Gt2022 -80865-quasi-two-dimensional Numerical Model For Shock Wave Reformers
To ensure access to sustainable, affordable, reliable, and clean energy for all, the energy sector must be transformed. Hydrogen offers an excellent potential to replace much of the fossil fuel use. At present, the main methods of hydrogen production typically release a non-negligeable volume of greenhouse gases (GHG) either directly via fossil fuel transformation or […]
Parametric Numerical Study on the Performance Characteristics of a Micro Wave Rotor
Over the past years, a growing demand for robotic and autonomous systems in both the civilian and defence market has developed. Applications range from unmanned aircraft systems to autonomous marine robots and mobile power packs used in the military [1]. These devices need to be compact and require energy dense power sources in order to […]
The Use of Wave Machinery for Power Generation and Production of Hydrogen as Gas Turbine Fuel
Gas turbines present a unique opportunity to generate power outputs and have been widely used in power plants, stationary power generation, and propulsion systems. Increasing concern regarding global warming has urged the gas turbine industry to reduce CO2 emissions from gas turbines. A leading solution is the use of hydrogen as a carbon-free fuel or […]
2020 Validation Of A Numerical Quasi One-dimensional Model For Wave Rotor Turbines With Curved Channels
Introduction Over the past decades, numerous research studies have been dedicated toward the investigation of dynamic pressure exchange machinery, such as wave rotors. These devices use the energy carried in moving shock waves to transfer energy from one stream of fluid to another without the need to incorporate additional mechanical parts. This advantage, in combination […]
NWH2 Ammonia_H2 Jet Fuel and Turbines AIAA 2022-2048
Investigation of Ammonia-Hydrogen Mixture as a Green Fuel for Jet Engines Using a Wave Reformer Pejman Akbari1 California State Polytechnic University Pomona, CA, 91768, USA Colin D. Copeland2 Simon Fraser University Vancouver, BC, V3T 4B7, Canada Stefan Tüchler3 New Wave Hydrogen Inc., Canada Alison M. Ferris4 Stanford University, Stanford, CA 94305, USA David F. Davidson5 […]
IMECE2021-Final Novel Method for Low Cost H2
Proceedings of the ASME 2021 International Mechanical Engineering Congress and Exposition Pejman Akbari California State Polytechnic University Pomona, California pejmanakbari@cpp.edu Colin D. Copeland Simon Fraser University Vancouver, Canada colin_copeland@sfu.ca Stefan Tüchler University of Bath Bath, United Kingdom stefan.tuechler@bath.edu Mark Davidson New Wave Hydrogen, Inc. Gainesville, Florida mark@thetechtoybox.org Seyyed V. Mahmoodi-Jezeh Simon Fraser University […]
NUMERICAL STUDY OF METHANE PYROLYSIS INSIDE A SINGLE-CHANNEL SHOCK WAVE REFORMER
Proceedings of ASME Turbo Expo 2022 Turbomachinery Technical Conference and Exposition School of Sustainable Energy Engineering, Simon Fraser University,Surrey, BC V3T 4B7, Canada Department of Mechanical Engineering, University of Bath, Claverton Down, Bath, Somerset BA2 7AY, United Kingdom New Wave Hydrogen, Inc., Gainesville, Florida, USA Department of Mechanical Engineering, California State Polytechnic University, Pomona, CA […]