Development of an intelligent marine engines health assessment system based on digital twins and data driven models

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Abstract

The engine instantaneous torque is a critical measurement which can provide deep insight into the cylinders condition, can be cheaply obtained, and thus also allow for continuous engine monitoring, which is critical in identifying the onset of failures and degradation before incurring increased costs in fuel, spare parts, and vessel down time. This study presents the development of an intelligent engine health assessment system which relies on an engine digital twin, inclusive of both a thermodynamics and a crankshaft dynamics model to simulate the engine's instantaneous torque. Subsequently, the engine digital twin is utilised in tandem with the measured instantaneous torque to successfully identify frequently occurring malfunctioning conditions through an engine faults mapping approach. Furthermore, an even deeper insight to the cylinder's condition is gained, by reconstructing the in-cylinder pressure diagram for all cylinders using just the instantaneous torque.
Original languageEnglish
Pages33-46
Number of pages14
Publication statusPublished - 2 Dec 2021
EventAnnual Conference of Marine Technology 2021: The challenges of 2030. Technologies & Regulations - Hellenic Institute of Marine Technology, Athens, Greece
Duration: 2 Dec 20212 Dec 2021

Conference

ConferenceAnnual Conference of Marine Technology 2021
Abbreviated titleH.I.M.T. 2021
Country/TerritoryGreece
CityAthens
Period2/12/212/12/21

Keywords

  • instantaneous torque
  • engine diagnostics
  • health assessment
  • torque monitoring
  • torsional vibration
  • engine faults mapping

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