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Tutorial on Quantification of Differences between Single- and Two-Component Two-Phase Flow and Heat Transfer | 3 | |
Electric Field Effect on Bubble Detachment in Variable Gravity Environment | 17 | |
Superluminal Signals | 25 | |
Thermal Vacuum Testing of a Novel Loop Heat Pipe Design for the Swift BAT Instrument | 33 | |
Development and Test Results of a Multi-Evaporator-Condenser Loop Heat Pipe | 42 | |
Development of a Two-Phase Capillary Pumped Heat Transport for Spacecraft Central Thermal Bus | 49 | |
Flight Testing of the Capillary Pumped Loop 3 Experiment | 55 | |
Solar Selective Coatings for High Temperature Applications | 65 | |
Sorption Heat Pipe - A New Thermal Control Device for Space Applications | 71 | |
Comparison Between Acetone and Ammonia on the Thermal Performance of a Small-Scale Capillary Pumped Two-Phase Loop | 80 | |
Development Status of the Mechanically Pumped Two-Phase CO[subscript 2] Cooling Loop for the AMS-2 TTCS | 88 | |
SAFE-100 Module Fabrication and Test | 96 | |
Alkali Metal Handling Practices at NASA MSFC | 101 | |
Transient Thermohydraulic Heat Pipe Modeling: Incorporating THROHPUT into the CAESAR Environment | 106 | |
SAFE Alkali Metal Heat Pipe Reliability | 114 | |
Effect of Non-Ionic Surfactants on Nucleate Pool Boiling | 122 | |
Heater Size and Gravity Effects on Pool Boiling Heat Transfer | 132 | |
Bubble Behavior in Subcooled Pool Boiling of Water under Reduced Gravity | 142 | |
A Fundamental Study Regarding the Control of Nucleate Boiling in a Complex Magnetizable Fluid By an Applied Magnetic Field, in Microgravity Conditions | 149 | |
Variable Emittance Materials Based on Conducting Polymers for Spacecraft Thermal Control | ||
Electrostatic Applique for Spacecraft Temperature Control | 162 | |
All-Solid-State Electrochromic Variable Emittance Coatings for Thermal Management in Space | 172 | |
Controlling Micro ElectroMechanical Systems (MEMS) in Space | 180 | |
MAP Propulsion System Thermal Design | 187 | |
Development of a Thermal Control Architecture for the Mars Exploration Rovers | 194 | |
Active Heat Rejection System on Mars Exploration Rover - Design Changes from Mars Pathfinder | 206 | |
Across-Gimbal and Miniaturized Cryogenic Loop Heat Pipes | 218 | |
Test Cell for a Novel Planar MEMS Loop Heat Pipe Based on Coherent Porous Silicon | 227 | |
Zero-Gravity Test Results For Ultrasonic Sensing of Air-Liquid Interface in a Vortex Separator | 239 | |
Experimental Investigation on Wetting of a Binary Volatile Sessile Drop | 247 | |
Evolving Markets for Commercial, Civil, and Military Services | 257 | |
A Current Summary of RLV Activities in the U.S. | 263 | |
Water Detection and Removal From Shuttle Tiles | 269 | |
Launch System Testbed: An Innovative Approach for Design and Development of Future Launch Structures | 276 | |
High Altitude Launch for a Practical SSTO | 290 | |
Electrochemical Evaluation of Alloys for Spaceport Design | 296 | |
Intelligent Launch and Range Operations Testbed | 304 | |
The Successful Development of an Automated Rendezvous and Capture (AR&C) System for the National Aeronautics and Space Administration | 313 | |
Development of NASA Technical Standards Program Relative to Enhancing Engineering Capabilities | 320 | |
Functions and Requirements in the Advanced Spaceport Environment | 325 | |
The Road to a Spaceport | 333 | |
NEPTranS; A Shuttle-Tended NEP Interplanetary Transportation System | 339 | |
A Fission Powered Mars Telecommunications Orbiter Mission Concept | 347 | |
Mission Concept for a Nuclear Reactor-Powered Mars Cryobot Lander | 353 | |
Coated Particles Fuel Compact-General Purpose Heat Source for Advanced Radioisotope Power Systems | 361 | |
Energy Conversion Options for Advanced Radioisotope Power Systems | 368 | |
Design Concept for a Nuclear Reactor-Powered Mars Rover | 376 | |
High Efficiency Thermoelectrics in NEP Reactor Power Systems | 384 | |
Conceptual Design of a 100-kWe Space Nuclear Reactor Power System with High-Power AMTEC | 397 | |
Pin-Type Gas Cooled Reactor for Nuclear Electric Propulsion | 408 | |
Liquid Metal Cooled Reactor for Space Power | 420 | |
MITEE-B: A Compact Ultra Lightweight Bi-modal Nuclear Propulsion Engine for Robotic Planetary Science Missions | 429 | |
Design and Development of the MITEE-B Bi-Modal Nuclear Propulsion Engine | 438 | |
Direct-Drive Gas-Cooled Reactor Power System: Concept and Preliminary Testing | 445 | |
Test Facilities in Support of High Power Electric Propulsion Systems | 451 | |
Thermal Stress Calculations for Heatpipe-Cooled Reactor Power Systems | 457 | |
A Method for the Analysis of Impact Events Involving Nested Safety Systems | 466 | |
A Brief Discussion of Uncertainty as It Relates to Space Nuclear Safety Analyses | 476 | |
First Results of the Gasdynamic Mirror Fusion Propulsion Experiment | 483 | |
A Design Study of a p-[superscript 11]B Gasdynamic Mirror Fusion Propulsion System | 490 | |
Antimatter Driven P-B[superscript 11] Fusion Propulsion System | 497 | |
Ablation Radiation Shields for Nuclear Fusion Rockets | 502 | |
Fusion Propulsion Through a Magnetic Nozzle and Open Divertor | 510 | |
MPD Thruster Performance Analytic Models | 516 | |
MW-Class Thruster Experiments at NASA GRC | 525 | |
Non-Nuclear NEP System Testing | 533 | |
Numerical Simulations of the Pulsed Inductive Thruster | 540 | |
A Nuclear-Powered Laser-Accelerated Plasma Propulsion System | 547 | |
Fusion Ship II - A Fast Manned Interplanetary Space Vehicle Using Inertial Electrostatic Fusion | 553 | |
Ion Dynamic Capture Experiments with the High Performance Antiproton Trap (HiPAT) | 563 | |
On the Performance Prediction and Scale Modelling of a Motorised Momentum Exchange Propulsion Tether | 571 | |
Developments in Turbo-Brayton Power Converters | 580 | |
Concepts for a Capillary-Pumped Heat Engine | 589 | |
Technology Concept for a Near-Term Closed Brayton Cycle Power Conversion Unit | 597 | |
Radiator Concepts for Nuclear Powered Brayton Conversion Systems | 605 | |
NASA GRC Stirling Technology Development Overview | 613 | |
Experimental Results from a 2 kW Brayton Power Conversion Unit | 621 | |
Technology Development Program for an Advanced Potassium Rankine Power Conversion System Compatible with Several Space Reactor Designs | 629 | |
Development of a Dynamic, End-to-End Free Piston Stirling Convertor Model | 635 | |
Initial Tests of a Thermoacoustic Space Power Engine | 641 | |
Reliability Assessment Approach for Stirling Convertors and Generators | 648 | |
Thermoacoustic Space Power Converter | 656 | |
Advanced 35 W Free-Piston Stirling Engine for Space Power Applications | 662 | |
Overview of NASA Multi-Dimensional Stirling Convertor Code Development and Validation Effort | 668 | |
A Closed Brayton Power Conversion Unit Concept for Nuclear Electric Propulsion for Deep Space Missions | 677 | |
Development, Evaluation, and Design Applications of an AMTEC Converter Model | 685 | |
Effect of Long Term, High Temperature Annealing on the Strength of Beta"-Alumina Ceramics | 701 | |
AMTEC Response to Changes in Resistive Loading | 708 | |
Comparison of Measurement Techniques for Determining the Thermal Emittance of Coupons at Elevated Temperatures | 715 | |
Recent Developments in Mixed Ionic and Electronic Conducting Electrodes for the Alkali Metal Thermal Electric Converter (AMTEC) | 722 | |
High Power AMTEC Converters for Deep-Space Nuclear Reactor Power Systems | 730 | |
Design Optimization of High-Power, Liquid Anode AMTEC | 740 | |
Application of Electrometer Technology to Materials Evaluation for Future Planetary Spaceports | 751 | |
Effects of Collector Temperature on the Performance of Grooved Electrode Thermionic Converters | 757 | |
Advanced Thermionic Converter Technology Program | 766 | |
A 100-kWt NaK-Cooled Space Reactor Concept for an Early-Flight Mission | 774 | |
The Impact of Mission Performance Requirements on the Development of an Early-Flight Space Fission Reactor | 780 | |
Hardware Based Technology Assessment in Support of Near-Term Space Fission Missions | ||
Implementing a New Line of Medium-Class, Unmanned Space Exploration Missions | 790 | |
Considerations and Lessons Learned in Implementing Effective, Low-Cost, Unmanned Space Exploration Missions | 798 | |
SAFE Testing Nuclear Rockets Economically | 805 | |
Looking Backward, Looking Forward | 814 | |
Revolutionary Concepts for Human Outer Planet Exploration (HOPE) | 821 | |
"Bimodal" Nuclear Thermal Rocket (BNTR) Propulsion for an Artificial Gravity HOPE Mission to Callisto | 829 | |
High Power MPD Nuclear Electric Propulsion (NEP) for Artificial Gravity HOPE Missions to Callisto | 837 | |
High Power Nuclear Electric Propulsion (NEP) for Cargo and Propellant Transfer Missions in Cislunar Space | 844 | |
Robots and Humans: Synergy in Planetary Exploration | 853 | |
Novel Amine-Functional Membrane for Metabolic CO2 Removal from Spacesuit Breathing Loop | 861 | |
The International Space Station Habitat | 869 |
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Add Space Technology and Applications International Forum-Staif, 2003 Conference on Thermophysic..., The proceedings document the most recent publications in a number of key areas of space technology, space nuclear power and propulsion systems and technology, solar system exploration technology, and advanced innovative propulsion concepts. The technical , Space Technology and Applications International Forum-Staif, 2003 Conference on Thermophysic... to the inventory that you are selling on WonderClubX
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Add Space Technology and Applications International Forum-Staif, 2003 Conference on Thermophysic..., The proceedings document the most recent publications in a number of key areas of space technology, space nuclear power and propulsion systems and technology, solar system exploration technology, and advanced innovative propulsion concepts. The technical , Space Technology and Applications International Forum-Staif, 2003 Conference on Thermophysic... to your collection on WonderClub |