Add to ORKGTypical microcombustion-based power devices entail the use of catalyst to sustain combustion in less than millimeter scale channels. This work explores the use of several other candidate fuels for ∼8 nm diameter Pt particle catalyzed combustion within 800 ��m channel width cordierite substrates. The results demonstrate while commercial hydrocarbon fuels such as methane, propane, butane, and ethanol can be used to sustain catalytic combustion, room temperature ignition was only observed using methanolair mixtures. Fuels, other than methanol, required preheating at temperatures \u3e200∘ C, yet repeated catalytic cycling similar to methanol-air mixtures was demonstrated. Subsequently, a new reactor design was investigated to couple with thermo...
Improvements in deriving energy from hydrocarbon fuels will have a large impact on our efforts to tr...
The combustion and heat transfer characteristics of catalytic microreactors fueled by hydrogen and h...
High surface area, active catalysts containing dispersed catalytic platinum nanoparticles (dp∼11.6 n...
Typical microcombustion-based power devices entail the use of catalyst to sustain combustion in less...
Typical microcombustion-based power devices entail the use of catalyst to sustain combustion in less...
The essential need for portable and dense power sources has been greatly increased with the prevalen...
High surface area, active catalysts containing dispersed catalytic platinum nanoparticles (dp ∼ 11.6...
This work aimed to create a first-generation power device for eventual application to portable elect...
Catalytic combustion\u27s ability to release the potential energy of high energy density fuels could...
Microcombustion attracts interest with its promise of energy dense power generation for electronics....
Nano-scaled materials, in comparison to their classical, bulk-phase counterparts offer a significant...
This work introduces and investigates the a novel compact catalytic nanoparticle bed micro-fabricate...
As part of an effort to develop a microscale gas turbine engine, this paper presents the design and ...
International audienceWe reported herein on the use of tolerant cathode catalysts such as carbon sup...
Catalytic combustion is a promising technique for producing thermal energy in MEMS- (Micro Electro-M...
Improvements in deriving energy from hydrocarbon fuels will have a large impact on our efforts to tr...
The combustion and heat transfer characteristics of catalytic microreactors fueled by hydrogen and h...
High surface area, active catalysts containing dispersed catalytic platinum nanoparticles (dp∼11.6 n...
Typical microcombustion-based power devices entail the use of catalyst to sustain combustion in less...
Typical microcombustion-based power devices entail the use of catalyst to sustain combustion in less...
The essential need for portable and dense power sources has been greatly increased with the prevalen...
High surface area, active catalysts containing dispersed catalytic platinum nanoparticles (dp ∼ 11.6...
This work aimed to create a first-generation power device for eventual application to portable elect...
Catalytic combustion\u27s ability to release the potential energy of high energy density fuels could...
Microcombustion attracts interest with its promise of energy dense power generation for electronics....
Nano-scaled materials, in comparison to their classical, bulk-phase counterparts offer a significant...
This work introduces and investigates the a novel compact catalytic nanoparticle bed micro-fabricate...
As part of an effort to develop a microscale gas turbine engine, this paper presents the design and ...
International audienceWe reported herein on the use of tolerant cathode catalysts such as carbon sup...
Catalytic combustion is a promising technique for producing thermal energy in MEMS- (Micro Electro-M...
Improvements in deriving energy from hydrocarbon fuels will have a large impact on our efforts to tr...
The combustion and heat transfer characteristics of catalytic microreactors fueled by hydrogen and h...
High surface area, active catalysts containing dispersed catalytic platinum nanoparticles (dp∼11.6 n...