Laser-based Investigation of Gas and Solid Fuel Combustion under Oxy-Fuel Atmosphere

Laser-based Investigation of Gas and Solid Fuel Combustion under Oxy-Fuel Atmosphere

Laserbasierte Untersuchung von Feststoff-und Gasverbrennung unter Oxy-Fuel-Atmosphäre

Sebastian Bürkle

Natur- & Humanwissenschaften

Paperback

188 Seiten

ISBN-13: 9783748145141

Verlag: Books on Demand

Erscheinungsdatum: 04.03.2019

Sprache: Englisch

Schlagworte: Oxy-Fuel, TDLAS, laser diagnostics, Gas/ Coal Combustion, Applied Spectroscopy

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Oxy-fuel combustion has the potential to reduce the atmospheric CO2-emissions of fossil fuel power plants by burning gaseous or solid fuels under an atmosphere of carbon dioxide and oxygen. The combustion under oxy-fuel operating conditions, however, is accompanied by major changes in the combustion behavior. The underlying chemical and physical processes are complex and highly coupled, which impedes investigations and modeling.

Since tactile and most of the optical measurement techniques fail under the sensitive and simultaneously harsh environments of oxy-fuel combustion, an optical in-situ measurement system based on tunable diode laser absorption spectroscopy is developed in this work. This system allows to investigate the thermochemical state of combustion gases with respect to the quantitative concentrations of multiple combustion-relevant gases and the gas temperature. In combination with a newly developed and applied measurement strategy, the system even allows for a measurement of the gas residence time distribution. To improve the measurement accuracy, multiple absorption line parameters are experimentally determined.

The measurement system is applied to three oxy-fuel combustion systems. First, the thermochemical state of the laminar, non-premixed methane combustion under oxy-fuel atmosphere is studied. The turbulent, premixed combustion of the same fuel under air and two oxy-fuel atmospheres is studied in a 20 kWth swirled combustor. Measurements of the residence time distribution of fluids in the combustion chamber provide insights into mixing and transport properties of the flow. The thermochemical state reveals insights into the reaction progess and flow mixing. Co-firing of three different solid fuels in an assisting gas flame is investigated for a combined thermal power up to 40 kWth. Here, the char burnout of the particles is investigated. The thermochemical state of the combustion of pure torrefied biomass under air and oxy-fuel combustion atmosphere is investigated in a 60 kWth close-to-application facility and compared to equillibrium calculations.
Sebastian Bürkle

Sebastian Bürkle

Sebastian Bürkle studied Mechanical and Process Engineering in combination with Physics at the TU Darmstadt and the UC Berkeley. After his graduation, he did his PhD in laser diagnostics in combustion at the departement for Reactive Flows and Diagnostics, TU Darmstadt. During this time, he also worked as the managing director of an Collaborative Research Cluster/Transregio in the field of turbulent, chemically reacting multi-phase flows near walls.

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BoD • Books on Demand GmbH, In de Tarpen 42, 22848 Norderstedt, bod@bod.de

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