In this study, the cascading metal foams were used as catalyst supports for constructing a new type of cylindrical laminated methanol steam reforming microreactor for hydrogen production. The two-layer impregnation method was used to load the Cu/Zn/Al/Zr catalysts, and the ultrasonic vibration method was then employed to investigate the loading performance of metal foams with different types and thicknesses. Furthermore, the effect of the type of catalyst placement, pores per inch (PPI) and foam type on the performance of methanol steam reforming microreactor was studied by varying the gas hourly space velocity (GHSV) and reaction temperature. Compared with two other types of catalyst placement studied, the microreactor containing catalyst-...
A methanol reformer is a device that produces hydrogen gas from methanol and water mixture. This pro...
Hydrogen is conventionally manufactured in large scale by the steam reforming of methane or naphthas...
Internal combustion engines substantially lose fuel energy in the form of heat without contributing ...
Abstract(#br)To improve the hydrogen production performance of microreactors, the selective laser me...
To replace the traditional electric heating mode and increase methanol steam reforming reaction perf...
A Computational Fluid Dynamics (CFD) study has been conducted to assess the performance of packed be...
A Computational Fluid Dynamics (CFD) study has been conducted to assess the performance of packed be...
The search for clean alternative energy sources is vital to feed the ever-increasing world energy co...
Cu6Zn3Al0.5Ce0.5/HZSM-5 dual-function catalyst was coated on nickel metal foam. The effect of coatin...
A bi-function catalyst containing CuZnAlCr and HZSM-5 was used to generate hydrogen by stream reform...
The purpose of this work was to design and develop a high performance catalyst for the production of...
The synthesis of hydrogen from hydrocarbons through the steam reforming of methanol on C...
The synthesis of hydrogen from hydrocarbons through the steam reforming of methanol on C...
This paper proposes a novel design concept to enhance the methanol conversion rate in a single chann...
This paper studies the methanol steam reforming intensification to enhance the hydrogen production i...
A methanol reformer is a device that produces hydrogen gas from methanol and water mixture. This pro...
Hydrogen is conventionally manufactured in large scale by the steam reforming of methane or naphthas...
Internal combustion engines substantially lose fuel energy in the form of heat without contributing ...
Abstract(#br)To improve the hydrogen production performance of microreactors, the selective laser me...
To replace the traditional electric heating mode and increase methanol steam reforming reaction perf...
A Computational Fluid Dynamics (CFD) study has been conducted to assess the performance of packed be...
A Computational Fluid Dynamics (CFD) study has been conducted to assess the performance of packed be...
The search for clean alternative energy sources is vital to feed the ever-increasing world energy co...
Cu6Zn3Al0.5Ce0.5/HZSM-5 dual-function catalyst was coated on nickel metal foam. The effect of coatin...
A bi-function catalyst containing CuZnAlCr and HZSM-5 was used to generate hydrogen by stream reform...
The purpose of this work was to design and develop a high performance catalyst for the production of...
The synthesis of hydrogen from hydrocarbons through the steam reforming of methanol on C...
The synthesis of hydrogen from hydrocarbons through the steam reforming of methanol on C...
This paper proposes a novel design concept to enhance the methanol conversion rate in a single chann...
This paper studies the methanol steam reforming intensification to enhance the hydrogen production i...
A methanol reformer is a device that produces hydrogen gas from methanol and water mixture. This pro...
Hydrogen is conventionally manufactured in large scale by the steam reforming of methane or naphthas...
Internal combustion engines substantially lose fuel energy in the form of heat without contributing ...