2021
DOI: 10.1177/09544062211021440
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Research on sealing characteristics of annular power cylinder based on twin-rotor piston engine

Abstract: The sealing characteristics of an annular power cylinder based on the Twin-rotor piston engine are studied, which provides a theoretical foundation for the sealing design of a new high-power density piston engine. In this paper, the basis thermodynamic realization process of an annular power cylinder is presented. The Runge Kutta equation is used to establish the coupled leakage model of adjacent working chambers under annular piston seal. And the sealing performance of the annular power cylinder is analyzed i… Show more

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Cited by 5 publications
(1 citation statement)
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“…With regards to the investigations of ORP engines, the operation theory was firstly analyzed using mathematical equations [18,19]; additionally, the engine power output was considered to be linearly increased with cylinder numbers, resulting from the increased engine displacement; however, the combustion process was neglected in mathematical equations that more cylinders meant less time for each stroke during operation over the given engine speed; it would cause low volumetric efficiency, poor combustion efficiency and thermal efficiency, as well as much unburned fuel. Pan et al [20] further investigated the leakages of the ORP engine, showing that increasing the engine speed and dropping compression ratio helped alleviate gas leakages. Gao et al [21] compared the performance of a four-cylinder ORP engine with a reciprocating engine having the same displacement using numerical simulation methods.…”
Section: Introductionmentioning
confidence: 99%
“…With regards to the investigations of ORP engines, the operation theory was firstly analyzed using mathematical equations [18,19]; additionally, the engine power output was considered to be linearly increased with cylinder numbers, resulting from the increased engine displacement; however, the combustion process was neglected in mathematical equations that more cylinders meant less time for each stroke during operation over the given engine speed; it would cause low volumetric efficiency, poor combustion efficiency and thermal efficiency, as well as much unburned fuel. Pan et al [20] further investigated the leakages of the ORP engine, showing that increasing the engine speed and dropping compression ratio helped alleviate gas leakages. Gao et al [21] compared the performance of a four-cylinder ORP engine with a reciprocating engine having the same displacement using numerical simulation methods.…”
Section: Introductionmentioning
confidence: 99%