◎ Title : Effects of step hole geometry and spray-wall interactions on spray atomization in LPDI injector
◎ Authors : Young Soo Yu, Yubeen Yang, Seungho Yang, Dongheon Shin, Hoseung Yi, Namho Kim, Sungwook Park
◎ Source : Energy Conversion and Management-X / Vol. 20, DOI : 10.1016/j.ecmx.2023.100472
◎ Article Number : 100472
◎ Published : OCT 2023
◎ Indexed : 2023-11-17
◎ Keywords : Liquefied Petroleum Gas (LPG); Spray -wall impingement; Phase Doppler Particle Analyzer (PDPA); Nozzle hole geometry; LPG Direct Injection (LPDI)
◎ Abstract :
The study aims to analyze the spray atomization of liquefied petroleum gas direct injection (LPDI) injector based on the macroscopic and microscopic experiments. Two experimental injectors were used in the presence and absence of step hole, and the experimental fuels used n-heptane and n-butane.
The macroscopic and microscopic spray characteristics as function of the application of step hole were analyzed using two experimental injectors and n-heptane fuel. The macroscopic spray experiments analyzed the initial spray, after the end of injection and nozzle tip wetting using near-field visualization, and microscopic spray experiment analyzed fuel–air atomization phenomenon as function of the application of step hole using PDPA equipment.
In addition, macroscopic and microscopic spray characteristics were analyzed for two experimental fuels and spray-wall impingement using the presence of step hole injector. The macroscopic spray experiment analyzed the spray evaporation characteristics for the two experimental fuels and spray-wall impingement using the schlieren visualization, and microscopic spray experiment analyzed the fuel–air atomization phenomenon as function of the two experimental fuels and spray-wall impingement using PDPA equipment.
It was found that the presence of step hole injector showed better atomization results than those of the absence of step hole injector. But, the tip wetting of the presence of step hole injector was poor than that of the absence of step hole injector. Furthermore, based on the schlieren experiment, a comparison of free and flat sprays with the two fuels found that the spray width and area of n-heptane in free spray exceeded those of n-butane owing to the vapor pressure of n-butane. However, in the flat spray, the spray width and area of n-butane were exceeded those of n-heptane. It was found that the atomization was promoted after the spray-wall impingement.
◎ Title : Effects of step hole geometry and spray-wall interactions on spray atomization in LPDI injector
◎ Authors : Young Soo Yu, Yubeen Yang, Seungho Yang, Dongheon Shin, Hoseung Yi, Namho Kim, Sungwook Park
◎ Source : Energy Conversion and Management-X / Vol. 20, DOI : 10.1016/j.ecmx.2023.100472
◎ Article Number : 100472
◎ Published : OCT 2023
◎ Indexed : 2023-11-17
◎ Keywords : Liquefied Petroleum Gas (LPG); Spray -wall impingement; Phase Doppler Particle Analyzer (PDPA); Nozzle hole geometry; LPG Direct Injection (LPDI)
◎ Abstract :
The study aims to analyze the spray atomization of liquefied petroleum gas direct injection (LPDI) injector based on the macroscopic and microscopic experiments. Two experimental injectors were used in the presence and absence of step hole, and the experimental fuels used n-heptane and n-butane.
The macroscopic and microscopic spray characteristics as function of the application of step hole were analyzed using two experimental injectors and n-heptane fuel. The macroscopic spray experiments analyzed the initial spray, after the end of injection and nozzle tip wetting using near-field visualization, and microscopic spray experiment analyzed fuel–air atomization phenomenon as function of the application of step hole using PDPA equipment.
In addition, macroscopic and microscopic spray characteristics were analyzed for two experimental fuels and spray-wall impingement using the presence of step hole injector. The macroscopic spray experiment analyzed the spray evaporation characteristics for the two experimental fuels and spray-wall impingement using the schlieren visualization, and microscopic spray experiment analyzed the fuel–air atomization phenomenon as function of the two experimental fuels and spray-wall impingement using PDPA equipment.
It was found that the presence of step hole injector showed better atomization results than those of the absence of step hole injector. But, the tip wetting of the presence of step hole injector was poor than that of the absence of step hole injector. Furthermore, based on the schlieren experiment, a comparison of free and flat sprays with the two fuels found that the spray width and area of n-heptane in free spray exceeded those of n-butane owing to the vapor pressure of n-butane. However, in the flat spray, the spray width and area of n-butane were exceeded those of n-heptane. It was found that the atomization was promoted after the spray-wall impingement.