Transient Cavitation and Friction-Induced Heating Effects of Diesel Fuel during the Needle Valve Early Opening Stages for Discharge Pressures up to 450 MPa

Kolovos, Konstantinos G.; Koukouvinis, Phoevos; McDavid, Robert M.; Gavaises, Manolis

doi:10.3390/en14102923

Cited by 15 publications

(5 citation statements)

References 64 publications

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“…The nozzle needle design concept which was considered in the research project was focused on maximizing the contact area between the needle and its cartridge to reduce needle wear [27]. The injector feeding part was realized using two series of holes.…”

Section: Hitherto Existing Methods Of Optimizing the Geometry Of Injector Nozzlesmentioning

confidence: 99%

Optimization of Design and Technology of Injector Nozzles in Terms of Minimizing Energy Losses on Friction in Compression Ignition Engines

Monieta¹,

Kasyk²

2021

Applied Sciences

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The operation of injection apparatus in self-ignition engines results from the design, manufacturing technology and wear and tear during operation. The technical state of the injector apparatus significantly affects the engine performance, fuel consumption, toxicity and smoke opacity of outlet gases. The most unreliable element of the injection apparatus is the injector nozzle, the quality of which depends on the quality of construction and production, operating conditions and the of the fuels used, etc. One of the design parameters of the injector nozzles, determining the technical state is the geometry of the nozzle holes. An attempt was made to optimize the selection of the dimensions and surface condition of the spray holes to significantly affect the flow properties of the injector nozzles and, consequently, to decide on the size and form of fuel dosed streams to individual cylinders of a self-ignition engine and the quality of fuel atomization. In work, a simulation model was developed, and the pressure losses and the mass fluid of the injected fuel were minimized for selected significant geometric features, taking into account the influence of operating conditions. With the use of Mathematica software, simulation optimization methods and methods based on evolutionary algorithms were elaborated.

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Section: Hitherto Existing Methods Of Optimizing the Geometry Of Injector Nozzlesmentioning

confidence: 99%

Optimization of Design and Technology of Injector Nozzles in Terms of Minimizing Energy Losses on Friction in Compression Ignition Engines

Monieta¹,

Kasyk²

2021

Applied Sciences

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“…Popinet et al [43] explored the viscosity's impact on bubble collapse near solid surfaces where reduction of the jet impact velocity at higher viscosity was observed. There are also some relevant studies for cavitation modelling using mass transfer rates [44] , [45] , [46] , [47] , [48] , cavitation modelling using air-vapor–liquid and barotropic EoS [49] , [50] , [51] , [52] , [53] , and heating effects and real-fluid thermodynamic closure in cavitating flows [54] , [55] , [56] .…”

Section: Introductionmentioning

confidence: 99%

Prediction of shock heating during ultrasound-induced bubble collapse using real-fluid equations of state

Bidi,

Shams,

Koukouvinis

et al. 2023

Ultrasonics Sonochemistry

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“…The formation and dynamic evolution of vaporous structures within the injector affect its discharge coefficient, the dynamics and composition of the expelled spray [11][12][13] and pose a threat to the injector rigidity [14][15][16]. Transparent tips have been usually made from acrylic or even quartz which, are capable of withstanding extreme pressures up to 2000 bar [17,18].…”

Section: Introductionmentioning

confidence: 99%

Assessment of Injector-Flow Characteristics of Additised and Renewable Diesel Blends Through High-Speed Imaging

Baran¹,

Karathanassis²,

Koukouvinis³

et al. 2023

Preprint

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Transient Cavitation and Friction-Induced Heating Effects of Diesel Fuel during the Needle Valve Early Opening Stages for Discharge Pressures up to 450 MPa

Cited by 15 publications

References 64 publications

Optimization of Design and Technology of Injector Nozzles in Terms of Minimizing Energy Losses on Friction in Compression Ignition Engines

Optimization of Design and Technology of Injector Nozzles in Terms of Minimizing Energy Losses on Friction in Compression Ignition Engines

Prediction of shock heating during ultrasound-induced bubble collapse using real-fluid equations of state

Assessment of Injector-Flow Characteristics of Additised and Renewable Diesel Blends Through High-Speed Imaging

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