Scott C. Hill

TL;DR: A review of modeling of NOX reactions in combustion systems, with an emphasis on coal-fired systems, including current NO X control technologies, NO X reaction processes, and techniques to calculate chemical kinetics in turbulent flames are reviewed in this article.

TL;DR: A review of reburning technologies, measurements and mechanisms is presented in this article, where the authors also discuss predictive methods for rebURNing and their application to a comprehensive combustion model.

TL;DR: In this paper, a review of the state-of-the-art of the various components or submodels that are required in a comprehensive combustion model is presented, and representative applications of comprehensive combustion models are summarized, and three sets of model simulations are compared with experimental data.

TL;DR: In this article, a generalized three-dimensional combustion model was developed to simulate large-scale, steady-state, gaseous and particle-laden, reacting and nonreacting systems.

TL;DR: In this paper, the global rate expression and its rate constants for a reduction pathway of nitric oxide (NO) by reaction with gaseous hydrocarbons were derived from a combination of elemental reactions.