Fuel effects on aqueous film formation and foam degradation and their impact on fire suppression by foams containing fluorosurfactants
Abstract
Spreading coefficient, foam degradation, fuel transport through a foam layer, foam spread, and fire extinction time were collected by varying fuels for a given fluorosurfactant formulation. Varying fuel structure systematically enabled variation of foam‐fuel interactions, and spreading coefficients, which affected aqueous film formation. A wide range of spreading coefficients were studied using two foam formulations. Surfactant formulations with near‐zero or negative spreading coefficients (−1.2, −0.12 mN/m) suppressed the fires within the same time or faster than those with positive spreading coefficients (1.77, 3.28 mN/m). Both foams extinguished an iso‐octane and methylcyclohexane pool fire despite negative spreading coefficients on iso‐octane and positive spreading coefficients on methylcyclohexane. The fire extinction times collected relate more closely to foam degradation than to film formation. Foam degradation results showed a roughly 20% variation in lifetime between the two foams and the three fuels, consistent with fire extinction times. To understand the relationship between foam degradation and solution properties, a single lamella experiment was designed that monitors lamella thickness and lifetime. This experiment, relating solution to foam properties, will aid in the development of environmentally friendly surfactant replacements in firefighting foams.
Document Details
- Document Type
- Pub Defense Publication
- Publication Date
- Sep 24, 2020
- Source ID
- 10.1002/fam.2916
Entities
People
- Arthur Snow
- Katherine M. Hinnant
- Michael Button
- Ramagopal Ananth
- Spencer L. Giles
Organizations
- George Washington University
- Office of Naval Research
- Strategic Environmental Research and Development Program
- United States Naval Research Laboratory