Publications per year
Publications per year
Project Details
Description
In the near future, the European oceans will be subjected to a massive development of marine infrastructures. The most obvious structures include offshore wind farms, constructions for marine aquaculture and the exploitation of wave energy.
The development of these facilities will increase the need for marine infrastructures to support their installation and operation and will unavoidably exert environmental pressures on the oceans and marine ecosystems. It is therefore crucial that the economic costs, the use of marine space and the environmental impacts of these activities remain within acceptable limits. Hence, offshore platforms that combine multiple functions within the same infrastructure offer significant economical and environmental benefits.
MERMAID will develop concepts for the next generation of offshore platforms which can be used for multiple purposes, including energy extraction, aquaculture and platform related transport. The project does not envisage building new platforms, but will theoretically examine new concepts, such as combining structures and building new structures on representative sites under different conditions.
The 28 partner institutes forming MERMAID are Universities (11), Research institutes (8), Industries (5) and Small and Medium Enterprises (4 SME's), from many regions in EU. The group represents a broad range of expertise in hydraulics, wind engineering, aquaculture, renewable energy, marine environment, project management as well as socio-economics.
MERMAID is one of three EU-FP7 funded projects selected for funding in response to Ocean 2011 on multi-use offshore platforms (FP7-OCEAN.2011-1 “Multi-use offshore platforms"). This project shall have a cost of 7,4 million euro. The European Union has granted a financial contribution of 5,5 million euro.
MERMAID is lead by Professor Erik Damgaard Christensen at DTU MEK.
Charlotte Bay Hasager at DTU Wind Energy is responsible for the offshore wind assessment.
The development of these facilities will increase the need for marine infrastructures to support their installation and operation and will unavoidably exert environmental pressures on the oceans and marine ecosystems. It is therefore crucial that the economic costs, the use of marine space and the environmental impacts of these activities remain within acceptable limits. Hence, offshore platforms that combine multiple functions within the same infrastructure offer significant economical and environmental benefits.
MERMAID will develop concepts for the next generation of offshore platforms which can be used for multiple purposes, including energy extraction, aquaculture and platform related transport. The project does not envisage building new platforms, but will theoretically examine new concepts, such as combining structures and building new structures on representative sites under different conditions.
The 28 partner institutes forming MERMAID are Universities (11), Research institutes (8), Industries (5) and Small and Medium Enterprises (4 SME's), from many regions in EU. The group represents a broad range of expertise in hydraulics, wind engineering, aquaculture, renewable energy, marine environment, project management as well as socio-economics.
MERMAID is one of three EU-FP7 funded projects selected for funding in response to Ocean 2011 on multi-use offshore platforms (FP7-OCEAN.2011-1 “Multi-use offshore platforms"). This project shall have a cost of 7,4 million euro. The European Union has granted a financial contribution of 5,5 million euro.
MERMAID is lead by Professor Erik Damgaard Christensen at DTU MEK.
Charlotte Bay Hasager at DTU Wind Energy is responsible for the offshore wind assessment.
| Acronym | MERMAID |
|---|---|
| Status | Finished |
| Effective start/end date | 01/01/2012 → 31/05/2016 |
UN Sustainable Development Goals
In 2015, UN member states agreed to 17 global Sustainable Development Goals (SDGs) to end poverty, protect the planet and ensure prosperity for all. This project contributes towards the following SDG(s):
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D5.2 Numerical tools
Møhlenberg, F. & Christensen, E. D., 2015, 53 p.Research output: Book/Report › Report › Research › peer-review
Open AccessFile458 Downloads (Pure) -
D5.3 Interaction between currents, wave, structure and subsoil
Christensen, E. D., Sumer, B. M., Schouten, J-J., Kirca, Ö., Petersen, O., Jensen, B., Carstensen, S., Baykal, C., Tralli, A., Chen, H., Tomaselli, P. D., Petersen, T. U., Fredsøe, J., Raaijmakers, T. C., Kortenhaus, A., Hjelmager Jensen, J., Saremi, S., Bolding, K. & Burchard, H., 2015, 153 p.Research output: Book/Report › Report › Research › peer-review
Open AccessFile1557 Downloads (Pure) -
D5.4 Guidelines for interaction between seabed and support structure
Brennan, A., Sumer, B. M., Christensen, E. D., Kirca, Ö., Sawicki, A., Swidzinski, W. & Christensen, E. D., 2015, 27 p.Research output: Book/Report › Report › Research › peer-review
Open AccessFile1032 Downloads (Pure)
Activities
- 1 Conference presentations
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European Maritime Day
Erik Damgaard Christensen (Speaker)
19 May 2014 → 20 May 2014Activity: Talks and presentations › Conference presentations
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