Ignition of a floating droplet of organic coal–water fuel


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Abstract

The results of experimental investigations are presented for the ignition of droplets (particles) of organic coal–water fuels (OCWFs) floating in a flow of an oxidizer using a special combustion chamber from high-temperature quartz glass. The temperature and the velocity of motion of the oxidizer vary in the ranges of 500–900 K and 0.5–3 m/s. The initial sizes (radii) of fuel droplets amounted to 0.3–1.5 mm. As the basic OCWF components, particles (of 80–100 µm in size) of brown coal “B2,” water, mazut, and waste castor and compressor oils are used. With use of the system of high-velocity video registration, the conditions providing for floating of OCWF particles without initiation of burning and with the subsequent steady ignition are established. Four modes of OCWF-droplet ignition with different trajectories of their motion in the combustion chamber are singled out. The times of the OCWF-ignition delay in dependence on the size of fuel particles and oxidizer temperatures are determined. The deviations of the OCWF-ignition-delay times obtained under conditions of suspension of a droplet on the thermocouple junction and while floating in the oxidizer flow are established.

About the authors

V. E. Nakoryakov

Kutateladze Institute of Thermal Physics, Siberian Branch

Email: pavelspa@tru.ru
Russian Federation, Novosibirsk, 630090

G. V. Kuznetsov

National Research Tomsk Polytechnical University

Email: pavelspa@tru.ru
Russian Federation, Tomsk, 634050

P. A. Strizhak

National Research Tomsk Polytechnical University

Author for correspondence.
Email: pavelspa@tru.ru
Russian Federation, Tomsk, 634050

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