Exploiting biomass energy is a promising option to reduce CO 2 emissions, owing to its
renewability and carbon neutrality. The knowledge of biomass ignition becomes critical for …

Chemical energy carriers are crucial for addressing challenges that arise from time lag,
large distances, and temporal fluctuations in renewable energy production, which lead to …

Oxy-fuel combustion, in combination with carbon capture technologies, has generated
significant interest since it has a high potential for rapid CO 2 cutbacks for newly built and …

Non-intrusive measurement of dynamic and kinetic parameters during oxy-coal combustion
has been carried out in an enclosed downward laminar flow reactor. High-speed OH-PLIF …

In this work, a new Large-Eddy Simulation (LES) based approach coupled to a flamelet
description of the gas-phase and seamless detailed solid-fuel kinetics is introduced and …

Oxy-coal combustion with the substitution of CO 2 for N 2 is a state-of-the-art technology for
CO 2 capture and storage. Pulverized coal particles show various ignition and combustion …

Motion and swelling behavior of single bituminous coal particles during volatile combustion
are investigated in a laminar flow reactor using a joint experimental and numerical …

The present work reports an experimental study of particle group combustion of pulverized
bituminous coal in laminar flow conditions using advanced multi-parameter optical …

The rapid development of measurement technology has created possibilities for the
advancement of intelligent combustion diagnostics. The high-speed OH-PLIF was used to …

Homogeneous ignition and the evolution of near-spherical volatile flames from coal and
biomass particles are investigated under laminar flow conditions experimentally with a …