- Publications
- Influence
Claim Your Author Page
Ensure your research is discoverable on Semantic Scholar. Claiming your author page allows you to personalize the information displayed and manage publications.
This paper presents a statistical method for model calibration using data collected from literature. The method is used to calibrate parameters for global models of soot consumption in combustion… (More)
- Alexander J. Josephson, Daniel Nieto Castaño, Marlin J. Holmes, Rodman R. Linn
- 2019
Using a particulate emissions model developed for FIRETEC, we explore differences in particle emission profiles between high-intensity fires under critical conditions and low-intensity fires under… (More)
This work presents a computationally inexpensive soot formation model for use in simulating large solid-complex fuel systems. The proposed model evaluates three variables: number density of tars, b...
This work presents a computationally inexpensive soot formation model for use in simulating large solid-complex fuel systems. The proposed model evaluates three variables: number density of tars,… (More)
Abstract A detailed model is proposed for predicting soot formation from complex solid fuels. The proposed model resolves two particle size distributions, one for soot precursors and another for soot… (More)
Modeling Soot Formation Derived from Solid Fuels Alexander Jon Josephson Department of Chemical Engineering, BYU Doctor of Philosophy Soot formation from complex solid fuels, such as coal or biomass,… (More)
The purpose of this paper is to address a number of concerns that researchers have expressed when implementing the soot model of Brown and Fletcher (10.1021/ef9702207). A more common notation is… (More)