Descripción del proyecto
Innovaciones simbióticas de motor y propulsión para barcos
Un consorcio compuesto por ocho socios industriales y académicos trabaja en un proyecto de investigación de tres años de duración con el que desarrollar dos innovaciones simbióticas de motor y propulsión para barcos. El proyecto financiado con fondos europeos SeaTech desarrollará una versión operativa de un dispositivo de propulsión de ala retráctil oscilante y probará este dispositivo de bajo consumo a bordo de buques de transporte marítimo a corta distancia. La innovación se caracterizará por ser fácil de instalar en buques antiguos y sencilla de mantener. También ofrecerá a los armadores un retorno de la inversión del 400 % en ahorros de combustible y mantenimiento. El proyecto calcula que, si el 10 % de todos las barcos de corta distancia de la Unión Europea se equipan con el sistema de SeaTech, se logrará ahorrar 32,5 millones de toneladas de CO2 anuales. Esto equivale a las emisiones de 200 000 coches de pasajeros anuales.
Objetivo
The SeaTech consortium is proposing to develop two symbiotic ship engine and propulsion innovations, that when combined, lead to an increase of 30% in fuel efficiency and radical emission reductions of 99% for NOx, 99% for SOx, 46% for CO2 and 94% for particulate matter. The innovations will be characterized by high retrofitability, maintainability and offer ship owners a return-on-investment of 400% due to fuel and operational cost savings.
The proposed renewable-energy-based propulsion innovation is the bio-mimetic dynamic wing mounted at the ship bow to augment ship propulsion in moderate and higher sea states, capturing wave energy, producing extra thrust and damping ship motions.
The proposed power generation innovation is based on the idea of achieving ultra-high energy conversion efficiency by precisely controlling the auto-ignition of the fuel mixture at every operating point of the engine for achieving radically reduced emissions.
The ultimate objective of the project is to upscale both technologies, demonstrate them in relevant environment and finally model the expected complementarities and synergy effects of deploying both innovations on a short-sea vessel scenario by extrapolating demonstration data with the help of a bespoke Advanced Data Analytics Framework.
The project partners envisage to commercialize both symbiotic innovations in the European and Asian short-sea market by 2025, followed by the adjacent deep-sea market. Assuming only 10% of EU short-sea vessels would be retrofitted with SeaTech, this would result in CO2 savings of 32.5 million tons annually, which equals the emissions of 200.000 passenger cars/year. Further impact includes savings of EUR 85.2 billion in health and climate change damages due to lower emissions, the creation of +100 jobs at the project partners with a cumulative net profit of EUR 820 million in the first 5 years post-commercialisation, and the indirect creation of 250 new jobs in the EU shipyard industry.
Ámbito científico
- engineering and technologyenvironmental engineeringenergy and fuelsrenewable energyhydroelectricitymarine energywave power
- natural sciencesearth and related environmental sciencesatmospheric sciencesclimatologyclimatic changes
- engineering and technologyenvironmental engineeringenergy and fuelsenergy conversion
Palabras clave
Programa(s)
Convocatoria de propuestas
Consulte otros proyectos de esta convocatoriaConvocatoria de subcontratación
H2020-MG-2019-TwoStages
Régimen de financiación
IA - Innovation actionCoordinador
8051 TC HATTEM
Países Bajos