John Mitcalf scite author profile

John Mitcalf

4Publications

45Citation Statements Received

0Citation Statements Given

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Affiliations

Mahle (Austria)

Publications

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Characterisation of Flow Structures in a Direct-Injection Spark-Ignition Engine Using PIV, LDV and CFD

Malcolm¹,

Behringer²,

Aleiferis³

et al. 2011

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In-cylinder air flow structures are known to play a major role in mixture preparation and engine operating limits for DISI engines. In this paper PIV was undertaken on in-cylinder flow fields for three different planes of measurement in the intake and compression strokes of a DISI engine for a lowload engine operating condition at 1500 RPM, 0.5 bar inlet plenum pressure (World Wide Mapping Point). One of these planes was vertical, cutting through the centrally located spark plug (tumble plane); the other two planes were horizontal, one close to TDC (10 mm below fire face) and the other one close to mid stroke (50 mm below fire face). Statistical analysis was undertaken on the numbers of cycles needed to determine ensemble average flow-field and turbulent kinetic energy maps with up to 1200 cycles considered. The effect of engine head temperature was also examined by obtaining flow fields using PIV with the engine head coolant held at 20 °C and 80 °C. LDV measurements were also performed and compared to the data obtained by PIV. Finally comparisons were made between the experimental data and results from CFD simulations using two different turbulence models on a grid of 1 million cells.

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Combustion and Autoignition Modelling in a Turbocharged SI Engine

Khan¹,

Burluka²,

Neumeister³

et al. 2016

SAE Int. J. Engines

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Simulation of Exhaust Gas Residuals in a Turbocharged, Spark Ignition Engine

Copeland

Gao

Freeland

et al. 2013

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Highly downsized, Direct Injection (DI) engines benefit strongly from cylinder scavenging where possible, to reduce internal residuals thereby reducing the occurrence of knock. Some researchers also suggest that non-homogeneous distribution of internal residuals at high load could contribute to pre-ignition or 'mega-knock' with much higher pressure amplitude than that of common knock. For this reason, a computational study was conducted to assess the residual gas fraction and incylinder distribution, using the combustion geometry of the three cylinder, 1.2L MAHLE Downsizing engine, which has proven to be a very robust and reliable research tool into the effects of combustion effects under a number of different operating conditions. This study used a CFD model of the cylinder gas exchange. ES-ICE coupled with STAR-CD was employed for a moving mesh, transient in-cylinder simulation. The boundary conditions were provided by a correlated 1-D (GT-power) model, with several scenarios simulated including engine speed, valve overlap and port geometry. The residual distributions at part load with different inlet ports were also assessed.

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Integrated Simulation, Analysis and Testing of a Variable Valve Train for Passenger Car Diesel Engines

Gurney¹,

Mitcalf²,

Warth³

et al. 2012

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John Mitcalf

Characterisation of Flow Structures in a Direct-Injection Spark-Ignition Engine Using PIV, LDV and CFD

Combustion and Autoignition Modelling in a Turbocharged SI Engine

Simulation of Exhaust Gas Residuals in a Turbocharged, Spark Ignition Engine

Integrated Simulation, Analysis and Testing of a Variable Valve Train for Passenger Car Diesel Engines

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