Effects of n-pentanol blending on soot formation in swirl-stabilized turbulent spray flames of Jet A-1 in a laboratory gas turbine combustor

Although the influence of alcohol supplement on soot in hydrocarbons fuel combustion in laminar flames and transportation engines is widely investigated, the information from well-controlled spray flames with clean boundary conditions are scarce, especially with kerosene type fuels doped with n-pent...

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Bibliographic Details
Published in:Fuel (Guildford) 2024-02, Vol.357, p.129971, Article 129971
Main Authors: Vishwanath, Rahul B., Carniglia, Peter A., Weber, Jacob K., Gülder, Ömer L.
Format: Article
Language:English
Subjects:
Jet A-1/n-pentanol spray
Primary soot particle size
Soot in Jet A-1/n-pentanol blends
Swirl-stabilized spray flames
Turbulent spray combustion
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Summary:Although the influence of alcohol supplement on soot in hydrocarbons fuel combustion in laminar flames and transportation engines is widely investigated, the information from well-controlled spray flames with clean boundary conditions are scarce, especially with kerosene type fuels doped with n-pentanol. Favorable physical properties of n-pentanol makes it an attractive oxygenated fuel extender for transportation fuels. We investigated the effects of adding 10% and 20% n-pentanol, by energy content, to a JetA-1 fuel on sooting characteristics of spray combustion in a swirl-stabilized model combustor. At an identical fuel feed rate, two different air flow rates were considered yielding global equivalence ratios of 0.64 and 0.69. Flow field generated by the combustion of swirling air and the injected fuel was measured using stereoscopic particle image velocimetry, and a diffraction based instrument was utilized to quantify the spray droplet size distribution. Laser-induced incandescence was used to measure the soot concentration distribution within the combustor and to estimate the primary soot particle sizes. Very small but measurable changes were observed in the spray droplet characteristics caused by the addition of n-pentanol to JetA-1. 10% replacement of JetA-1 by n-pentanol reduced the soot volume fractions and the total soot loading in the combustor significantly when the global equivalence ratio was 0.69, whereas with global equivalence ratio of 0.64, soot loading was almost zero. When the n-pentanol replacement increased to 20%, no soot was detected for both air flow rates, probably due to soot volume fractions well below the lower limits of laser-induced incandescence. The primary soot particle diameters covered a range from 25 to 50 nm mostly unaffected by the presence of n-pentanol in JetA-1. •Soot measurements in turbulent swirl-stabilized Jet A-1/n-pentanol spray flames.•Spray and flow field is not affected significantly with n-pentanol addition.•Higher alcohols like n-pentanol in Jet A-1 blends reduce soot significantly.•Primary soot particle diameters are unaffected by n-pentanol addition into Jet A-1.•Soot is mostly found in between the shear layers in swirl-stabilized spray flames.
ISSN:0016-2361
1873-7153
DOI:10.1016/j.fuel.2023.129971