- Author
-
Mulholland, G. W.
|
Ohlemiller, T. J.
- Title
- Aerosol Characterization of a Smoldering Source.
- Coporate
- National Bureau of Standards, Gaithersburg, MD
- Journal
-
Aerosol Science and Technology,
Vol. 1,
59-71,
1982
- Keywords
-
aerosols
|
smoldering combustion
|
combustion products
|
mass flow
|
particle size distribution
|
plumes
|
sampling
- Identifiers
- aerosols
- Abstract
- The aerosol emitted by a moderately large smoldering combustion source (16 cm in diameter) has been characterized in detail. The fuel is a permeable bed of cellulosic insulation (wood fibers) receiving its primary air supply by flow up from the botton of the bed whice the smolder wave propagates downward. The mass mean particle size of the aerosol is 2-3 mum; this shows no clear trend with smolder wave depth in the bed or with air flow velocity. The large average particle size is shown to imply that, compared to punk smoke, the present aerosol requires a sevenfold greater concentration to trigger an ionization detector. Coagulation of the aerosol in the plume above the source is shown to be minimal, but substantial coagulation can occur within the source. The apparent fractional conversion of gasified mass (60-75% of the fuel) to aerosol mass decreases with smolder wave depth in the bed and with decreasing air flow rate. The mass and number flow rate of the aerosol show these same trends. The decreasing aerosol emissions with wave depth or air flow rate are plausibly explained by filtration effects in the smolder bed.