Marco Delchini Computational Fluid Dynamics Analyst and Developer Contact 865.574.5123 | DELCHINIMG@ORNL.GOV All Publications Co-optimization of fuel properties, combustion system geometry, and injection strategy for conventional diesel fuel... Comparison of Artificial Compressibility Methods for Coupled Laminar Fluid Flow and Heat Transfer MOOSE-Workbench integration and MOOSE meshing capability enhancements to facilitate inputs and outputs for multiphysics modeling Spinnaker Version 1.0 Theory Guide Integrated Process and Materials Modeling for Development of Additive Manufacturing of Refractory Materials for Critical Appl... Spinnaker Software Quality Assurance FY23 Annual Report NEAMS Workbench MOOSE Integration Update Computational fluid dynamics investigations of flow, heat transfer, and oxidation in heat recovery steam generator Documentation on How to Run the NEAMS Workbench GUI on Sawtooth... A Large Eddy Simulation Study of Flow Turbulence, Alumina Transport, and Bath Temperature Evolution in Conventional Aluminum-Smelting Cell Using OpenFOAM IMPLEMENTATION OF THE ENERGY EQUATION SOLVER TO THE LATTICE BOLTZMANN METHOD-BASED CODE PRATHAM COMPARISONS BETWEEN HIGH-FIDELITY AND LOW-FIDELITY MODELING OF THE TURBULENT FLOW IN THE HIGH FLUX ISOTOPE REACTOR COOLING CHANNEL USING NEK5000-V17 AND STAR-CCM+ INVESTIGATION OF DIFFERENT PLANE-AVERAGING TECHNIQUES IN NEK5000 FOR HIGH-TO-LOW INFORMATION OF CTF... Computational Fluid Dynamics Simulations to Support Efficiency Improvements in Aluminum Smelting Process Extension of the NEAMS workbench to parallel sensitivity and uncertainty analysis of thermal hydraulic parameters using Dakota and Nek5000 NEAMS Workbench WorkflowsNEAMS Workbench Workflows ADVANCED THERMAL-HYDRAULIC MODEL OF HEAT RECOVERY STEAM GENERATORS COMPUTATIONAL MODELING AND SIMULATION OF ALUMINIUM SMELTING PROCESS USING OPENFOAM Verification of Nek4nuc (Nek5000 Integrated in NEAMS Workbench) via Turbulent Pipe Flow Simulation Solution Verification and Spatial Uncertainty Quantification for CFD Simulations of Nuclear Fuel Bundle Flows NEAMS Workbench Status and Capabilities HIGH-PERFORMANCE COMPUTING TO ENABLE NEXT-GENERATION LOW-TEMPERATURE WASTE HEAT RECOVERY Artificial Intelligence Design of Nuclear Systems Empowered by Advanced Manufacturing High Performance Computing to Enable Next-generation Low-temperature Waste Heat Recovery... Integration of the Nek5000 Computational Fluid Dynamics Code with the NEAMS Workbench Pagination Current page 1 Page 2 Next page ›â¶Äº Last page Last » Key Links Curriculum Vitae Organizations Fusion and Fission Energy and Science Directorate Nuclear Energy and Fuel Cycle Division Advanced Reactor Engineering and Development Section Multiphysics CFD Applications Group
