Emissions from a Domestic Wood Heating Appliance: Experimental Measurements and Numerical Study Using an Equivalent Reactor Network (ERN) Approach Coupled with a Detailed Chemical Mechanism

Abstract: Dwindling fossil fuel reserves and global climate change drive researchers to discover and develop new strategies to derive energy from renewable sources, such as biomass, including wood. However, when poorly controlled, wood burning can be a source of atmospheric pollution. With the ultimate purpose of better controlling pollutant emissions from domestic small combustion installations, this paper follows two objectives. First, temperature and pollutant measurements obtained at the chimney outlet of a domestic… Show more

“…Three papers described the combustion of biomass and other solid derivatives. Using an equivalent reactor network approach coupled with a detailed description of chemical mechanisms, Darido et al 28 modelled the creation and emission of hurtful chemical components from small domestic combustion appliances, such as stoves or fireplaces. Li et al 29 experimentally and numerically explored the primary pathways of fast pyrolysis of hydroxycinnamaldehyde monomers, which are important intermediates in the lignin biosynthesis.…”

Virtual Special Issue of Recent Advances in Fundamentals of Biomass and Biofuel Combustion

“…Three papers described the combustion of biomass and other solid derivatives. Using an equivalent reactor network approach coupled with a detailed description of chemical mechanisms, Darido et al 28 modelled the creation and emission of hurtful chemical components from small domestic combustion appliances, such as stoves or fireplaces. Li et al 29 experimentally and numerically explored the primary pathways of fast pyrolysis of hydroxycinnamaldehyde monomers, which are important intermediates in the lignin biosynthesis.…”

Virtual Special Issue of Recent Advances in Fundamentals of Biomass and Biofuel Combustion

Research progress of hydrogenation of carbon dioxide to ethanol

Experimental and modeling investigation of partial oxidation of gasification tars