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- Vapor Pressures of Hydrogen, Deuterium, and Hydrogen Deuteride and Dew-Point Pressures of Their Mixtures
- Download Practical Application Limits of Fuel Cells and Batteries for Zero-Emission Vessels Final Report
- Effects of Hydrogen Peroxide on Common Aviation Textiles
- Liquid Hydrogen
- Development of the Liquid Hydrogen Cold Neutron Source for the NIST Research Reactor (NBSR)
- Refrigerated Liquid Hydrogen Safety Data Sheet
- Tomorrow Experiencing Technology with Schaeffler ⋅ Experiencing Technology with Schaeffler Agility ⋅ Issue 1/2021 1/2021 Issue
- HYDROGEN PROPERTIES Cell Engines
- Estimating Changes in Urban Ozone Concentrations Due to Life Cycle Emissions from Hydrogen Transportation Systems
- Green Hydrogen Cost Reduction: Scaling up Electrolysers to Meet the 1.5⁰C Climate Goal , International Renewable Energy Agency, Abu Dhabi
- Hydrogen Powered Vehicle the Case for Hydrogen Internal Combustion Engines Adam Campisi, Kyle Bartosik Stephen Poppa, Casey Rivera Advisor: Professor Brian Savilonis
- The Science Behind Liquid Hydrogen Fueling
- Evaluation of Ozone Difluoride As a Liquid Propellant Additive
- Centaur First in Space with Liquid Hydrogen
- Ortho-Para Catalysis in Liquid-Hydrogen Production I
- Current Status of Hydrogen Liquefaction Costs
- The Interaction of Chromium Oxide with Alz03, Tioz and Sio? Supports Is Investigated with Raman Spectroscopy. the Influence of T
- NIST Liquid Hydrogen Cold Source
- Dynamical Model of Rocket Propellant Loading with Liquid Hydrogen
- Hydrogen-Fueled Internal Combustion Engines
- Design and Fabrication of Hydrogen Powered IC Engine
- A Method for Real-Time Fault Detection of Liquid Rocket Engine Based on Adaptive Genetic Algorithm Optimizing Back Propagation Neural Network
- Hydrogen Use in Internal Combustion Engines
- Use of Cryogenic Components of Propellants for Liquid-Propellant Rocket Engines and in Life Support Systems of Manned Space Vehicles Sergei A
- M2H2: Hydrail's Fast Track to Clean Energy Fuel Cells
- The History of Ozone. Iv. the Isolation of Pure Ozone and Determination of Its Physical Properties (1)
- Ammonia As Virtual Hydrogen Carrier
- The Liquid Hydrogen Moderator at the NIST Research Reactor
- Simulation and Optimization of a Hydrogen Internal Combustion Engine
- Measuring and Modeling the Solubility of Hydrogen Sulfide in Rfecl3
- Comparative Study of Hydrogen and Methanol As Energy Carriers
- Hydrogen As a Maritime Fuel–Can Experiences with LNG Be Transferred to Hydrogen Systems?
- Liquid Hydrogen: High Energy Rocket Fuel
- Technical Report for Hydrogen Peroxide Methods for Decontaminating N95 Respirators
- Next Steps for Hydrogen Physics, Technology and the Future the Institute of Physics Is a Leading Scientific Society
- Hydrail Deployment in Canada – Defining the Prerequisites
- Is Hygrogen Safe?
- HYDROGEN STRATEGY for CANADA Seizing the Opportunities for Hydrogen a Call to Action December, 2020
- Hydrogen-Powered Drives for E-Scooters
- 4.2.1 Rockets and Launch Vehicles
- Materials for End-To-End Hydrogen
- Hydrogen As an Energy Carrier for Railway Traction
- 4.1 Writing and Balancing Chemical Equations
- BMW Hydrogen 7. Contents
- Charge Induced Enhancement of Adsorption for Hydrogen Storage Materials
- Propulsion Estimates for High Energy Lunar Missions Using Future Propellants
- A Dynamical Model of Rocket Propellant Loading with Liquid Hydrogen
- Hydrail Feasibility Study Report
- Insulator-Metal Transition in Liquid Hydrogen and Deuterium
- Min Zhu, Room A+B Plenary 1: Gavin W
- Presentation Slides
- DECARBONISING MARITIME OPERATIONS in NORTH SEA OFFSHORE WIND O&M Innovation Roadmap Produced for the UK Government Dft and FCDO CONTENTS
- Hydrogen Internal Combustion Engine Two Wheeler with On-Board Metal Hydride Storage