Search Results - "Lindsay, Alexander D."

The Role of Interfacial Reactions in Determining Plasma–Liquid Chemistry by Anderson, Carly E., Cha, Nico R., Lindsay, Alexander D., Clark, Douglas S., Graves, David B.

“…In this work, we investigate the production of highly oxidative species in solutions exposed to a self-pulsed corona discharge in air. We examine how the…”
Get full text

MOOSE: Enabling massively parallel multiphysics simulation by Permann, Cody J., Gaston, Derek R., Andrš, David, Carlsen, Robert W., Kong, Fande, Lindsay, Alexander D., Miller, Jason M., Peterson, John W., Slaughter, Andrew E., Stogner, Roy H., Martineau, Richard C.

“…Harnessing modern parallel computing resources to achieve complex multiphysics simulations is a daunting task. The Multiphysics Object Oriented Simulation…”
Get full text

Effect of fire and tree-grass patches on soil nitrogen in Australian tropical savannas by RICHARDS, ANNA E., BRACKIN, RICHARD, LINDSAY, D. ALEXANDER J., SCHMIDT, SUSANNE

“…Fire is an important driver of nutrient cycling in savannas. Here, we determined the impact of fire frequency on total and soluble soil nitrogen (N) pools in…”
Get full text

Tritium Transport Modeling at the Pore Scale in Ceramic Breeder Materials Using TMAP8 by Simon, Pierre-Clement A., Humrickhouse, Paul W., Lindsay, Alexander D.

“…Fusion reactors depend on the blanket material to breed and release tritium at the same rate or faster than it is consumed by the fusion reaction. Cellular…”
Get full text

2.0 - MOOSE: Enabling massively parallel multiphysics simulation by Lindsay, Alexander D., Gaston, Derek R., Permann, Cody J., Miller, Jason M., Andrš, David, Slaughter, Andrew E., Kong, Fande, Hansel, Joshua, Carlsen, Robert W., Icenhour, Casey, Harbour, Logan, Giudicelli, Guillaume L., Stogner, Roy H., German, Peter, Badger, Jacob, Biswas, Sudipta, Chapuis, Leora, Green, Christopher, Hales, Jason, Hu, Tianchen, Jiang, Wen, Jung, Yeon Sang, Matthews, Christopher, Miao, Yinbin, Novak, April, Peterson, John W., Prince, Zachary M., Rovinelli, Andrea, Schunert, Sebastian, Schwen, Daniel, Spencer, Benjamin W., Veeraraghavan, Swetha, Recuero, Antonio, Yushu, Dewen, Wang, Yaqi, Wilkins, Andy, Wong, Christopher

“…The last 2 years have been a period of unprecedented growth for the MOOSE community and the software itself. The number of monthly visitors to the website has…”
Get full text

Development, verification, and validation of comprehensive acoustic fluid‐structure interaction capabilities in an open‐source computational platform by Dhulipala, Somayajulu L. N., Bolisetti, Chandrakanth, Munday, Lynn B., Hoffman, William M., Yu, Ching‐Ching, Mir, Faizan Ul Haq, Kong, Fande, Lindsay, Alexander D., Whittaker, Andrew S.

“…The acoustic fluid‐structure interaction (FSI) formulation is a practical numerical approach for the seismic analysis of fluid‐filled tanks. However, there are…”
Get full text

The MOOSE electromagnetics module by Icenhour, Casey T., Lindsay, Alexander D., Permann, Cody J., Martineau, Richard C., Green, David L., Shannon, Steven C.

“…The Multiphysics Object-Oriented Simulation Environment (MOOSE) electromagnetics module has been developed to increase MOOSE physics module capabilities,…”
Get full text

Overview of the incompressible Navier–Stokes simulation capabilities in the MOOSE framework by Peterson, John W., Lindsay, Alexander D., Kong, Fande

“…•We present an open source FEM for the incompressible Navier-Stokes equations based on the MOOSE framework.•Coordinate system agnostic weak…”
Get full text

Tritium Transport Modeling at the Pore Scale in Ceramic Breeder Materials Using TMAP8 by Simon, Pierre-Clement A., Humrickhouse, Paul W., Lindsay, Alexander D.

“…Fusion reactors depend on the blanket material to breed and release tritium at the same rate or faster than it is consumed by the fusion reaction. Cellular…”
Get full text

An approach to grid-to-rod fretting wear modeling using dynamic mortar contact by Recuero, Antonio, Lindsay, Alexander, Yushu, Dewen

“…This article presents the development of a grid-to-rod fretting (GTRF) modeling methodology that utilizes dynamic mortar contact. We leverage a recently…”
Get full text

Multidimensional modeling of fuel-cladding friction in an LWR fuel rod by Recuero, A.M., Gamble, K.A., Yushu, D., Lindsay, A.D.

“…Solving finite element problems with friction often increases the level of difficulty to obtain properly converged solutions. This type of challenge becomes…”
Get full text

A mortar thermomechanical contact computational framework for nuclear fuel performance simulation by Recuero, Antonio, Lindsay, Alexander, Yushu, Dewen, Peterson, John W., Spencer, Benjamin

“…[Display omitted] •Mortar thermomechanical contact using dual bases integrated into the open-source multiphysics framework moose.•Application to frictional…”
Get full text

Development, verification, and validation of comprehensive acoustic fluid-structure interaction capabilities in an open-source computational platform by Dhulipala, Somayajulu N., Bolisetti, Chandrakanth, Munday, Lynn B., Hoffman, William M., Yu, Ching‐Ching, Mir, Faizan Haq, Kong, Fande, Lindsay, Alexander D., Whittaker, Andrew S.

“…The acoustic fluid-structure interaction (FSI) formulation is a practical numerical approach for the seismic analysis of fluid-filled tanks. However, there are…”
Get full text

The MOOSE electromagnetics module by Icenhour, Casey T., Lindsay, Alexander D., Permann, Cody J., Martineau, Richard C., Green, David L., Shannon, Steven C.

“…The Multiphysics Object-Oriented Simulation Environment (MOOSE) electromagnetics module has been developed to increase MOOSE physics module capabilities,…”
Get full text

MOOSE Navier–Stokes module by Lindsay, Alexander, Giudicelli, Guillaume, German, Peter, Peterson, John, Wang, Yaqi, Freile, Ramiro, Andrs, David, Balestra, Paolo, Tano, Mauricio, Hu, Rui, Zou, Ling, Gaston, Derek, Permann, Cody, Schunert, Sebastian

“…The MOOSE Navier–Stokes module solves mass, momentum, energy, and passive scalar conservation equations in the context of fluid flow. The module supports…”
Get full text

Overview of the Incompressible Navier-Stokes simulation capabilities in the MOOSE Framework by Peterson, John W, Lindsay, Alexander D, Kong, Fande

“…The Multiphysics Object Oriented Simulation Environment (MOOSE) framework is a high-performance, open source, C++ finite element toolkit developed at Idaho…”
Get full text

A scalable multilevel domain decomposition preconditioner with a subspace-based coarsening algorithm for the neutron transport calculations by Kong, Fande, Wang, Yaqi, Gaston, Derek R, Lindsay, Alexander D, Permann, Cody J, Martineau, Richard C

“…The multigroup neutron transport equations has been widely used to study the interactions of neutrons with their background materials in nuclear reactors…”
Get full text

A highly parallel multilevel Newton-Krylov-Schwarz method with subspace-based coarsening and partition-based balancing for the multigroup neutron transport equations on 3D unstructured meshes by Kong, Fande, Wang, Yaqi, Gaston, Derek R, Permann, Cody J, Slaughter, Andrew E, Lindsay, Alexander D, Martineau, Richard C

“…The multigroup neutron transport equations have been widely used to study the motion of neutrons and their interactions with the background materials…”
Get full text

MOOSE: Enabling Massively Parallel Multiphysics Simulation by Permann, Cody J, Gaston, Derek R, Andrs, David, Carlsen, Robert W, Kong, Fande, Lindsay, Alexander D, Miller, Jason M, Peterson, John W, Slaughter, Andrew E, Stogner, Roy H, Martineau, Richard C

“…SoftwareX. 11 (2020) 100430 Harnessing modern parallel computing resources to achieve complex multi-physics simulations is a daunting task. The Multiphysics…”
Get full text

Religion, Science, and Society in the Modern World. By Frank H. Knight (Book Review) by Lindsay, Alexander D

Get full text