Investigation of Combustion of the Gas Turbine Engine from Kerosene and Biokerosene and Their Soot Characteristics in Diffusion Flames

Hong, Thong D.; Reksowardojo, Iman K.; Soerawidjaja, Tatang H.; Fujita, Osamu

doi:10.1021/acsomega.2c02703


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Investigation of Combustion of the Gas Turbine Engine from Kerosene and Biokerosene and Their Soot Characteristics in Diffusion Flames

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Title:	Investigation of Combustion of the Gas Turbine Engine from Kerosene and Biokerosene and Their Soot Characteristics in Diffusion Flames
Authors:	Hong, Thong D. Browse this author
	Reksowardojo, Iman K. Browse this author
	Soerawidjaja, Tatang H. Browse this author
	Fujita, Osamu Browse this author →KAKEN DB
Issue Date:	12-Oct-2022
Publisher:	American Chemical Society
Journal Title:	ACS Omega
Volume:	7
Issue:	42
Start Page:	37085
End Page:	37094
Publisher DOI:	10.1021/acsomega.2c02703
Abstract:	Performances, emissions from the gas turbine engine, and soot formations in diffusion flames of kerosene (Jet A1) and its mixture with 5% by volume bioparaffins (known as BK-5) are reported in the present study. A Rover 1S/60 gas turbine engine was used for recording performance parameters and emissions. Soot characteristics were investigated in smoke-free coannular wick-fed diffusion flames. This study is the next step that must be performed in the certification process of a new aviation biofuel before it is tested in the aircraft. The results show that BK-5 produced a similar performance against Jet A1. Throughout the whole power range under investigation, BK-5 emitted 3.4% NOx higher than Jet A1, while Jet A1 released CO and HC at the rates that are, respectively, 1.8 and 4.5% greater than its counterpart. The soot emissions from the BK-5 and Jet A1 were comparable across the measured flame height range. The results encouraged future studies to carry out the modern engine and flight tests. The production process for bioparaffins employed in this work has been demonstrated to be viable and appropriate for tropical developing nations. The current process should also continue to be improved by eliminating high-distillation temperature components in bioparaffins.
Type:	article
URI:	http://hdl.handle.net/2115/87271
Appears in Collections:	工学院・工学研究院 (Graduate School of Engineering / Faculty of Engineering) > 雑誌発表論文等 (Peer-reviewed Journal Articles, etc)

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