- Author
-
Bannister, W. W.
|
Lai, F.
|
Paramasawat, W.
|
Sriseubsai, W.
|
Donatelli, A.
|
Li, J.
|
Bonner, F.
|
Schott, N.
|
Kurup, P.
|
Egan, J.
|
Jahngen, E. G. E.
|
Muanchareon, P.
|
Euaphantasate, N.
|
Chiang, S. K.
|
Sengupta, S.
|
Kuo, C. S.
|
Nagarajan, R.
|
Chaospukhum, J.
|
Meesrisom, A.
|
Kongkadee, V.
|
Babrauskas, V.
- Title
- Anionic Effects in Hot Surface Catalyzed Combustions.
- Coporate
- Massachusetts Univ., Lowell
National Metal and Materials Techology Center, Pathumtani, Thailand
National Cheng Kung Univ., Tainan, Taiwan
Maryland Univ., College Park
Arizona State Univ.
Fire Science and Technology Inc., Issaquah, WA
- Report
-
HOTWC 2006,
- Book or Conf
- Halon Options Technical Working Conference, 16th Proceedings. HOTWC 2006. May 16-18, 2006,
Albuquerque, NM,
1-16 p.,
2006
- Keywords
-
halon alternatives
|
halons
|
halon 1301
|
fire suppression
|
anionic effects
|
combustion
|
hydrocarbons
|
oxidation
|
equations
|
free radicals
|
air
|
hot surfaces
|
catalysts
|
electrostatic field
|
electrostatic charges
- Identifiers
- Electrostatic Force Microscopy (EFM); oxidation of 9% CH4/air at 1050 o C (about 500 o C below maximum IT); autoignition temperature [AIT]; thermoelectric power and ignition proclivity for combustion catalysts; oxyanionic and corroded surface effects; polarization; Atomic Force and Electrostatic Force Microscopy (AFM/EFM); atomic oxygen radical anion