Ocean Energy kick-off Prof.dr. Kornelis Blok Challenge the future.

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Presentation transcript:

Ocean Energy kick-off Prof.dr. Kornelis Blok Challenge the future

Context Oceans cover 70% of the Earth’s surface and are a vast renewable energy resource Oceans are still relatively unexplored TU Delft is renowned in Water and Offshore Energy research (2nd position globally in Offshore Wind) TU Delft can build on an extensive network of knowledge partners and industry in the Water and Offshore field

Ocean Energy Tidal / current Wave Aquatic biomass Thermal gradient Salinity gradient In 2005, global electricity consumption averaged 2 TW. This table from shows the potential of the various Ocean Energy resources. It’s a big source, and these numbers are still conventional. Baseload = 24/7 production International Energy Association: None of these technologies is widely deployed as yet, but significant potential exists. The IEA believes that these technologies could start to play a sizable role in electricity mix around 2030.

Ocean Energy projected growth In streamline of offshore wind Take advantage of innovations in Oil & Gas & Offshore Wind industry 2020: 3.5GW (€ 8.5 bn) * Source: European Ocean Energy Association 2050: 188GW (€ 450 bn)

Dutch industry momentum increases Supported by Topsector Water Dutch association for Energy from Water:

Program Kick-off Ocean Energy Delft Energy Initiative Program Kick-off Ocean Energy Delft Energy Initiative 15.00 Paulien Herder Chair Delft Energy Initiative Welcome 15.10 Kornelis Blok Overview Ocean Energy 15.20 Henk Polinder Ocean wave energy; 10 minutes presentation + 10 minutes discussion 15.40 Antonio Jarquin Laguna Current and tidal energy; 10 minutes presentation + 10 minutes discussion 16.00 Berend Jan Kleute Ocean Thermal Energy Conversion, OTEC; 10 minutes presentation + 10 minutes discussion 16.20 Peter Mooij Aquatic biomass; 10 minutes presentation + 10 minutes discussion 16.40 Lily Li Funding opportunities 16.50 Discussion and conclusions and next steps 17.15 Drinks