Add to ORKGIn order to ascertain the applicability of hydrogen sensors to aerospace applications, a survey was conducted of promising experimental point-contact hydrogen sensors and their operation was analyzed. The techniques discussed are metal-oxide-semiconductor or MOS based sensors, catalytic resistor sensors, acoustic wave detectors, and pyroelectric detectors. All of these sensors depend on the interaction of hydrogen with Pd or a Pd-alloy. It is concluded that no single technique will meet the needs of aerospace applications but a combination of approaches is necessary. The most promising combination is an MOS based sensor with a catalytic resistor
As the number of stationary and mobile applications using hydrogen steadily increases, due in part t...
Leaks on the Space Shuttle while on the Launch Pad have generated interest in hydrogen leak monitori...
Thin-film Fabry-Perot hydrogen sensors with various thicknesses of Palladium are simulated, optimize...
Hydrogen propellant leakage poses significant operational problems in the rocket propulsion industry...
Hydrogen is a component of spacecraft fuel that is explosive at atmospheric concentrations of four p...
System utilizing new type hydrogen sensor has overall detection sensitivity and response speed highe...
The objective of this project is to evaluate remote hydrogen sensing methodologies utilizing metal o...
This paper presents an overview of metal-hydride-based hydrogen sensors and evaluates their potentia...
This paper presents an overview of metal-hydride-based hydrogen sensors and evaluates their potentia...
Resistive hydrogen gas sensors based on palladium-hydrogen (Pd-H2) interactions were fabricated and ...
Resistive hydrogen gas sensors based on palladium-hydrogen (Pd-H2) interactions were fabricated and ...
This paper presents an overview of metal-hydride-based hydrogen sensors and evaluates their potentia...
Aeronautic and space applications require the development of chemical sensors with capabilities beyo...
Environmental deterioration and limited resources of hydrocarbons push the development of alternativ...
Environmental deterioration and limited resources of hydrocarbons push the development of alternativ...
As the number of stationary and mobile applications using hydrogen steadily increases, due in part t...
Leaks on the Space Shuttle while on the Launch Pad have generated interest in hydrogen leak monitori...
Thin-film Fabry-Perot hydrogen sensors with various thicknesses of Palladium are simulated, optimize...
Hydrogen propellant leakage poses significant operational problems in the rocket propulsion industry...
Hydrogen is a component of spacecraft fuel that is explosive at atmospheric concentrations of four p...
System utilizing new type hydrogen sensor has overall detection sensitivity and response speed highe...
The objective of this project is to evaluate remote hydrogen sensing methodologies utilizing metal o...
This paper presents an overview of metal-hydride-based hydrogen sensors and evaluates their potentia...
This paper presents an overview of metal-hydride-based hydrogen sensors and evaluates their potentia...
Resistive hydrogen gas sensors based on palladium-hydrogen (Pd-H2) interactions were fabricated and ...
Resistive hydrogen gas sensors based on palladium-hydrogen (Pd-H2) interactions were fabricated and ...
This paper presents an overview of metal-hydride-based hydrogen sensors and evaluates their potentia...
Aeronautic and space applications require the development of chemical sensors with capabilities beyo...
Environmental deterioration and limited resources of hydrocarbons push the development of alternativ...
Environmental deterioration and limited resources of hydrocarbons push the development of alternativ...
As the number of stationary and mobile applications using hydrogen steadily increases, due in part t...
Leaks on the Space Shuttle while on the Launch Pad have generated interest in hydrogen leak monitori...
Thin-film Fabry-Perot hydrogen sensors with various thicknesses of Palladium are simulated, optimize...