUE
Michael A. Sprague : Home. About Me: CV (pdf) Publications: Contact MICHAEL A. SPRAGUE C.V., 6 MAY 2019 THESIS Michael A. Sprague C.V., 6 May 2019 Principal Scientist National Renewable Energy Laboratory 15013 Denver West Parkway Golden, CO 80401 o ce (NWTC): 303.384.7184 NREL e-mail: michael.a.sprague@nrel.gov STENCIL MASK DISTORTION CONTROL USING NONSYMMETRIC Stencil Mask Distortion Control Using Nonsymmetric Perforation Rings M. Spraguea*, W. Semkea, R. Engelstada, and E. Lovella A. Chalupkab, H. Löschnerb, and G. Stenglb a Center for X-ray Lithography, University of Wisconsin-Madison A SPECTRAL-ELEMENT METHOD FOR MODELLING CAVITATION IN 2468 M. A. SPRAGUE AND T. L. GEERS-200 -100 0 100 200-20-10 0 45 kg HBX- 1 Ship Depth (m) Distance from Charge (m) Figure 1. Cavitation-region envelope for a 45 kg charge of HBX-1 detonated at a THREE-DIMENSIONAL FLOW INDUCED BY THE TORSIONAL MOTION OF Fluid Dyn. Res. 43 (2011) 015501 M A Sprague and P D Weidman side view cross-section r r z a Figure 1. Schematic illustration of the infinite-cylinder geometry. The velocity profile indicates A SPECTRAL-ELEMENT/FINITE-ELEMENT ANALYSIS OF A SHIP-LIKE treatment. However, for a surface ship or a submarine at shallow depth, the occurrence of fluid cavitation precludes such treatment, and recourse is often GEOMETRIC NONLINEAR ANALYSIS OF COMPOSITE BEAMS USING Geometric Nonlinear Analysis of Composite Beams Using Wiener-Milenkovic Parameters´ Qi Wang 1, Wenbin Yuy2 and Michael A. Spraguez1 1National Renewable Energy Laboratory, Golden, CO 80401-3305 2Utah State University, Logan, UT 84322-4130 This paper presents a geometric nonlinear analysis of composite beams, and includes static,dynamic, and
MIXING BEHAVIOR OF A MODEL CELLULOSIC BIOMASS SLURRY 6 liquid transportation fuel infrastructure . However, current biochemical deconstruc-7 tion technologies and processing strategies need further improvement in order to make 8 cellulosic biofuels cost competitive with petroleum-based fuels. 9 The deconstruction of cellulosic biomass into sugar-rich intermediates involves multi- 10 ple slurry-phase process streams . COUPLING MESO- AND MICRO-SCALE FLUID DYNAMICS CODES FOR Coupling meso- and micro-scale fluid dynamics codes for wind-energy computing 65th APS DFD Meeting San Diego, CA, November 19, 2012 Ignas Satkaukas1,2 Michael A. Sprague1 and Matt Churchfield3 1Computational Science Center, NREL 2Applied Mathematics, UC Boulder 3National Wind Technology Center, NREL NREL is a national laboratory of the U.S. Department of Energy, Office of A SPECTRAL-ELEMENT METHOD FOR MODELING CAVITATION … A SPECTRAL-ELEMENT METHOD FOR MODELING CAVITATION IN TRANSIENT FLUID-STRUCTURE INTERACTION M.A. Spraguea and T.L. Geersb Department of Mechanical Engineering University of Colorado at BoulderMICHAEL A. SPRAGUE
Michael A. Sprague : Home. About Me: CV (pdf) Publications: ContactMICHAEL A. SPRAGUE
Michael A. Sprague National Renewable Energy Lab 15013 Denver West Parkway Golden, CO 80401 . office phone: (303) 384-7184 email: michael.a.sprague@nrel.gov ADVANCES IN COMPUTATIONAL METHODS FOR FLUID-STRUCTURE Advances in Computational Methods for Fluid-Structure-Interaction Problems by Michael Alan Sprague B.S., University of Wisconsin–Madison, 1997 A thesis submitted to theMICHAELASPRAGUE.COM
This thesis entitled: Advanced Computational Techniques for the Analysis of 3-D Fluid-Structure Interaction with Cavitation written by Michael Alan Sprague has been approved for t A MIXTURE-ENTHALPY FIXED-GRID MODEL FOR TEMPERATURE A mixture-enthalpy fixed-grid model for temperature evolution and heterocyclic-amine formation in a frying beef patty Michael A. Spraguea,1,∗, Michael E. Colvina aCenter for Computational Biology and School of Natural Sciences, University of California, Merced, CA95343, USA
STENCIL MASK DISTORTION CONTROL USING NONSYMMETRIC Stencil Mask Distortion Control Using Nonsymmetric Perforation Rings M. Spraguea*, W. Semkea, R. Engelstada, and E. Lovella A. Chalupkab, H. Löschnerb, and G. Stenglb a Center for X-ray Lithography, University of Wisconsin-Madison A SPECTRAL-ELEMENT METHOD FOR MODELLING CAVITATION IN 2468 M. A. SPRAGUE AND T. L. GEERS-200 -100 0 100 200-20-10 0 45 kg HBX- 1 Ship Depth (m) Distance from Charge (m) Figure 1. Cavitation-region envelope for a 45 kg charge of HBX-1 detonated at a MIXING BEHAVIOR OF A MODEL CELLULOSIC BIOMASS SLURRY 6 liquid transportation fuel infrastructure . However, current biochemical deconstruc-7 tion technologies and processing strategies need further improvement in order to make 8 cellulosic biofuels cost competitive with petroleum-based fuels. 9 The deconstruction of cellulosic biomass into sugar-rich intermediates involves multi- 10 ple slurry-phase process streams . JOURNAL OF POWER SOURCES Coupled mechanical-electrical-thermal modeling for short-circuit prediction in a lithium-ion cell under mechanical abuse Chao Zhang a, Shriram Santhanagopalan b, *,1, Michael A. Sprague a, Ahmad A. Pesaran b a Computational Science Center, National Renewable Energy Laboratory, 15013 Denver West Parkway, Golden CO 80401, USA b Transportation and Hydrogen Systems Center, National Renewable COUPLING MESO- AND MICRO-SCALE FLUID DYNAMICS CODES FOR Coupling meso- and micro-scale fluid dynamics codes for wind-energy computing 65th APS DFD Meeting San Diego, CA, November 19, 2012 Ignas Satkaukas1,2 Michael A. Sprague1 and Matt Churchfield3 1Computational Science Center, NREL 2Applied Mathematics, UC Boulder 3National Wind Technology Center, NREL NREL is a national laboratory of the U.S. Department of Energy, Office ofMICHAEL A. SPRAGUE
Michael A. Sprague : Home. About Me: CV (pdf) Publications: ContactMICHAEL A. SPRAGUE
Michael A. Sprague National Renewable Energy Lab 15013 Denver West Parkway Golden, CO 80401 . office phone: (303) 384-7184 email: michael.a.sprague@nrel.gov ADVANCES IN COMPUTATIONAL METHODS FOR FLUID-STRUCTURE Advances in Computational Methods for Fluid-Structure-Interaction Problems by Michael Alan Sprague B.S., University of Wisconsin–Madison, 1997 A thesis submitted to theMICHAELASPRAGUE.COM
This thesis entitled: Advanced Computational Techniques for the Analysis of 3-D Fluid-Structure Interaction with Cavitation written by Michael Alan Sprague has been approved for t A MIXTURE-ENTHALPY FIXED-GRID MODEL FOR TEMPERATURE A mixture-enthalpy fixed-grid model for temperature evolution and heterocyclic-amine formation in a frying beef patty Michael A. Spraguea,1,∗, Michael E. Colvina aCenter for Computational Biology and School of Natural Sciences, University of California, Merced, CA95343, USA
STENCIL MASK DISTORTION CONTROL USING NONSYMMETRIC Stencil Mask Distortion Control Using Nonsymmetric Perforation Rings M. Spraguea*, W. Semkea, R. Engelstada, and E. Lovella A. Chalupkab, H. Löschnerb, and G. Stenglb a Center for X-ray Lithography, University of Wisconsin-Madison A SPECTRAL-ELEMENT METHOD FOR MODELLING CAVITATION IN 2468 M. A. SPRAGUE AND T. L. GEERS-200 -100 0 100 200-20-10 0 45 kg HBX- 1 Ship Depth (m) Distance from Charge (m) Figure 1. Cavitation-region envelope for a 45 kg charge of HBX-1 detonated at a MIXING BEHAVIOR OF A MODEL CELLULOSIC BIOMASS SLURRY 6 liquid transportation fuel infrastructure . However, current biochemical deconstruc-7 tion technologies and processing strategies need further improvement in order to make 8 cellulosic biofuels cost competitive with petroleum-based fuels. 9 The deconstruction of cellulosic biomass into sugar-rich intermediates involves multi- 10 ple slurry-phase process streams . JOURNAL OF POWER SOURCES Coupled mechanical-electrical-thermal modeling for short-circuit prediction in a lithium-ion cell under mechanical abuse Chao Zhang a, Shriram Santhanagopalan b, *,1, Michael A. Sprague a, Ahmad A. Pesaran b a Computational Science Center, National Renewable Energy Laboratory, 15013 Denver West Parkway, Golden CO 80401, USA b Transportation and Hydrogen Systems Center, National Renewable COUPLING MESO- AND MICRO-SCALE FLUID DYNAMICS CODES FOR Coupling meso- and micro-scale fluid dynamics codes for wind-energy computing 65th APS DFD Meeting San Diego, CA, November 19, 2012 Ignas Satkaukas1,2 Michael A. Sprague1 and Matt Churchfield3 1Computational Science Center, NREL 2Applied Mathematics, UC Boulder 3National Wind Technology Center, NREL NREL is a national laboratory of the U.S. Department of Energy, Office ofMICHAEL A. SPRAGUE
I am a Principal Research Scientist in National Wind Techology Center at the National Renewable Energy Laboratory. Before joining NREL in 2010, I was an Assistant Professor of Applied Mathematics in the School of Natural Sciences at the University of California, Merced.I joined UC Merced as a Founding Faculty member in July 2005. A SPECTRAL-ELEMENT METHOD FOR MODELING CAVITATION … A SPECTRAL-ELEMENT METHOD FOR MODELING CAVITATION IN TRANSIENT FLUID-STRUCTURE INTERACTION M.A. Spraguea and T.L. Geersb Department of Mechanical Engineering University of Colorado at BoulderMICHAELASPRAGUE.COM
Treatment of acoustic fluid–structure interaction by localized Lagrange multipliers: Formulation Michael R. Rossa,*, Carlos A. Felippab, K.C. Parkb, Michael ASPRAGUE REVISION
Title: sprague_revision.dvi Created Date: 3/11/2015 11:32:00 AMMICHAEL A. SPRAGUE
Michael A. Sprague : Home. About Me: CV (pdf) Publications: ContactMICHAEL A. SPRAGUE
Michael A. Sprague National Renewable Energy Lab 15013 Denver West Parkway Golden, CO 80401 . office phone: (303) 384-7184 email: michael.a.sprague@nrel.gov ADVANCES IN COMPUTATIONAL METHODS FOR FLUID-STRUCTURE Advances in Computational Methods for Fluid-Structure-Interaction Problems by Michael Alan Sprague B.S., University of Wisconsin–Madison, 1997 A thesis submitted to theMICHAELASPRAGUE.COM
This thesis entitled: Advanced Computational Techniques for the Analysis of 3-D Fluid-Structure Interaction with Cavitation written by Michael Alan Sprague has been approved for t A MIXTURE-ENTHALPY FIXED-GRID MODEL FOR TEMPERATURE A mixture-enthalpy fixed-grid model for temperature evolution and heterocyclic-amine formation in a frying beef patty Michael A. Spraguea,1,∗, Michael E. Colvina aCenter for Computational Biology and School of Natural Sciences, University of California, Merced, CA95343, USA
A SPECTRAL-ELEMENT METHOD FOR MODELLING CAVITATION IN 2468 M. A. SPRAGUE AND T. L. GEERS-200 -100 0 100 200-20-10 0 45 kg HBX- 1 Ship Depth (m) Distance from Charge (m) Figure 1. Cavitation-region envelope for a 45 kg charge of HBX-1 detonated at a STENCIL MASK DISTORTION CONTROL USING NONSYMMETRIC Stencil Mask Distortion Control Using Nonsymmetric Perforation Rings M. Spraguea*, W. Semkea, R. Engelstada, and E. Lovella A. Chalupkab, H. Löschnerb, and G. Stenglb a Center for X-ray Lithography, University of Wisconsin-Madison MIXING BEHAVIOR OF A MODEL CELLULOSIC BIOMASS SLURRY 6 liquid transportation fuel infrastructure . However, current biochemical deconstruc-7 tion technologies and processing strategies need further improvement in order to make 8 cellulosic biofuels cost competitive with petroleum-based fuels. 9 The deconstruction of cellulosic biomass into sugar-rich intermediates involves multi- 10 ple slurry-phase process streams . JOURNAL OF POWER SOURCES Coupled mechanical-electrical-thermal modeling for short-circuit prediction in a lithium-ion cell under mechanical abuse Chao Zhang a, Shriram Santhanagopalan b, *,1, Michael A. Sprague a, Ahmad A. Pesaran b a Computational Science Center, National Renewable Energy Laboratory, 15013 Denver West Parkway, Golden CO 80401, USA b Transportation and Hydrogen Systems Center, National Renewable COUPLING MESO- AND MICRO-SCALE FLUID DYNAMICS CODES FOR Coupling meso- and micro-scale fluid dynamics codes for wind-energy computing 65th APS DFD Meeting San Diego, CA, November 19, 2012 Ignas Satkaukas1,2 Michael A. Sprague1 and Matt Churchfield3 1Computational Science Center, NREL 2Applied Mathematics, UC Boulder 3National Wind Technology Center, NREL NREL is a national laboratory of the U.S. Department of Energy, Office ofMICHAEL A. SPRAGUE
Michael A. Sprague : Home. About Me: CV (pdf) Publications: ContactMICHAEL A. SPRAGUE
Michael A. Sprague National Renewable Energy Lab 15013 Denver West Parkway Golden, CO 80401 . office phone: (303) 384-7184 email: michael.a.sprague@nrel.gov ADVANCES IN COMPUTATIONAL METHODS FOR FLUID-STRUCTURE Advances in Computational Methods for Fluid-Structure-Interaction Problems by Michael Alan Sprague B.S., University of Wisconsin–Madison, 1997 A thesis submitted to theMICHAELASPRAGUE.COM
This thesis entitled: Advanced Computational Techniques for the Analysis of 3-D Fluid-Structure Interaction with Cavitation written by Michael Alan Sprague has been approved for t A MIXTURE-ENTHALPY FIXED-GRID MODEL FOR TEMPERATURE A mixture-enthalpy fixed-grid model for temperature evolution and heterocyclic-amine formation in a frying beef patty Michael A. Spraguea,1,∗, Michael E. Colvina aCenter for Computational Biology and School of Natural Sciences, University of California, Merced, CA95343, USA
A SPECTRAL-ELEMENT METHOD FOR MODELLING CAVITATION IN 2468 M. A. SPRAGUE AND T. L. GEERS-200 -100 0 100 200-20-10 0 45 kg HBX- 1 Ship Depth (m) Distance from Charge (m) Figure 1. Cavitation-region envelope for a 45 kg charge of HBX-1 detonated at a STENCIL MASK DISTORTION CONTROL USING NONSYMMETRIC Stencil Mask Distortion Control Using Nonsymmetric Perforation Rings M. Spraguea*, W. Semkea, R. Engelstada, and E. Lovella A. Chalupkab, H. Löschnerb, and G. Stenglb a Center for X-ray Lithography, University of Wisconsin-Madison MIXING BEHAVIOR OF A MODEL CELLULOSIC BIOMASS SLURRY 6 liquid transportation fuel infrastructure . However, current biochemical deconstruc-7 tion technologies and processing strategies need further improvement in order to make 8 cellulosic biofuels cost competitive with petroleum-based fuels. 9 The deconstruction of cellulosic biomass into sugar-rich intermediates involves multi- 10 ple slurry-phase process streams . JOURNAL OF POWER SOURCES Coupled mechanical-electrical-thermal modeling for short-circuit prediction in a lithium-ion cell under mechanical abuse Chao Zhang a, Shriram Santhanagopalan b, *,1, Michael A. Sprague a, Ahmad A. Pesaran b a Computational Science Center, National Renewable Energy Laboratory, 15013 Denver West Parkway, Golden CO 80401, USA b Transportation and Hydrogen Systems Center, National Renewable COUPLING MESO- AND MICRO-SCALE FLUID DYNAMICS CODES FOR Coupling meso- and micro-scale fluid dynamics codes for wind-energy computing 65th APS DFD Meeting San Diego, CA, November 19, 2012 Ignas Satkaukas1,2 Michael A. Sprague1 and Matt Churchfield3 1Computational Science Center, NREL 2Applied Mathematics, UC Boulder 3National Wind Technology Center, NREL NREL is a national laboratory of the U.S. Department of Energy, Office ofMICHAEL A. SPRAGUE
I am a Principal Research Scientist in National Wind Techology Center at the National Renewable Energy Laboratory. Before joining NREL in 2010, I was an Assistant Professor of Applied Mathematics in the School of Natural Sciences at the University of California, Merced.I joined UC Merced as a Founding Faculty member in July 2005. A SPECTRAL-ELEMENT METHOD FOR MODELING CAVITATION … A SPECTRAL-ELEMENT METHOD FOR MODELING CAVITATION IN TRANSIENT FLUID-STRUCTURE INTERACTION M.A. Spraguea and T.L. Geersb Department of Mechanical Engineering University of Colorado at BoulderMICHAELASPRAGUE.COM
Treatment of acoustic fluid–structure interaction by localized Lagrange multipliers: Formulation Michael R. Rossa,*, Carlos A. Felippab, K.C. Parkb, Michael ASPRAGUE REVISION
Title: sprague_revision.dvi Created Date: 3/11/2015 11:32:00 AMMICHAEL A. SPRAGUE
Michael A. Sprague : Home. About Me: CV (pdf) Publications: ContactMICHAEL A. SPRAGUE
Michael A. Sprague National Renewable Energy Lab 15013 Denver West Parkway Golden, CO 80401 . office phone: (303) 384-7184 email: michael.a.sprague@nrel.gov ADVANCES IN COMPUTATIONAL METHODS FOR FLUID-STRUCTURE Advances in Computational Methods for Fluid-Structure-Interaction Problems by Michael Alan Sprague B.S., University of Wisconsin–Madison, 1997 A thesis submitted to the A MIXTURE-ENTHALPY FIXED-GRID MODEL FOR TEMPERATURE A mixture-enthalpy fixed-grid model for temperature evolution and heterocyclic-amine formation in a frying beef patty Michael A. Spraguea,1,∗, Michael E. Colvina aCenter for Computational Biology and School of Natural Sciences, University of California, Merced, CA95343, USA
MICHAELASPRAGUE.COM
This thesis entitled: Advanced Computational Techniques for the Analysis of 3-D Fluid-Structure Interaction with Cavitation written by Michael Alan Sprague has been approved for t STENCIL MASK DISTORTION CONTROL USING NONSYMMETRIC Stencil Mask Distortion Control Using Nonsymmetric Perforation Rings M. Spraguea*, W. Semkea, R. Engelstada, and E. Lovella A. Chalupkab, H. Löschnerb, and G. Stenglb a Center for X-ray Lithography, University of Wisconsin-Madison A SPECTRAL-ELEMENT METHOD FOR MODELLING CAVITATION IN 2468 M. A. SPRAGUE AND T. L. GEERS-200 -100 0 100 200-20-10 0 45 kg HBX- 1 Ship Depth (m) Distance from Charge (m) Figure 1. Cavitation-region envelope for a 45 kg charge of HBX-1 detonated at a MIXING BEHAVIOR OF A MODEL CELLULOSIC BIOMASS SLURRY 6 liquid transportation fuel infrastructure . However, current biochemical deconstruc-7 tion technologies and processing strategies need further improvement in order to make 8 cellulosic biofuels cost competitive with petroleum-based fuels. 9 The deconstruction of cellulosic biomass into sugar-rich intermediates involves multi- 10 ple slurry-phase process streams . JOURNAL OF POWER SOURCES Coupled mechanical-electrical-thermal modeling for short-circuit prediction in a lithium-ion cell under mechanical abuse Chao Zhang a, Shriram Santhanagopalan b, *,1, Michael A. Sprague a, Ahmad A. Pesaran b a Computational Science Center, National Renewable Energy Laboratory, 15013 Denver West Parkway, Golden CO 80401, USA b Transportation and Hydrogen Systems Center, National Renewable COUPLING MESO- AND MICRO-SCALE FLUID DYNAMICS CODES FOR Coupling meso- and micro-scale fluid dynamics codes for wind-energy computing 65th APS DFD Meeting San Diego, CA, November 19, 2012 Ignas Satkaukas1,2 Michael A. Sprague1 and Matt Churchfield3 1Computational Science Center, NREL 2Applied Mathematics, UC Boulder 3National Wind Technology Center, NREL NREL is a national laboratory of the U.S. Department of Energy, Office ofMICHAEL A. SPRAGUE
Michael A. Sprague : Home. About Me: CV (pdf) Publications: ContactMICHAEL A. SPRAGUE
Michael A. Sprague National Renewable Energy Lab 15013 Denver West Parkway Golden, CO 80401 . office phone: (303) 384-7184 email: michael.a.sprague@nrel.gov ADVANCES IN COMPUTATIONAL METHODS FOR FLUID-STRUCTURE Advances in Computational Methods for Fluid-Structure-Interaction Problems by Michael Alan Sprague B.S., University of Wisconsin–Madison, 1997 A thesis submitted to the A MIXTURE-ENTHALPY FIXED-GRID MODEL FOR TEMPERATURE A mixture-enthalpy fixed-grid model for temperature evolution and heterocyclic-amine formation in a frying beef patty Michael A. Spraguea,1,∗, Michael E. Colvina aCenter for Computational Biology and School of Natural Sciences, University of California, Merced, CA95343, USA
MICHAELASPRAGUE.COM
This thesis entitled: Advanced Computational Techniques for the Analysis of 3-D Fluid-Structure Interaction with Cavitation written by Michael Alan Sprague has been approved for t STENCIL MASK DISTORTION CONTROL USING NONSYMMETRIC Stencil Mask Distortion Control Using Nonsymmetric Perforation Rings M. Spraguea*, W. Semkea, R. Engelstada, and E. Lovella A. Chalupkab, H. Löschnerb, and G. Stenglb a Center for X-ray Lithography, University of Wisconsin-Madison A SPECTRAL-ELEMENT METHOD FOR MODELLING CAVITATION IN 2468 M. A. SPRAGUE AND T. L. GEERS-200 -100 0 100 200-20-10 0 45 kg HBX- 1 Ship Depth (m) Distance from Charge (m) Figure 1. Cavitation-region envelope for a 45 kg charge of HBX-1 detonated at a MIXING BEHAVIOR OF A MODEL CELLULOSIC BIOMASS SLURRY 6 liquid transportation fuel infrastructure . However, current biochemical deconstruc-7 tion technologies and processing strategies need further improvement in order to make 8 cellulosic biofuels cost competitive with petroleum-based fuels. 9 The deconstruction of cellulosic biomass into sugar-rich intermediates involves multi- 10 ple slurry-phase process streams . JOURNAL OF POWER SOURCES Coupled mechanical-electrical-thermal modeling for short-circuit prediction in a lithium-ion cell under mechanical abuse Chao Zhang a, Shriram Santhanagopalan b, *,1, Michael A. Sprague a, Ahmad A. Pesaran b a Computational Science Center, National Renewable Energy Laboratory, 15013 Denver West Parkway, Golden CO 80401, USA b Transportation and Hydrogen Systems Center, National Renewable COUPLING MESO- AND MICRO-SCALE FLUID DYNAMICS CODES FOR Coupling meso- and micro-scale fluid dynamics codes for wind-energy computing 65th APS DFD Meeting San Diego, CA, November 19, 2012 Ignas Satkaukas1,2 Michael A. Sprague1 and Matt Churchfield3 1Computational Science Center, NREL 2Applied Mathematics, UC Boulder 3National Wind Technology Center, NREL NREL is a national laboratory of the U.S. Department of Energy, Office ofMICHAELASPRAGUE.COM
Treatment of acoustic fluid–structure interaction by localized Lagrange multipliers: Formulation Michael R. Rossa,*, Carlos A. Felippab, K.C. Parkb, Michael A A SPECTRAL-ELEMENT METHOD FOR MODELING CAVITATION … A SPECTRAL-ELEMENT METHOD FOR MODELING CAVITATION IN TRANSIENT FLUID-STRUCTURE INTERACTION M.A. Spraguea and T.L. Geersb Department of Mechanical Engineering University of Colorado at BoulderSPRAGUE REVISION
Title: sprague_revision.dvi Created Date: 3/11/2015 11:32:00 AM FAST V8 VERIFICATION AND VALIDATION USING EXPERIMENTS FROM ∗The submitted ma nuscript has been offered by employees ofthe Alliance for Sustainable Energy, LLC (Alliance), a co tractor the U.S. Government under Contract No. DE-AC36-08GO28308. Accordingly, the U.S. Government and Alliance retain a nonexclusive royalty-free license to publish or reproduce the published form of this contribution, or allow others to do so, forMichael A. Sprague
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