Drew E Winder Group Leader, Source Development and Engineering Contact 865.576.1049 | winderde@ornl.gov All Publications Small-bubble gas injection to mitigate cavitation-induced erosion damage and reduce strain in target vessels at the Spallation Neutron Source Model calibration of the liquid mercury spallation target using evolutionary neural networks and sparse polynomial expansions Quantifying the reduction in cavitation-induced erosion damage in the Spallation Neutron Source mercury target by means of small-bubble gas injection Upgraded fiber-optic sensor system for dynamic strain measurement in Spallation Neutron Source Incorporating bubble growth volume feedback to improve simulation of the response of a structure containing liquid and gas to sudden energy input Faraday Michelson Interferometers for Signal Demodulation of Fiber-Optic Sensors Cavitation-induced erosion in liquid metal spallation targets – A comparison between a predictive method and measured erosion damage to stainless steel target modules at the Spallation Neutron Source Strain Measurement in the Spallation Target Using High-Radiation-Tolerant Fiber Sensors Spallation Neutron Source Hydrogen Relief Analysis for the Cryogenic Moderator System HYDROGEN VESSEL WELD POROSITY STRESS ANALYSIS USING CT SCAN DATA Calibration of the 2-Phase Bubble Tracking Model for Liquid Mercury Target Simulation with Machine Learning Surrogate Models... REPEATABILITY AND UNCERTAINTY STUDY OF STRAIN MEASURED ON COUPLED FLUID-STRUCTURE VESSELS IN RESPONSE TO HIGH INTENSITY PROTON PULSES Implementing bubbly mercury material model (R-P model) in the pulse simulation to predict strain on the Spallation Neutron So... Benchmarking and Exploring Parameter Space of the 2-Phase Bubble Tracking Model for Liquid Mercury Target Simulation Irradiation Facilities and Irradiation Methods for High Power Target Modeling Needs for High Power Target Sensitivity Analysis of Tunable Equation of State Material Model In Pulsed Mercury Target Simulation Evolution of the high-power spallation neutron mercury target at the SNS Application of Machine Learning to Predict the Response of the Liquid Mercury Target at the Spallation Neutron Source... Bubble Generation in the SNS 2 MW Mercury Target Modeling Improvements of a Liquid Metal and Gas Filled Container Struck by a Sudden Pressure... Final Design Report Proton Power Upgrade Project TUNABLE EOS MATERIAL MODEL IN THE SIMULATION OF PULSED MERCURY SPALLATION TARGET VESSEL... All-Fiber Phase-Shifted Demodulation System for Fabry-Perot Interferometric Sensors Quadrature phase-shifted optical demodulator for low-coherence fiber-optic Fabry-Perot interferometric sensors Pagination Current page 1 Page 2 Next page ›› Last page Last » Key Links ORCID Organizations Neutron Sciences Directorate Neutron Technologies Division Neutron Technologies Engineering Section