| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 6474237 | Fuel | 2017 | 12 Pages |
Abstract
High-speed camera images were used to capture images of the light emission during the combustion process in visible range, allowing investigation of the ignition processes. In particular, the results showed that the photo-thermal ignition process of the air-fuel mixtures with nano-ignition agents led to a spatially-distributed ignition followed by a faster consumption of the air-fuel mixture with no evidence of any discernible flame front formation or propagation.
Keywords
SWCNTsCH4HCCIHRTEMHRRNIASMIECNTSPTINano structured materialsMWCNTsLPGcumulative heat release rateNOxIronNitric oxidesTemspark ignitionMinimum ignition energyCarbon dioxidexenonferroceneMethanecarbon monoxideTransmission electron microscopehigh-resolution transmission electron microscopyCarbon nano-tubesSingle-walled Carbon NanotubesMulti-walled carbon nanotubesCarbon nanotubesHeat release rateHydrogenCO2liquefied petroleum gas
Related Topics
Physical Sciences and Engineering
Chemical Engineering
Chemical Engineering (General)
Authors
Antonio Ficarella, Antonio Paolo Carlucci, Bruce Chehroudi, Domenico Laforgia, Luciano Strafella,