Professor
corradini@engr.wisc.edu
Professor
corradini@engr.wisc.edu
Engine Research Center and Engineering Physics, University of Wisconsin, Madison, Wisconsin, USA
143 Engineering Research Building, 1500 Engineering Drive, Madison, WI 53706
Multiphase flows, Nuclear energy
DEVELOPMENT OF MICRO-DIESEL INJECTOR NOZZLES VIA MEMS TECHNOLOGY AND EFFECTS ON SPRAY CHARACTERISTICS - Vol. 13 '2003 - Atomization and Sprays
ANALYTICAL PREDICTION OF THE EXIT FLOW OF CAVITATING ORIFICES - Vol. 7 '1997 - Atomization and Sprays
A FULLY COMPRESSIBLE, TWO-DIMENSIONAL MODEL OF SMALL, HIGH-SPEED, CAVITATING NOZZLES - Vol. 9 '1999 - Atomization and Sprays
ESCALATING AND PROPAGATING MELT/COOLANT INTERACTIONS IN THE KROTOS EXPERIMENTS: STATUS OF KNOWLEDGE - Vol. 9 '1995 - ICHMT DIGITAL LIBRARY ONLINE
TEXAS-V: A FUEL-COOLANT INTERACTION MODEL - Vol. 9 '1995 - ICHMT DIGITAL LIBRARY ONLINE
THE EFFECT OF LIGHT GASES IN NONCONDENSABLE MIXTURES ON CONDENSATION HEAT TRANSFER - Vol. 17 '1998 - International Heat Transfer Conference 11
Interfacial Transport Phenomena and Stability in Liquid-Metal/Water - Vol. 56 '2002 - International Heat Transfer Conference 12
NUMERICAL STUDY OF MACROSCOPIC FLOW INSTABILITIES ASSOCIATED WITH NATURAL CIRCULATION LOOPS UNDER SUPERCRITICAL CONDITIONS - Vol. 0 '2006 - International Heat Transfer Conference 13
SUPERCRITICAL HEAT TRANSFER IN A HEATED TUBE: MIXED-CONVECTION CRITERIA AND PROPOSED TURBULENT WALL-FUNCTION MODELS - Vol. 0 '2006 - International Heat Transfer Conference 13
ESCALATING AND PROPAGATING MELT/COOLANT INTERACTIONS IN THE KROTOS EXPERIMENTS: STATUS OF KNOWLEDGE
TEXAS-V: A FUEL-COOLANT INTERACTION MODEL
ESCALATING AND PROPAGATING MELT/COOLANT INTERACTIONS IN THE KROTOS EXPERIMENTS: STATUS OF KNOWLEDGE
Interfacial Transport Phenomena and Stability in Liquid-Metal/Water
ESCALATING AND PROPAGATING MELT/COOLANT INTERACTIONS IN THE KROTOS EXPERIMENTS: STATUS OF KNOWLEDGE
Interfacial Transport Phenomena and Stability in Liquid-Metal/Water
DEVELOPMENT OF MICRO-DIESEL INJECTOR NOZZLES VIA MEMS TECHNOLOGY AND EFFECTS ON SPRAY CHARACTERISTICS
THE EFFECT OF LIGHT GASES IN NONCONDENSABLE MIXTURES ON CONDENSATION HEAT TRANSFER
DEVELOPMENT OF MICRO-DIESEL INJECTOR NOZZLES VIA MEMS TECHNOLOGY AND EFFECTS ON SPRAY CHARACTERISTICS
A FULLY COMPRESSIBLE, TWO-DIMENSIONAL MODEL OF SMALL, HIGH-SPEED, CAVITATING NOZZLES
ANALYTICAL PREDICTION OF THE EXIT FLOW OF CAVITATING ORIFICES
SUPERCRITICAL HEAT TRANSFER IN A HEATED TUBE: MIXED-CONVECTION CRITERIA AND PROPOSED TURBULENT WALL-FUNCTION MODELS
THE EFFECT OF LIGHT GASES IN NONCONDENSABLE MIXTURES ON CONDENSATION HEAT TRANSFER
Interfacial Transport Phenomena and Stability in Liquid-Metal/Water
Interfacial Transport Phenomena and Stability in Liquid-Metal/Water
ESCALATING AND PROPAGATING MELT/COOLANT INTERACTIONS IN THE KROTOS EXPERIMENTS: STATUS OF KNOWLEDGE
A FULLY COMPRESSIBLE, TWO-DIMENSIONAL MODEL OF SMALL, HIGH-SPEED, CAVITATING NOZZLES
TEXAS-V: A FUEL-COOLANT INTERACTION MODEL
ESCALATING AND PROPAGATING MELT/COOLANT INTERACTIONS IN THE KROTOS EXPERIMENTS: STATUS OF KNOWLEDGE
Interfacial Transport Phenomena and Stability in Liquid-Metal/Water
NUMERICAL STUDY OF MACROSCOPIC FLOW INSTABILITIES ASSOCIATED WITH NATURAL CIRCULATION LOOPS UNDER SUPERCRITICAL CONDITIONS
Interfacial Transport Phenomena and Stability in Liquid-Metal/Water
ESCALATING AND PROPAGATING MELT/COOLANT INTERACTIONS IN THE KROTOS EXPERIMENTS: STATUS OF KNOWLEDGE
SUPERCRITICAL HEAT TRANSFER IN A HEATED TUBE: MIXED-CONVECTION CRITERIA AND PROPOSED TURBULENT WALL-FUNCTION MODELS
TEXAS-V: A FUEL-COOLANT INTERACTION MODEL
SUPERCRITICAL HEAT TRANSFER IN A HEATED TUBE: MIXED-CONVECTION CRITERIA AND PROPOSED TURBULENT WALL-FUNCTION MODELS
ESCALATING AND PROPAGATING MELT/COOLANT INTERACTIONS IN THE KROTOS EXPERIMENTS: STATUS OF KNOWLEDGE