Computational Model of Rotary Engine Thermodynamic Cycle

Computational Model of Rotary Engine Thermodynamic Cycle

Peer-reviewed article not indexed in WoS or Scopus

During the engine prototype design period the performance predictions are the key subject of the development. For the piston reciprocating engines a wide spectrum of the analytical approaches was developed as well as the numerical software (GT-Suite, Ricardo Wave etc.) is being used often. The increasing demand for the high-power output engines with a low displacement and weight for the UAV and marine applications, makes Wankel rotary engine a sensible option. The commercially available software for the performance prediction does not include required algorithms for the rotary engine calculation. This paper provides an approach to be used in the simulation model setup as well as the comparison of the simulation outcome with the measured data.

During the engine prototype design period the performance predictions are the key subject of the development. For the piston reciprocating engines a wide spectrum of the analytical approaches was developed as well as the numerical software (GT-Suite, Ricardo Wave etc.) is being used often. The increasing demand for the high-power output engines with a low displacement and weight for the UAV and marine applications, makes Wankel rotary engine a sensible option. The commercially available software for the performance prediction does not include required algorithms for the rotary engine calculation. This paper provides an approach to be used in the simulation model setup as well as the comparison of the simulation outcome with the measured data.

rotary engine, engine performance prediction, 1D simulation

rotary engine, engine performance prediction, 1D simulation

DRBAL, M.

2021

26.06.2019

1335-2393

Acta Mechanica Slovaca

23

2

Slovak Republic

26

29

4

http://www.actamechanica.sk/artkey/ams-201902-0003_computational-model-of-rotary-engine-thermodynamic-cycle.php