An amperometric H₂ gas sensor based on ionic liquid for hydrogen fuel cell ships

Abstract: Hydrogen fuel cell ship is an important way to realize green shipping, and the safety of hydrogen fuel ship is primary issue that shall be concerned. H2 gas sensors can provide online monitoring of H2 concentration and it is an effective mean to insure safety of hydrogen fuel. In this study, an amperometric electrochemical H2 gas sensor based on room-temperature ionic liquid was developed, which was expected to be applicable to monitoring of H2 concentration in the hydrogen fuel cell ship. A threeelectrode H2 … Show more

“…Then, an electrochemical cell has a solid to permit the transportation of ions between the electrodes. , The electrochemical reactions taking place at the anode and cathode side can be written as follows: The operating conditions, such as temperature, pressure, and humidity, can influence the performance of the amperometric sensors. For example, the pressure principally affects an increase in the absolute hydrogen concentration. − Amperometric sensors presented the detection ranges of hydrogen concentrations at 5 ppm in argon and up to 100%. , As illustrated in Figure , the dimension of the pad with two layers of a membrane is 5 × 10 mm 2 . The considered thickness of the pad is 0.35 mm, as shown in Figure .…”

Comprehensive Review of Fuel-Cell-Type Sensors for Gas Detection

“…Then, an electrochemical cell has a solid to permit the transportation of ions between the electrodes. , The electrochemical reactions taking place at the anode and cathode side can be written as follows: The operating conditions, such as temperature, pressure, and humidity, can influence the performance of the amperometric sensors. For example, the pressure principally affects an increase in the absolute hydrogen concentration. − Amperometric sensors presented the detection ranges of hydrogen concentrations at 5 ppm in argon and up to 100%. , As illustrated in Figure , the dimension of the pad with two layers of a membrane is 5 × 10 mm 2 . The considered thickness of the pad is 0.35 mm, as shown in Figure .…”

Comprehensive Review of Fuel-Cell-Type Sensors for Gas Detection

Numerical simulation of hydrogen leakage and diffusion in a ship engine room

Amperometric hydrogen gas sensor based on Pt/C/Nafion electrode and ionic electrolyte