Analytical Fatigue Life Assessment of a Full-Scale Wind Turbine Test Bench (yderligere info - se engelsk web site)
Fault Detection of Rolling Element Bearings in a Full-Scale Wind Turbine Test Bench (yderligere info - se engelsk web site)
Methodology for determination of vibration damping of an offshore wind turbine supporting structure (yderligere info - se engelsk web site)
Exoprodigi
Projekets mål er at fremme implementerings- og innovationsresulter der fremkom i ECOPRODIGI projektet med det formål at opnå stretch targets for eco-efficiency som blev sat i ECOPRODIGI projektet.
Ecoprodigi
The ECOPRODIGI (Eco-efficiency, Process & Digitalisation of the Maritime Industry) project aims at bringing eco-efficient processes and digital solutions to the Baltic Sea Maritime industry
ShippingLab:
ShippingLab is a non-profit innovation and project partnership in Blue Denmark – a national research and innovation platform for digital and sustainable shipping in Denmark
SDU Mech is involved in WP 1: WP1 Digital Ship operations
The project focuses on vessel modelling and developing more precise ship models and better estimation of the effects that the environment has on vessel and system performance. WP1 will deliver tools and methodology for digital twinning of vessel in the seaway, using high frequency data.
The SDU Mech work more specifically: Vessel operation and diagnostics engine for performance analysis. A close feedback loop to vessel crews, raising the bar for decision support, providing higher order conclusions and decision support for actions.
Partners in project: Vessel Performance Solution, DTU, FORCE, Lauritzen, Torm, MAN Diesel & Turbo, Logimatic, AAU, SIMAC
The project is funded by The Innovation Fund Denmark and the private funds: Lauritzen Fonden, Orients Fond, Den Danske Maritime Fond.
Project period: 2019 to 2022.
For more information go to www.Shippinglab.dk
SDU Mech is involved in one work package regarding Digital Ship Operations, Performance Monitoring and Eco-efficiency – with a special focus on smaller ferries.
The project is funded by EU Baltic Sea Interreg.
Project period: October 2017 to December 2020. Please refer to the project’s website: https://ecoprodigi.eu/
Reliables Offshore
Projektet går ud på at udvikle en metode til påvisning af materialetræthed i konstruktioner, også kaldet Structural Health Monitoring (SHM).
Ud over dette, sigter projektet mod at finde svar på spørgsmål vedrørende sikker og effektiv drift af eksisterende konstruktioner, efter deres designede levetid. FH Kiel, SDU og FuE samarbejder om projektet, som modtager støtte fra Interreg Deutschland-Danmark.
Vibration and damping in large containerships
I dette projekt studerer vi de nye store containerskibe på over 21.000 TEU, hvor vi prøver at forstå de svingningsmønstre, der opstår under forskellige vejr- og driftsforhold. Disse data er vigtige for at forstå de kræfter der belaster både skibene og deres containere.
Blue INNOship Subproject: Monitoring and Performance
Partnerskab finansieret af Innovation Fund Denmark
Partnerskab finansieret af Innovation Fund Denmark
ECO drone
Samarbejde med SDU Dronecenter
Danish-German Maritime Netværk indenfor Fatigue Resistance
Maritime Decision Support System for Emission Control
Samarbejde mellem SDU, DTU og Den Danske Maritime Fond
Analysis of IMOs Second Generation Intact Stability Criteria
Projektsamarbejde med Den Danske Maritime Fond