Index Catalog // Hyrax

Assessing the impact of multicomponent diffusion in direct numerical simulations of premixed, high-Karlovitz, turbulent flames: toluene data

Schöpfer:: Fillo, Aaron J., Schlup, Jason, Blanquart, Guillaume, and Niemeyer, Kyle E.
Abstract:: This data contains results from direct numerical simulations of premixed, three-dimensional, turbulent toluene/air flames, using the multicomponent and mixture-averaged diffusion models. In particular, this dataset contains information about diffusion flux angles and magnitudes. We performed the simulations using the finite-difference code NGA; simulation details are described completely in the associated...
Resource Type:: Dataset

Assessing the impact of multicomponent diffusion in direct numerical simulations of premixed, high-Karlovitz, turbulent flames: n-heptane data

Schöpfer:: Fillo, Aaron J., Schlup, Jason, Blanquart, Guillaume, and Niemeyer, Kyle E.
Abstract:: This data contains results from direct numerical simulations of premixed, three-dimensional, turbulent n-heptane/air flames, using the multicomponent and mixture-averaged diffusion models. In particular, this dataset contains information about diffusion flux angles and magnitudes. We performed the simulations using the finite-difference code NGA; simulation details are described completely in the associated...
Resource Type:: Dataset

Assessing the impact of multicomponent diffusion in direct numerical simulations of premixed, high-Karlovitz, turbulent flames: hydrogen data

Schöpfer:: Fillo, Aaron J., Schlup, Jason, Blanquart, Guillaume, and Niemeyer, Kyle E.
Abstract:: This data contains results from direct numerical simulations of premixed, two-dimensional unsteady and three-dimensional, turbulent hydrogen/air flames, using the multicomponent and mixture-averaged diffusion models. In particular, this dataset contains information about diffusion flux angles and magnitudes. We performed the simulations using the finite-difference code NGA; simulation details are described completely...
Resource Type:: Dataset

Direct numerical simulation results for turbulent hydrogen/air flame: mixture-averaged diffusion model

Schöpfer:: Fillo, Aaron J., Schlup, Jason, Beardsell, Guillaume, Blanquart, Guillaume, and Niemeyer, Kyle E.
Abstract:: This data contains results from direct numerical simulations of three-dimensional, premixed, hydrogen/air flames, using the mixture-averaged diffusion model. We performed the simulations using the finite-difference code NGA; simulation details are described completely in the associated article.
Resource Type:: Dataset

Direct numerical simulation results for turbulent hydrogen/air flame: multicomponent diffusion model

Schöpfer:: Fillo, Aaron J., Schlup, Jason, Beardsell, Guillaume, Blanquart, Guillaume, and Niemeyer, Kyle E.
Abstract:: This data contains results from direct numerical simulations of three-dimensional, premixed, hydrogen/air flames, using the multicomponent diffusion model. We performed the simulations using the finite-difference code NGA; simulation details are described completely in the associated article.
Resource Type:: Dataset

A New Approach of Computational Fluid Dynamics Studying Power Transient Critical Heat Flux

Schöpfer:: Chen, Tsung-Wen
Abstract:: Power transient boiling has been studied for decades, however, the mechanistic understanding of phenomena which occur during such an event remains incomplete. Due to a dearth of systematic researches, the information of studied phenomenon, detailed physics and applicable hypothesis are very limited. Transient critical heat flux (CHF) is paramount in...
Resource Type:: Masters Thesis

A Computational Fluid Dynamics Study on the Hydrodynamics for Tandem Plate Configurations under Turbulent Flow

Schöpfer:: Gjemso, Jonathan
Abstract:: The subject of fluid-structure interactions (FSI) are a matter concerning the design of any element immersed in a fluid. One of the most critical phenomena embedded within the scope of FSI is the creation of vortex-induced vibrations (VIV). These type of vibrations originate in a given body as a result...
Resource Type:: Masters Thesis

Computational Fluid Dynamics Benchmark Analysis of an Historical Sodium Loop Experiment

Schöpfer:: Moore, Thomas M.
Abstract:: Sodium cooled nuclear reactors are being considered for the next generation of nuclear power plants to provide clean electricity to the world. To prove the safety of these reactors, the fuel must be shown to safely handle large neutron fluxes that cause a spike in the thermal output of the...
Resource Type:: Masters Thesis

Swept time-space domain decomposition on GPUs and heterogeneous computing systems

Schöpfer:: Magee, Daniel J.
Abstract:: Modern scientific and engineering problems often require simulations with a level of resolution difficult to achieve in reasonable amounts of time—even in effectively parallelized programs. Therefore, applications that exploit high performance computing (HPC) systems have become invaluable in academia and industry over the past two decades. Addressing the questions that...
Resource Type:: Masters Thesis

Heat Loss Characterization of NIST-1's Containment Vessel

Schöpfer:: Yoshiura, Ramon K.
Abstract:: NuScale Power has designed a small modular reactor using natural circulation cooling dependent systems for both steady-state and transient operations. The NuScale Integral Test System (NIST-1) facility was built to supply test data to NuScale Power to verify and validate computer codes for the NuScale Power Mod- ule (NPM) with...
Resource Type:: Masters Thesis

Hyrax

Assessing the impact of multicomponent diffusion in direct numerical simulations of premixed, high-Karlovitz, turbulent flames: toluene data

Assessing the impact of multicomponent diffusion in direct numerical simulations of premixed, high-Karlovitz, turbulent flames: n-heptane data

Assessing the impact of multicomponent diffusion in direct numerical simulations of premixed, high-Karlovitz, turbulent flames: hydrogen data

Direct numerical simulation results for turbulent hydrogen/air flame: mixture-averaged diffusion model

Direct numerical simulation results for turbulent hydrogen/air flame: multicomponent diffusion model

A New Approach of Computational Fluid Dynamics Studying Power Transient Critical Heat Flux

A Computational Fluid Dynamics Study on the Hydrodynamics for Tandem Plate Configurations under Turbulent Flow

Computational Fluid Dynamics Benchmark Analysis of an Historical Sodium Loop Experiment

Swept time-space domain decomposition on GPUs and heterogeneous computing systems

Heat Loss Characterization of NIST-1's Containment Vessel

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