Explore Books on
brayton cycle

2 kWe Solar Dynamic Ground Test Demonstration Project

By Dennis Alexander

Technology for Brayton-cycle space powerplants using solar and nuclear energy

By Robert E. English

High-speed engine/component performance assessment using exergy and thrust-based methods

By D. W. Riggins

Design of the heat receiver for the U.S./Russia solar dynamic power joint flight demonstration

By Hal J. Strumpf

Brayton cycle vapor chamber (heat pipe) radiator study

By E. E. Gerrels

Brayton-cycle turbomachinery rolling-element bearings

By Cohen, Raymond

Solar dynamic heat rejection technology

By Eric Gustafson

800 hours of operational experience from a 2 kW[subscript e] solar dynamic system

By Richard K. Shaltens

Improved boundary layer heat transfer calculations near a stagnation point

By Kyung Hwan Ahn

Analysis of thermal energy storage material with change-of-phase volumetric effects

By Thomas W. Kerslake

Human exploration and settlement of the moon using LUNOX-augmented NTR propulsion

By Stanley K. Borowski

A comparison of Brayton and Stirling space nuclear power systems for power levels from 1 kilowatt to 10 megawatts

By Lee S. Mason

Development of lightweight radiators for lunar based power systems

By Albert J. Juhasz

Early results from solar dynamic space power system testing

By Richard K. Shalten

Advanced supercritical carbon dioxide power cycle configurations for use in concentrating solar power systems

By Zhiwen Ma

Thermal state-of-charge in solar heat receivers

By

On the thermodynamic spectrum of airbreathing propulsion

By Carl H. Builder