Add to ORKGSpontaneous ignition of a nano-sized aluminum (Al) particles-water slurry using a hot plate was investigated. The aluminum weight fractions were 17% and 27%. The hot plate temperatures ranged from 303 to 343K. For all experimental conditions used, ignition was observed to occur at about 321K and it was followed by a rapid temperature increase to above the boiling temperature of the water. Although the thermal runaway condition did not occur until the slurry reached a temperature of 321K, it was able to react at a temperature as low as 303K and develops sufficient heat for the slurry to reach the ignition condition. The ignition kinetic data were determined showing that E/R=28619.66 (K) and k=1.2644×1037K/s for the slurry containing 17% alum...
[[abstract]]Slurry fuels for air-breathing propulsion systems are important because of their potenti...
Nanomaterials are innovative materials and they sometimes show unexpected behavior that could impact...
This paper presents a combustion model of nano- and microsized aluminum mixture frozen in water. The...
Spontaneous ignition of a nano-sized aluminum (Al) particles-water slurry using a hot plate was inve...
Experiments have been performed to explore the combustion behaviors of spherical micron-sized alumin...
Abstract An experimental investigation on the combustion behavior of nano-aluminum (nAl) and liquid ...
International audienceIn this paper, we present an experimental study of the isothermal reaction of ...
Highlights - The increase in corrosion due to the presence of nanoparticles is characterized. - Expe...
Solid rocket motors are favored for launch applications because of their simplicity and high thrust ...
The United States Air Force believes that hypersonic flight opens a multitude of possibilities for t...
Aluminum-water reactions have been proposed and studied for several decades for underwater propulsio...
A general theory of ignition and combustion of nano- and micron-sized aluminum particles is develope...
Elemental aluminum is highly reactive with water but is normally coated with a layer of aluminum-oxi...
An experimental approach has been taken to investigate nanoparticle additives in a liquid fuel using...
Aluminum-water reactions have been proposed and studied for several decades for underwater propulsio...
[[abstract]]Slurry fuels for air-breathing propulsion systems are important because of their potenti...
Nanomaterials are innovative materials and they sometimes show unexpected behavior that could impact...
This paper presents a combustion model of nano- and microsized aluminum mixture frozen in water. The...
Spontaneous ignition of a nano-sized aluminum (Al) particles-water slurry using a hot plate was inve...
Experiments have been performed to explore the combustion behaviors of spherical micron-sized alumin...
Abstract An experimental investigation on the combustion behavior of nano-aluminum (nAl) and liquid ...
International audienceIn this paper, we present an experimental study of the isothermal reaction of ...
Highlights - The increase in corrosion due to the presence of nanoparticles is characterized. - Expe...
Solid rocket motors are favored for launch applications because of their simplicity and high thrust ...
The United States Air Force believes that hypersonic flight opens a multitude of possibilities for t...
Aluminum-water reactions have been proposed and studied for several decades for underwater propulsio...
A general theory of ignition and combustion of nano- and micron-sized aluminum particles is develope...
Elemental aluminum is highly reactive with water but is normally coated with a layer of aluminum-oxi...
An experimental approach has been taken to investigate nanoparticle additives in a liquid fuel using...
Aluminum-water reactions have been proposed and studied for several decades for underwater propulsio...
[[abstract]]Slurry fuels for air-breathing propulsion systems are important because of their potenti...
Nanomaterials are innovative materials and they sometimes show unexpected behavior that could impact...
This paper presents a combustion model of nano- and microsized aluminum mixture frozen in water. The...