York / Burlington / CORRESPONDING / New York / Oxford / Philadelphia / Austin / /
Company
Large Thermal Systems / the AES / Applied Research Laboratories / / /
Facility
National Institute of Standards and Technology / Air Conditioning Plant / Prentice Hall / University of Texas / /
IndustryTerm
hot-gas / radar systems / overall energy balance accounts / energy principles / high-energy weapons / gas bubbles / dedicated gas turbines / gas turbine / ship systems / software results / pulsed-energy systems / simulation software / software packages / electronics packages / energy / smallest processor chip / electricity / universal gas constant / energy transport / shipboard thermal management / these advanced systems / control systems / optimization tool / electronics / research-based optimization tool / stable flow network solution / energy principle / power systems / flow networks / large dynamic thermal systems / /
Organization
200-TON CHILLER Parameter Refrigerant Mass Flow Compressor Power Condensing Pressure Evaporating Pressure Discharge Temperature Freshwater Outlet Temp Seawater Outlet Temp Unit / office of Naval Research / University of Texas at Austin / IAPWS Secretariat / International Association for the Properties of Water and Steam / Navy / National Institute of Standards and Technology / Naval Surface Warfare Center Carderock Division / United States Navy / Naval Sea Systems Command / /
Person
Patrick T. Hewlett / Thomas M. Kiehne / William Load / / /
Position
graduate research assistant / valve controller / normalized head / controller / /
ProgrammingLanguage
C++ / /
ProvinceOrState
Texas / Pennsylvania / /
SportsLeague
International Association / /
Technology
Fluid Dynamics / heat transfer / 2007 IEEE Electric Ship Technologies / condensation / smallest processor chip / Electric Machine Technology / Simulation / /
Dynamic Simulation of Ship-System Thermal Load Management Patrick T. Hewlett and Thomas M. Kiehne Abstract — Anticipating highly dynamic and reconfigurable future ships, the US Navy has sought to develop modeling a