Interaction investigation of three forest waste biochars and CaO in the process of Ca-L/CARBONOx

“…During the combustion process of biomass fuels and ammonia, as well as their mixtures with other fuels, the control of NO x emissions is of paramount concern, with NO being the primary nitrogen oxide emitted. 65,126,128,[166][167][168][169][170][171][172][173][174] In the presence of NO (either externally added or generated from fuel combustion), some academic viewpoints suggest that NO could alter the combustion chemistry of amines by augmenting certain reaction pathways. Glarborg et al 114 reviewed the combustion reaction kinetics of MA and proposed a detailed combustion model, and they found that the fast reaction, CH 3 NH + NO -1 CH 2 + H 2 O + N 2 , plays an important role in carbon transfer and NO reduction.…”

Insights into the role of the H-abstraction reaction kinetics of amines in understanding their degeneration fates under atmospheric and combustion conditions

“…During the combustion process of biomass fuels and ammonia, as well as their mixtures with other fuels, the control of NO x emissions is of paramount concern, with NO being the primary nitrogen oxide emitted. 65,126,128,[166][167][168][169][170][171][172][173][174] In the presence of NO (either externally added or generated from fuel combustion), some academic viewpoints suggest that NO could alter the combustion chemistry of amines by augmenting certain reaction pathways. Glarborg et al 114 reviewed the combustion reaction kinetics of MA and proposed a detailed combustion model, and they found that the fast reaction, CH 3 NH + NO -1 CH 2 + H 2 O + N 2 , plays an important role in carbon transfer and NO reduction.…”

Insights into the role of the H-abstraction reaction kinetics of amines in understanding their degeneration fates under atmospheric and combustion conditions

“…The literature describes many hybrid materials, which are doped nanocomposites with specific properties depending on the purpose of a given sorbent. These materials can have the following properties: magnetic (Fe 2 O 3 doping [ 3 , 4 , 5 ]), photocatalytic (TiO 2 doping [ 6 , 7 ]) and alkaline (MgO [ 8 ], CaO [ 9 , 10 ] doping). Their surface can be enriched with nitrogen [ 11 ], sulphur and oxygen groups [ 8 ] to intensify the coordination of metal ions.…”

Physicochemical Properties and Application of Silica-Doped Biochar Composites as Efficient Sorbents of Copper from Tap Water