Search Results - "Schrader, Andrew J."

Repeated elevated plus maze trials as a measure for tracking within-subjects behavioral performance in rats (Rattus norvegicus) by Schrader, Andrew J, Taylor, Rachel M, Lowery-Gionta, Emily G, Moore, Nicole L T

“…The elevated plus maze (EPM) is routinely used in neuroscience research to evaluate emotional behavior in rodents by measuring general exploratory performance…”
Get full text

Is cerebral perfusion maintained during full and partial resuscitative endovascular balloon occlusion of the aorta in hemorrhagic shock conditions? by Benham, Derek A., Calvo, Richard Y., Carr, Matthew J., Wessels, Lyndsey E., Schrader, Andrew J., Lee, Joseph J., Krzyzaniak, Michael J., Martin, Matthew J.

“…BACKGROUND Partial resuscitative endovascular balloon occlusion of the aorta (pREBOA) is a technology that occludes aortic flow and allows for controlled…”
Get full text

Experimental demonstration of a 5 kWth granular-flow reactor for solar thermochemical energy storage with aluminum-doped calcium manganite particles by Schrader, Andrew J., Schieber, Garrett L., Ambrosini, Andrea, Loutzenhiser, Peter G.

“…•Aluminum-doped calcium manganite proposed as thermochemical energy storage medium.•5 kWth solar thermochemical inclined granular-flow reactor tested.•X-ray…”
Get full text

Aluminum-doped calcium manganite particles for solar thermochemical energy storage: Reactor design, particle characterization, and heat and mass transfer modeling by Schrader, Andrew J., Bush, H. Evan, Ranjan, Devesh, Loutzenhiser, Peter G.

“…•Solar thermochemical inclined granular flow reactor designed and fabricated.•Aluminum-doped calcium manganite proposed as thermochemical energy storage…”
Get full text

Solar electricity via an Air Brayton cycle with an integrated two-step thermochemical cycle for heat storage based on Co3O4/CoO redox reactions: Thermodynamic analysis by Schrader, Andrew J., Muroyama, Alexander P., Loutzenhiser, Peter G.

“…•Coupled Air Brayton cycle and solar two-step thermochemical cycle proposed.•Heat storage based on Co3O4/CoO redox reactions.•Thermodynamic and exergy analysis…”
Get full text

Solar electricity via an Air Brayton cycle with an integrated two-step thermochemical cycle for heat storage based on Co3O4/CoO redox reactions II: Kinetic analyses by Muroyama, Alexander P., Schrader, Andrew J., Loutzenhiser, Peter G.

“…•Coupled Air Brayton cycle and two-step solar thermochemical cycle.•Heat storage based on CoO/Co3O4 redox reactions.•Kinetic analyses conducted using…”
Get full text

Measurement of flow properties coupled to experimental and numerical analyses of dense, granular flows for solar thermal energy storage by Bagepalli, Malavika V., Yarrington, Justin D., Schrader, Andrew J., Zhang, Zhuomin M., Ranjan, Devesh, Loutzenhiser, Peter G.

“…•Refractory granular media enable high temperature solar thermal energy storage.•Granular flow is characterized by particle flow properties.•Controlled…”
Get full text

Solar electricity via an Air Brayton cycle with an integrated two-step thermochemical cycle for heat storage based on Co3O4/CoO redox reactions III: Solar thermochemical reactor design and modeling by Schrader, Andrew J., De Dominicis, Gianmarco, Schieber, Garrett L., Loutzenhiser, Peter G.

“…•Solar thermochemical inclined granular flow reactor proposed.•5 kWth prototype reactor heat transfer model performed.•Quartz window a non-limiting design…”
Get full text

Numerical analyses of high temperature dense, granular flows coupled to high temperature flow property measurements for solar thermal energy storage by Yarrington, Justin D., Bagepalli, Malavika V., Pathikonda, Gokul, Schrader, Andrew J., Zhang, Zhuomin M., Ranjan, Devesh, Loutzenhiser, Peter G.

“…•Refractory granular media enable high temperature solar thermal energy storage.•High temperature granular flows are characterized with particle flow…”
Get full text

Optimization of a Plasmodium falciparum circumsporozoite protein repeat vaccine using the tobacco mosaic virus platform by Langowski, Mark D., Khan, Farhat A., Bitzer, Alexis A., Genito, Christopher J., Schrader, Andrew J., Martin, Monica L., Soto, Kimberly, Zou, Xiaoyan, Hadiwidjojo, Sri, Beck, Zoltan, Matyas, Gary R., Livingstone, Merricka C., Batchelor, Adrian H., Dutta, Sheetij

“…Plasmodium falciparum vaccine RTS,S/AS01 is based on the major NPNA repeat and the C-terminal region of the circumsporozoite protein (CSP). RTS,S-induced…”
Get full text

Real-time bedside management and titration of partial resuscitative endovascular balloon occlusion of the aorta without an arterial line: Good for pressure, not for flow by Carr, Matthew J., Benham, Derek A., Lee, Joseph J., Calvo, Richard Y., Wessels, Lyndsey E., Schrader, Andrew J., Krzyzaniak, Michael J., Martin, Matthew J.

“…Partial resuscitative endovascular balloon occlusion of the aorta (pREBOA) attempts to minimize ischemia/reperfusion injury while controlling hemorrhage. There…”
Get full text

Strategies to Improve Management of Acute Watery Diarrhea during a Military Deployment: A Cost Effectiveness Analysis by Schrader, Andrew J, Tribble, David R, Riddle, Mark S

“…To inform policy and decision makers, a cost-effectiveness model was developed to predict the cost-effectiveness of implementing two hypothetical management…”
Get full text

IS CEREBRAL PERFUSION MAINTAINED DURING FULL AND PARTIAL REBOA IN HEMORRHAGIC SHOCK CONDITIONS? by Benham, Derek A., Calvo, Richard Y., Carr, Matthew J., Wessels, Lyndsey E., Schrader, Andrew J., Lee, Joseph J., Krzyzaniak, Michael J., Martin, Matthew J.

“…Partial resuscitative endovascular balloon occlusion of the aorta (pREBOA) is a technology that occludes aortic flow and allows for controlled deflation and…”
Get full text

Aluminum-doped calcium manganite particles for solar thermochemical energy storage: Reactor design, particle characterization, and heat and mass transfer modeling by Schrader, Andrew J., Bush, H. Evan, Ranjan, Devesh, Loutzenhiser, Peter G.

“…A two-step cycle is discussed for solar thermochemical energy storage based on particulate aluminum-doped calcium manganite reduction/oxidation reactions for…”
Get full text

Experimental demonstration of a 5kWth scale granular-flow reactor for solar thermochemical energy storage with aluminum doped calcium manganite particles by Schrader, Andrew J., Schieber, Garrett L., Ambrosini, Andrea, Loutzenhiser, Peter L.

Get full text

Numerical analyses of high temperature dense, granular flows coupled to high temperature flow property measurements for solar thermal energy storage by Yarrington, Justin D., Bagepalli, Malavika V., Pathikonda, Gokul, Schrader, Andrew J., Zhang, Zhuomin M., Ranjan, Devesh, Loutzenhiser, Peter G.

“…High temperature particle flow properties necessary to predict granular flow behavior for solar thermal energy storage applications were measured and…”
Get full text

Real-Time Bedside Management and Titration of Partial REBOA without an Arterial Line: Good for Pressure, Not for Flow by Carr, Matthew J., Benham, Derek A., Lee, Joseph J., Calvo, Richard Y., Wessels, Lyndsey E., Schrader, Andrew J., Krzyzaniak, Michael J., Martin, Matthew J.

Get full text

Solar electricity via an Air Brayton cycle with an integrated two-step thermochemical cycle for heat storage based on Co^sub 3^O^sub 4^/CoO redox reactions II: Kinetic analyses by Muroyama, Alexander P, Schrader, Andrew J, Loutzenhiser, Peter G

“…A two-step solar thermochemical cycle based on ... redox reactions integrated into an Air Brayton cycle is considered for thermochemical heat storage. The…”
Get full text

Solar electricity via an Air Brayton cycle with an integrated two-step thermochemical cycle for heat storage based on Co^sub 3^O^sub 4^/CoO redox reactions: Thermodynamic analysis by Schrader, Andrew J, Muroyama, Alexander P, Loutzenhiser, Peter G

“…Solar electricity production is considered in an Air Brayton cycle with an integrated two-step thermochemical cycle for heat storage based on Co...O.../CoO…”
Get full text

Solar electricity via an Air Brayton cycle with an integrated two-step thermochemical cycle for heat storage based on Co^sub 3^O^sub 4^/CoO redox reactions III: Solar thermochemical reactor design and modeling by Schrader, Andrew J, De Dominicis, Gianmarco, Schieber, Garrett L, Loutzenhiser, Peter G

“…A two-step solar thermochemical cycle based on Co3O4/CoO redox reactions integrated into an Air Brayton cycle is considered for thermochemical heat storage…”
Get full text