[HTML][HTML] Intracavity laser absorption spectroscopy: performance and advantages for Energy Science
Meeting the demands of sustainable energy economy requires diagnostics of the chemical
processes surrounding future fuels and contemporary combustion applications. Pioneered …
processes surrounding future fuels and contemporary combustion applications. Pioneered …
[HTML][HTML] Evaluation of a novel measurement method for the laminar burning speed in laminar lifted iron dust flames
In this study, a method adapted from gas-phase combustion is presented to determine the
local laminar burning velocities of iron dust flames. This method is also applicable for non …
local laminar burning velocities of iron dust flames. This method is also applicable for non …
Combined flow, temperature and soot investigation in oxy-fuel biomass combustion under varying oxygen concentrations using laser-optical diagnostics
H Schneider, M Bonarens, J Hebel, H Hamel, J Emmert… - Fuel, 2024 - Elsevier
In pulverized oxy-fuel biomass combustion, intricate interaction of complex fluid-mechanical,
particle-dynamical, and chemical processes manifests even at intermediate scales. This …
particle-dynamical, and chemical processes manifests even at intermediate scales. This …
[HTML][HTML] Homogeneous ignition and volatile flame structure of single bituminous coal and walnut shell particles: Effects of particle size and gas atmosphere
Homogeneous ignition and the evolution of near-spherical volatile flames from coal and
biomass particles are investigated under laminar flow conditions experimentally with a …
biomass particles are investigated under laminar flow conditions experimentally with a …
Combustion of single micron-sized magnesium particles in carbon dioxide
An experimental system integrating micro-sized single particle generation, ignition, and
observation was proposed and constructed for investigating the combustion characteristics …
observation was proposed and constructed for investigating the combustion characteristics …
Numerical investigation on pyrolysis and ignition of ammonia/coal blends during co-firing
Co-firing ammonia with coal is a promising and feasible technology for reducing coal-related
carbon emissions. Pyrolysis and ignition of ammonia-coal blended fuels are the key steps …
carbon emissions. Pyrolysis and ignition of ammonia-coal blended fuels are the key steps …
Study on ignition characteristics of single biomass and coal particles in ammonia co-firing
As a potential solution to reduce carbon emissions in thermal power generation, ammonia
co-firing needs further investigation on the ignition behavior due to its significant differences …
co-firing needs further investigation on the ignition behavior due to its significant differences …
Comprehensive effect of the coal rank and particle size on ammonia/coal stream ignition
Co-firing green ammonia and coal in power plants is expected as an attractive method to
phase down coal power. During the co-firing process, the ignition and combustion of …
phase down coal power. During the co-firing process, the ignition and combustion of …
[HTML][HTML] Resolving biomass-turbulence interactions at the particle scale using ultra-high-speed wavelet-based optical flow velocimetry (wOFV)
C Geschwindner, A Nicolas, K Westrup… - Proceedings of the …, 2024 - Elsevier
The transition from coal to biomass as a sustainable solid fuel source is a critical step
towards achieving climate goals. Biomass particle behavior significantly influences turbulent …
towards achieving climate goals. Biomass particle behavior significantly influences turbulent …
[HTML][HTML] Simultaneous LII, PAH-LIF, OH-LIF, and Mie scattering measurements in solid fuel particle combustion
The combustion characteristics of single high-volatile bituminous (hvb) coal and walnut shell
biomass particles were experimentally investigated in a laminar flow reactor with well …
biomass particles were experimentally investigated in a laminar flow reactor with well …