Home News Hydrogen Tech Redefines Geoscience’s Role in Energy Future I+D 3 MIN. READ Hydrogen Tech Redefines Geoscience’s Role in Energy Future SHARE Leading the Way: Hydrogen Detection Instrument Driving Geoscience’s Energy Transition and Natural Capital Mapping Agenda The Hydrogen Mapping Airborne Spectrometer H-MAS will mean a beforeand after in the approach and understanding of hydrogen as an energy source. Xcalibur Multiphysics, a leading innovator in advanced technology solutions, is pleased to announce a 12-month research agreement in collaboration with Curtin University of Technology to develop an instrument for the long-range detection of hydrogen. This partnership represents a significant step forward in the quest to harness clean energy sources and combat climate change. H-MAS, short for Hydrogen Mapping Airborne Spectrometer, is poised to be a ground breaking tool that will allow for the reliable, rapid, and remote detection of low concentrations of atmospheric hydrogen. Hydrogen is increasingly recognized as a clean and abundant energy source, andnaturally occurring hydrogen is seen as a valuable adjunct to large scale generation. The detection and mapping of these natural resources is the primary motivation forthis project. The transition to hydrogen will not be without hazards, and the technology developed will also be valuable for the remote detection of hydrogenleaks from large scale storage and production facilities or pipelines. The development team comprises Professor Charlie Ironside, who has over 30 years of experience in semiconductor optoelectronics research, Emeritus Professor MervynLynch, with 60 years of experience in remote sensing research, and Dr Jacob Martin,whose expertise in ultrafast laser spectroscopy will be extremely valuable. Complementing this group is Andrew Lockwood, from Xcalibur Multiphysics, who brings 30 years of applied geophysics research to the team. Xcalibur Multiphysics aims to play a pivotal role in the pursuit of a just energy transition, and its commitment to advancing hydrogen detection technology aligns with the urgent global transition toward sustainable and secure energy sources. In words of Andres Blanco, CEO of Xcalibur Multiphysics: we firmly believe that responsible mapping of natural resources is the corner stone of a more sustainable global economy. With our commitment to H-MAS, we are entering an era where our perception of hydrogen within the current energy landscape will under go a profound transformation, bringing us closer to realizing our vision of a greener, more sustainable future. < SEE PREVIOUS NEW SEE NEXT NEW > < > Related news I+D Condor Airborne Laplacian Gravity Xcalibur Multiphysics & Lockheed Martin to create next generation airborne gravity gradiometer SEE MORE > I+D Xcalibur Multiphysics updates MagCUBE IFR WebMap via ArcGIS Online SEE MORE > Blog – Analysis and expert opinion Airborne Gravity Data Capture and Geoid Modelling SEE MORE > Last news Xcalibur Smart Mapping completes 66,000 km airborne survey in France’s Central Massif SEE MORE > Blog – Analysis and expert opinion Einstein-First project: Supporting a brighter future in science education SEE MORE > Blog – Analysis and expert opinion Official Launch of Zambia’s High-Resolution Aerial Geophysical Survey Project SEE MORE > Last news Xcalibur Smart Mapping Partners with Curtin University to Pioneer Aerial Detection Technology for Natural Hydrogen Exploration SEE MORE > Last news Xcalibur Smart Mapping to support sustainable mining and natural capital exploration in Bhutan SEE MORE > Last news Technology Driving a Data-Driven Energy Transition SEE MORE > Last news Xcalibur Smart Mapping and Koloma Forge Partnership to Accelerate Global Natural Hydrogen Exploration SEE MORE > Contact us. FILL THE FORM
SHARE Leading the Way: Hydrogen Detection Instrument Driving Geoscience’s Energy Transition and Natural Capital Mapping Agenda The Hydrogen Mapping Airborne Spectrometer H-MAS will mean a beforeand after in the approach and understanding of hydrogen as an energy source. Xcalibur Multiphysics, a leading innovator in advanced technology solutions, is pleased to announce a 12-month research agreement in collaboration with Curtin University of Technology to develop an instrument for the long-range detection of hydrogen. This partnership represents a significant step forward in the quest to harness clean energy sources and combat climate change. H-MAS, short for Hydrogen Mapping Airborne Spectrometer, is poised to be a ground breaking tool that will allow for the reliable, rapid, and remote detection of low concentrations of atmospheric hydrogen. Hydrogen is increasingly recognized as a clean and abundant energy source, andnaturally occurring hydrogen is seen as a valuable adjunct to large scale generation. The detection and mapping of these natural resources is the primary motivation forthis project. The transition to hydrogen will not be without hazards, and the technology developed will also be valuable for the remote detection of hydrogenleaks from large scale storage and production facilities or pipelines. The development team comprises Professor Charlie Ironside, who has over 30 years of experience in semiconductor optoelectronics research, Emeritus Professor MervynLynch, with 60 years of experience in remote sensing research, and Dr Jacob Martin,whose expertise in ultrafast laser spectroscopy will be extremely valuable. Complementing this group is Andrew Lockwood, from Xcalibur Multiphysics, who brings 30 years of applied geophysics research to the team. Xcalibur Multiphysics aims to play a pivotal role in the pursuit of a just energy transition, and its commitment to advancing hydrogen detection technology aligns with the urgent global transition toward sustainable and secure energy sources. In words of Andres Blanco, CEO of Xcalibur Multiphysics: we firmly believe that responsible mapping of natural resources is the corner stone of a more sustainable global economy. With our commitment to H-MAS, we are entering an era where our perception of hydrogen within the current energy landscape will under go a profound transformation, bringing us closer to realizing our vision of a greener, more sustainable future.
Leading the Way: Hydrogen Detection Instrument Driving Geoscience’s Energy Transition and Natural Capital Mapping Agenda The Hydrogen Mapping Airborne Spectrometer H-MAS will mean a beforeand after in the approach and understanding of hydrogen as an energy source. Xcalibur Multiphysics, a leading innovator in advanced technology solutions, is pleased to announce a 12-month research agreement in collaboration with Curtin University of Technology to develop an instrument for the long-range detection of hydrogen. This partnership represents a significant step forward in the quest to harness clean energy sources and combat climate change. H-MAS, short for Hydrogen Mapping Airborne Spectrometer, is poised to be a ground breaking tool that will allow for the reliable, rapid, and remote detection of low concentrations of atmospheric hydrogen. Hydrogen is increasingly recognized as a clean and abundant energy source, andnaturally occurring hydrogen is seen as a valuable adjunct to large scale generation. The detection and mapping of these natural resources is the primary motivation forthis project. The transition to hydrogen will not be without hazards, and the technology developed will also be valuable for the remote detection of hydrogenleaks from large scale storage and production facilities or pipelines. The development team comprises Professor Charlie Ironside, who has over 30 years of experience in semiconductor optoelectronics research, Emeritus Professor MervynLynch, with 60 years of experience in remote sensing research, and Dr Jacob Martin,whose expertise in ultrafast laser spectroscopy will be extremely valuable. Complementing this group is Andrew Lockwood, from Xcalibur Multiphysics, who brings 30 years of applied geophysics research to the team. Xcalibur Multiphysics aims to play a pivotal role in the pursuit of a just energy transition, and its commitment to advancing hydrogen detection technology aligns with the urgent global transition toward sustainable and secure energy sources. In words of Andres Blanco, CEO of Xcalibur Multiphysics: we firmly believe that responsible mapping of natural resources is the corner stone of a more sustainable global economy. With our commitment to H-MAS, we are entering an era where our perception of hydrogen within the current energy landscape will under go a profound transformation, bringing us closer to realizing our vision of a greener, more sustainable future.