Copernicus Marine Service in support to
NATURAL RESOURCES & ENERGY USE CASE BOOK
SUMMARY P. 4
Bluerise: ocean thermal energy resource analysis
P. 6 Combining desalinisation and wave energy farms P. 8 Datahub for multi-sector environmental data distribution P. 10 M et-ocean studies and key environmental parameters for floating offshore wind technology P. 12 Estimating wave energy resources in the north aegean archipelago P. 14 Met-ocean conditions for the bimep marine renewable energy test site P. 16 Met-ocean conditions for the oil & gas industry and ocean energy sector P. 18 Seawater air conditioning system implementation P. 20 Support to exploration activities for deep sea mining P. 22 A system for predicting global and regional tidal currents P. 24 Tidal energy assessment - tidea P. 26 Validation of hydrodynamic models for coastal applications P. 28 Wello - wave resource assessment and cost of energy world map
The Copernicus Marine Service (CMEMS) provides reference data and information on the physical and biogeochemical state, variability and dynamics of the ocean and marine ecosystems for the global ocean and the European regional seas. Products are free of charge and open to all, accessible via marine.copernicus.eu. CMEMS is implemented by Mercator Ocean International on behalf of the European Commission.
Inventory of marine applications developed in the Natural Resources & Energy sector with the help of Copernicus Marine Service products. Should you have any comments or questions, please contact us at : communication@mercator-ocean.eu CMEMS_EU
Copernicus Marine Service
Version 2.0
U S E CASES
BLUERISE: OCEAN THERMAL ENERGY RESOURCE ANALYSIS
CASE • USE OVE RVIE W
Covering seventy percent of our globe, the oceans are the world largest solar collectors. This solar energy is captured as heat in the upper layers of the oceans. From the natural temperature difference that exists between the upper and deep layers of the ocean, energy can be extracted. This is called Ocean Thermal Energy Conversion (OTEC) and is in particular of interest in the tropics where it can be instrumental in helping islands and coastal regions in achieving a sustainable future. It is considered among the biggest renewable energy sources. Using the ocean database of Copernicus Marine Service, Bluerise in collaboration with TU Delft, has evaluated the year round and ten year average ocean characteristics in the Caribbean analyzing the ocean currents, density and temperature profiles over depth. Particular attention was spent on ocean upwelling and seasonal fluctuations. Bluerise has developed a model, using the data from the Copernicus Marine Service, to analyze oceanographic features such as natural ocean current patterns and their variability relevant for OTEC. This enables a quick assessment of the feasibility of OTEC locations.
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Provides relevant inputs for the feasibility analysis of Ocean Thermal Energy Conversion (OTEC) for a particular location quick assessment of the ocean characteristics
OTEC OCEAN THERMAL ENERGY CONVERSION BLUERISE CARRIBEAN ISLANDS RENEWABLE
NATURAL RESOURCES & ENERGY
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Ocean Thermal Energy Conversion is a renewable electricity source that uses the natural temperature difference in tropical oceans between the surface water and deep water. The technology can transform a temperature difference of 20 °C or more into clean, reliable, and predictable base load electricity. Tropical regions, with population centers near the coast, have ideal conditions to deploy OTEC technology to fully meet their rapidly growing energy needs. Although tropical regions currently account for less than 30% of the current global energy demand, the tropics will become the most significant energy market within the next 20 years.
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Ten years of data from the Global Ocean Model with a spatial resolution of 1/12 degree and temporal resolution of one day is applied. This enables a quick assessment of the feasibility of OTEC locations. Product in use 1
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Bluerise develops Ocean Thermal Energy solutions. Bluerise is a private company which mission is to bring the cost of OTEC down to a competitive level and to provide a vast, baseload source of renewable energy to its customers. Bluerise was conceived in 2009 by a team of experts convinced that OTEC can become a substantial part of the future sustainable energy mix.
Bluerise www.bluerise.nl/
Contact a.s.candy@tudelft.nl b.j.kleute@bluerise.nl
NATURAL RESOURCES &ENERGY
COPERNICUS MARINE SERVICE
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Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 2.0 feb 8 2019 - v3
U S E CASES
COMBINING DESALINISATION AND WAVE ENERGY FARMS
CASE • USE OVE RVIE W
Wavepiston has been working on wave energy since 2006. The Danish company aims to create sustainable and affordable devices to harness the vast potential of ocean waves. Currently demonstrating its prototype off the coast of Denmark, the team plans on deploying another device in the Mediterranean. Wavepiston is developing devices using wave energy to produce electricity and power desalinisation plants. Selecting a test site is a crucial step for wave energy companies as wave energy converters are often optimized for a specific wave climate. Resource assessment is thus one of the first phases of any ocean energy project. Using Copernicus Marine Service data, Wavepiston was able to perform quick assessments of the feasibility of wave sites in the North Sea and the Mediterranean. During the R and D phase, running power production simulations is necessary to validate the models used by the company. The Copernicus Marine wave data allowed Wavepiston to conduct potential power generation simulations on given project sites.
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Allows quick calculation of potential energy production in a given
Provide relevant wave data for wave resource mapping
location
USING WAVE ENERGY FOR DESALINISATION WAVEPISTON PROTOTYPE RENEWABLE MARINE ENERGY
NATURAL RESOURCES & ENERGY
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Estimates of potential production from wave energy vary, but all agree that the size of the prize is significant from 4.000 TWh/year (Cruz 2008) to 29.500 TWh/year (IPCC 2011). As a benchmark, Europe consumes around 3.000 TWh/year. Wave energy can provide utility scale power production. It also has applications for remote islands replacing expensive and polluting diesel-powered production. Furthermore, wave energy can power onshore and offshore industries such as fish farms, oil and gas platforms and desalinisation plants.
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The Copernicus Marine Service wave forecast models over the Mediterranean Sea and the European North West Shelves are used for this application. Product in use 1 Product in use 2
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Wavepiston was founded in 2006 by three engineers driven by solid experience and a mutual vision of a greener society. The company's mission is to develop a cost efficient and durable wave power technology that fits into the portfolio of energy sources and to get the technology disseminated and used the best way possible.
wavepiston wavepiston.dk/#top More information here Contact wavepiston info@wavepiston.dk
NATURAL RESOURCES &ENERGY
COPERNICUS MARINE SERVICE
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Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 2.2
U S E CASES
DATAHUB FOR MULTI-SECTOR ENVIRONMENTAL DATA DISTRIBUTION CASE • USE OVE RVIE W
Planet OS is a private company that provides big data infrastructure for industry to help them transform the way data-driven decisions are made. Planet OS has gathered environmental data from various sources, including the Copernicus Marine Service, in order to provide with met-oceanic information to various industry sectors: construction and management of offshore structures (e.g. offshore wind farms), development of port and harbour related structures, shipping industry, surfers and wave energy. Within the Open OS Datahub, data access to wave model product is simplified. Indeed, in practice, wave model data is difficult to access due to strange file formats, and there is very little information about the difference between the models. Using Planet OS Datahub, user can simply compare datasets by reviewing their detail pages, and get access to the data with a standard API call.
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Better knowledge and preparation to situation at sea. Better knowledge of ocean conditions
Better preparation at situation at sea
Better understanding of the environmental conditions. Free data
WAVE MODEL PLANET OS INTERTRUST DATAHUB REDISTRIBUTION PLATFORM GLOBAL OCEAN EUROPEAN SEAS NORTH ATLANTIC NORTH PACIFIC STANDARD API CALL
NATURAL RESOURCES & ENERGY
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From local wind-induced waves to swell waves originating from distant weather systems, wave models provide critical information about our seas and oceans. Wave information is useful for the construction and management of offshore structures (e.g. offshore wind farms) to plan the expected resilience of offshore structures that are constantly influenced by the force of water. It could also be used for the development of port and harbour related structures as historical wave data is significant for building structures. The Shipping industry is also concerned by waves for large cargo ships to small yachts. Finally, it has been predicted that wave energy will have great potential in the future.
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Among other sources, Copernicus Marine Service wave model products in the Mediterranean Sea are redistributed via the PlanetOS Datahub. Using Planet OS Datahub, user can simply compare datasets by reviewing their detail pages, and get access to the data with a standard API call. Product in use 1
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Planet OS is a private company that provides big data infrastructure for industry to help them transform the way data-driven decisions are made. Industry sectors which are targeted are: Construction and management of offshore structures (e.g. offshore wind farms), Development of port and harbour related structures, Shipping industry, Surfers, Wave energy.
PlanetOS planetos.com/datasets/ cmems_medsea_wave_analysis_forecast_0042
NATURAL RESOURCES &ENERGY
COPERNICUS MARINE SERVICE
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Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 20.
U S E CASES
MET-OCEAN STUDIES AND KEY ENVIRONMENTAL PARAMETERS FOR FLOATING OFFSHORE WIND TECHNOLOGY CASE • USE OVE RVIE W
Floating wind turbines are an up-and-coming technology that can be installed in deeper and very windy water far from the shore. French Mediterranean coast is particularly well suited to the development of this renewable offshore energy source. In 2016, the French government has selected a pilot floating wind farm project called EFGL (Eoliennes Flottantes du Golfe du Lion), conducted by joint venture comprised of ENGIE, EDP Renewables, Caisse des Dépôts, Eiffage, Principle Power and GE. Located 16 km off the coast of Leucate and Le Barcarès, EFGL project includes 4 GE Haliade TM 150-6MW turbines with semisubmersible floaters designed by Principle Power (Aix-en-Provence) and built by Eiffage Métal (Fos-sur-Mer). NOVELTIS, a private service company in oceanography contracted by ENGIE will perform the metocean study and define environmental parameters at the wind farm location for offshore site characterization. These inputs are required for both engineering and environmental studies. NOVELTIS uses CMEMS ocean model temperature and salinity from 1955 up to 2015 to build a statistical analysis of the oceanic circulation patterns of the area.
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Free and sustained information provision. Ready to use, global coverage, expertised ocean products.
NOVELTIS MARINE RENEWABLE ENERGY FLOATING OFFSHORE WIND TECHNOLOGY GREEN ELECTRICITY METOCEAN STUDY ENVIRONMENTAL PARAMETERS
NATURAL RESOURCES & ENERGY
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Marine renewable energy is rapidly being developed to help meet Europe energy needs and reduce its fossil fuel footprint. Several technologies have emerged to harness the energy of the seas. The Copernicus Marine Service ocean models provide key input for such technologies, as they can be used to estimate the ocean energy resources available, to help minimize the risks for operations at sea and to provide key environmental parameters typically associated with metocean studies.
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CMEMS Mediterranean Sea reanalysis model provides 3D ocean temperature and salinity in the past starting in 1955 up to now. These environmental parameters are typically associated with metocean studies required by floating offshore wind projects. Product in use 1
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Noveltis is an innovative private company serving the space, environment and sustainable development. It offer services of scientific engineering, studies, and implementation of tailor-made operational solutions. it develops high-tech solutions that combine strong physical and environmental expertise in the fields of atmosphere, ocean and land.
More information here www.noveltis.com/
NATURAL RESOURCES &ENERGY
Contact Jeliazovski Florian Florian.jeliazovski@noveltis.fr
COPERNICUS MARINE SERVICE
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Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 1.0 25/07/2018
U S E CASES
ESTIMATING WAVE ENERGY RESOURCES IN THE NORTH AEGEAN ARCHIPELAGO CASE • USE OVE RVIE W
North Aegean Sea is a relatively rich region for wave energy resource. Although average wave heights ranges in low levels, wind regimes and Aegean geomorphology create frequent waves. On a seasonal basis, the maximum mean wave power occur in winter. Local winds from the North West can make a significant contribution to renewable wave energy production during the summer season. The scope of the present study is first to identify feasible locations to deploy potential Wave Energy Farms in the North Aegean Sea and then to propose for sustainable water and energy solutions to remote island communities. A method of Multiple-Criteria Decision Analysis (MCDA) was developed using Geographic Information System (GIS) tools. Handling multiple conflicting criteria, the area was designed taking into consideration protected areas, military exercising areas, marine routes etc.. The Copernicus Marine Service wave model in the Mediterranean Sea was used to get an estimation of the wave energy. Results showed that the Skyros island is the most suitable island for the development of a wave energy farm.
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quick assessment of the ocean characteristics Understand better the prevailing marine environmental processes Useful, free and sustained information provision.
GREECE NORTH AEGEAN ARCHIPELAGO WATER AND ENERGY RESOURCES IN ISLANDS WAVE ENERGY RESOURCE EVALUATION WAVE FARM SITTING
NATURAL RESOURCES & ENERGY
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All islands in the North Aegean Archipelago face water and energy related issues due to limited sources and obsolete infrastructure. Problems are more intensive during the summer mass tourism that increases population up to 700%. Import of fossil fuels and water from mainland results into increased costs and management problems. Islands obtain their electricity primarily from diesel generators, providing five time more expensive electricity than on mainland. In the case of water, the resources are quite restricted and expensive. Overexploitation of groundwater resources, through illegal boreholes, causes coastal erosion and soil salinization.
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The Copernicus Marine Service wave model in the Mediterranean Sea was used to get an estimation of the wave energy in the North Aegean Sea. Product in use 1 Product in use 2 Product in use 3
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Piraeus University of Applied Sciences is an independent and self governed institute of higher education. 25 Laboratories in Engineering School and 10 Laboratories in the School of Business and Economics support the teaching and research and development activities. The present Master Thesis work was conducted by Chrysa V. Efstratiou under supervision of Pr. John Kaldellis.
technological education institute of Piraeus www.teipir.gr/index.php/en/ Contact Chrysa V. Efstratiou chefstra@gmail.com
NATURAL RESOURCES &ENERGY
COPERNICUS MARINE SERVICE
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Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 1.2. 09/04/2018
U S E CASES
MET-OCEAN CONDITIONS FOR THE BIMEP MARINE RENEWABLE ENERGY TEST SITE CASE • USE OVE RVIE W
BiMEP test site and IHCantabria Research Institute collaborate within the 'TRL+' project which final objective is to develop innovative tools supporting marine renewable energy developers from a conceptual to a real farm (http://trlplus.com/). 'TRL+' is a spanish national research project (RTC-2015-3836-3) funded by the Spanish Ministry of Economy, Industry and Competitiveness (MINECO). BiMEP test site is an open sea area in front of the coast of Armintza (Basque Country), where renewable marine energy devices are set up for testing the harnessing of energy from renewable marine sources. BiMEP and IH Cantabria have developed a Prediction System which objective is to forecast wind, wave, currents and sea level conditions to be considered in the planning of marine operations at BiMEP. In addition, the Prediction System feeds the Decision Support System to be developed in 'TRL+' project http://dss.trlplus.com/. The Copernicus Marine Service physics and wave models for the Iberia-Biscay-Irish area are used as forcing conditions in the very high resolution model developed in the TRL+ project.
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Decision Support System development allowing marine operation planning and coastal management and marine renewable energy applications
RENEWABLE MARINE ENERGY BIMEP TEST SITE MET-OCEAN CONDITION DECISION SUPPORT DASHBOARD
NATURAL RESOURCES & ENERGY
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The Biscay Marine Energy Platform (BiMEP) is an open-sea facility to support research, technical testing and commercial demonstration of pre-commercial prototype utility-scale floating Marine Renewable Energy Devices. The site was found to offer favourable wave conditions for the testing of devices and relatively low exposure to potentially damaging extreme waves. The site is located 1.7 km from the coast of Arminza, Basque Country, Northern Spain, in the Atlantic Ocean between 50 and 90 m water depth. The Prediction System developed here aims at forecasting wind, wave, currents and sea level conditions to be considered in the planning of marine operations at BiMEP.
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The 'TRL+' project and associated Decision Support System uses the Copernicus Marine Service physics (5km resolution) and wave models (10 km resolution) in the Iberian Biscay Irish geographical area. They are used as a boundary condition to feed the very high resolution (50 m) model developed in the project. Product in use 1 Product in use 2
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The Environmental Hydraulics Institute of Cantabria (IHCantabria) is a joint research centre that carries out research, knowledge transfer and training of specialists in the fields of fresh and saltwater. BiMEP test site is a fully developed open sea test site located in the Basque Country. It offers the capacity for testing a wide variety of marine renewable energy devices.
IHCantabria www.ihcantabria.com More information here Contact Felipe Fernandez fernandezf@unican.es
NATURAL RESOURCES &ENERGY
COPERNICUS MARINE SERVICE
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Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 2.0
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MET-OCEAN CONDITIONS FOR THE OIL & GAS INDUSTRY AND OCEAN ENERGY SECTOR CASE • USE OVE RVIE W
OPEN OCEAN develops tools and services for offshore oil & gas, wind, and wave and tidal energy applications. OPEN OCEAN has developed a dashboard called "Metocean Analytics", combining information about both meteorological and oceanic conditions and collecting data from various sources in order to contribute to the study and monitoring of specific sites. Renaud Laborbe from OPEN OCEAN says that "thanks to our Metocean Analytics tool, the Copernicus Marine Service data can now be used to obtain a complete Met-Ocean study in 5 minutes and provide a comprehensive study of a specific area of the global ocean for many applications in the offshore oil & gas, wind, and wave and tidal energy sectors". Metocean Analystics now delivers services over the Australian area, of interest for the Australian renewable energy sector.
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High quality information allowing realistic applied results. Ready to use, global coverage, expertised ocean products. Useful, free and sustained information provision.
OPENOCEAN PRIVATE COMPANY GLOBAL OCEAN OIL&GAS COASTAL ENGINEERING RENEWABLE MARINE ENERGY MET-OCEAN DASHBOARD CMEMS MODEL/SATELLITE/INSITU PRODUCTS
NATURAL RESOURCES & ENERGY
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A decision support system is a computer-based information system that supports business or organizational decision-making activities, typically resulting in ranking, sorting, or choosing from among alternatives. It serves the management, operations, and planning levels of an organization and help people make decisions about problems that may be rapidly changing and not easily specified in advance. Decision support systems can be either fully computerized, human-powered or a combination of both.
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CMEMS Analysis and Forecast model products provide with 7-day forecast of 3D ocean currents updated daily relevant for many sectors as for example Ocean Energy or the Oil&Gas industry. Product in use 1 Product in use 2
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Open Ocean is an innovative company based in Brest and Paris, which conceives since 2011 online decision-making solutions for industrial marine activities. Its highly qualified team of oceanographers is specialized in high resolution modelling, statistical analysis and data mining. Its "Metocean Analytics" dashboard is the first online offer for metocean study on-demand.
OPEN OCEAN www.openocean.fr/en/
NATURAL RESOURCES &ENERGY
More information here
COPERNICUS MARINE SERVICE
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Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 2.0
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SEAWATER AIR CONDITIONING SYSTEM IMPLEMENTATION CASE • USE OVE RVIE W
DEPROFUNDIS is specialised in SWAC systems. SWAC (Sea-water air conditioning) aka DWSC (Deep water source cooling) is an innovative and ecological Air Conditioning technology which uses the renewable source of cold oceanic water. It is particularly fitted to islands in the tropical belt where air conditioning is needed and where a vast reservoir of cold oceanic water is available close by. Deep cold sea water is pumped to the surface and passes through a heat exchange system to cool down the air conditioning network. The pumped water is finally released back into the ocean. Adrien Depaillat from DEPROFUNDIS testifies that "CMEMS temperature fields from ocean models and in-situ observations are crucial for our business in order to qualify the potential for SWAC around the world. CMEMS ocean currents are also key for securing the kilometres of underwater cables and pipes used to pump deep sea water."
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High quality information allowing realistic applied results. Ready to use expertised ocean products. Useful, free and sustained information provision for cable laying.
DEPROFUNDIS DPI PRIVATE COMPAGNY GLOBAL OCEAN OTEC SWAC RENEWALE MARINE ENERGY CMEMS MODEL PRODUCTS
NATURAL RESOURCES & ENERGY
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Renewable energy allows energy saving and lower CO2 emission. SWAC system provides low operating costs for residential and commercial coastal buildings/facilities. SWAC saves energy consumption from 80 to 90% compared to regular Air Conditioning systems.
MS • CME P RODUCT I N U SE
CMEMS Analysis and Forecast model products provide with 7-day forecast of 3D ocean temperature and currents updated daily. It provides temperature gradient and deep ocean current information relevant to cable laying in the ocean. Product in use 1 Product in use 2
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Deprofundis is a private company specialised in SWAC systems, i.e. ecological air conditioning technology using cold water. The group also offers consulting services to analyse the energy consumption of a given building or larger area and then bring various solutions thanks to renewable energies.
More information here
NATURAL RESOURCES &ENERGY
COPERNICUS MARINE SERVICE
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Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 1.3 12/07/2017
U S E CASES
SUPPORT TO EXPLORATION ACTIVITIES FOR DEEP SEA MINING CASE • USE OVE RVIE W
SAGRES Project is an innovative and disruptive approach developed by ISQ that focus on the conception and validation of an algorithm that supports decision to prospection and exploration (P&E) activities related with deep sea mineral (DSM) resources based on satellite information, and complemented by in-situ data, including CMEMS data. The fusion and analysis of these data can be used as approximation vectors towards mineralization in order to enhance location, delineation and ranking of potential P&E target areas related with the occurrence of DSM resources such as manganese nodules, cobalt-rich ferromanganese crusts, and seafloor massive sulphide deposits. By using this approach, SAGRES Project expects to increase P&E discovery success rates, optimize campaigns time, reduce P&E uncertainty and costs, and provide baseline information related to the environmental impact of this activity. The preliminary and ongoing results are very promising, and show for several areas considered in the North Atlantic Ocean a significant forecast capacity performed by the algorithm.
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Better knowledge and preparation for exploration missions at sea
Higher cost-effectiveness by better mission time optimization
Decision-making support tool
Useful environmental baseline information useful information provision at multiscale (regional to local)
DEEP SEA MINING SAGRES ISQ DEEP SEA PROSPECTION DATA BASE
NATURAL RESOURCES & ENERGY
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In the case of cobalt-rich ferromanganese crusts, the algorithm results show 77% of certainty in its forecasted capability. The distribution of the algorithm predicted points are in good agreement with the depth range considered appropriated for the economically viable occurrence of cobalt-rich ferromanganese crusts. The SAGRES Project ongoing approach can therefore contribute to smarter ocean exploration missions.
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CMEMS model about the ocean physical, chemical and biological parameters together with other satellite and in-situ data are used. For instance, the provision of data on temperature, salinity, and concentration of oxygen, nitrate, phosphate and chlorophyll in sea water at several depth ranges and fairly high resolution grids are important to better constraint and enhance the forecast capability of the SAGRES Project algorithm. Product in use 1 Product in use 2 Product in use 3
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ISQ is a private Portuguese entity established in 1965, and currently has about 1400 employees and presence in 16 countries. ISQ offers 250+ specialized engineering services, and is involved in 400+ R&D international projects related with business sectors such as Aeronautical & Aerospace, Automotive, Construction & Infrastructures, Energy, Oil & Gas, and Process Industries.
ISQ
More information here
www.isq-group.com
NATURAL RESOURCES &ENERGY
Contact João Carvalho jrcarvalho@isq.pt
COPERNICUS MARINE SERVICE
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Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 1.2
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A SYSTEM FOR PREDICTING GLOBAL AND REGIONAL TIDAL CURRENTS CASE • USE OVE RVIE W
NOVELTIS is a private French service company specialized in space, environment, sustainable development and technological innovations. The company has developed a global and regional tidal currents prediction system called TIPS targeting the Marine Renewable Energy sector and its tidal turbines. NOVELTIS has built a regional tidal model that uses Data Assimilation Techniques to incorporate satellite and in-situ observations into their model. This technique can be used to correct the NOVELTIS ocean model to be closer to observed conditions and to improve forecasting accuracy. The NOVELTIS data assimilation system uses Satellite Sea Level data from the Copernicus Marine Service and uses in-situ observed Sea Level data, also from the Copernicus Marine Service, to validate the results. F. Jeliazovski from NOVELTIS says that "Satellite Sea Level data from the Copernicus Marine Service are a great asset for our tidal system as this allows our tidal model to be as close as possible to real ocean conditions".
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Free and sustained information provision.
Provision of merged satellite information along with in situ information. Ready to use, global coverage, expertised satellite products.
NOVELTIS TIDAL CURRENTS SATELLITE OBSERVATIONS ALTIMETRY GLOBAL OCEAN OCEAN ENERGY TIDAL TURBINES
NATURAL RESOURCES & ENERGY
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Coastal areas and Offshore platforms are constantly being extended and adapted in order to meet economic demand. Private companies such as NOVELTIS help project developers and government authorities with the design, construction, monitoring and servicing of coastal or offshore infrastructure. Their knowledge about waves, morphology, hydrodynamics, water quality and ecology allows to advise clients. The use of the free and sustained Copernicus Marine Service products is an asset for such private companies.
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The global Ocean satellite sea level anomaly maps in real time and in the past are used for this application. It merges data from several satellites among which Sentinel-3. Product in use 1 Product in use 2
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Noveltis is an innovative private company serving the space, environment and sustainable development. It offer services of scientific engineering, studies, and implementation of tailor-made operational solutions. it develops high-tech solutions that combine strong physical and environmental expertise in the fields of atmosphere, ocean and land.
Noveltis www.noveltis.com/
More information here Contact Jeliazovski Florian Florian.jeliazovski@noveltis.fr
NATURAL RESOURCES &ENERGY
COPERNICUS MARINE SERVICE
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Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 1.4 06/11/2017
U S E CASES
TIDAL ENERGY ASSESSMENT - TIDEA
CASE • USE OVE RVIE W
To date, there is no global solution providing a first level of information for ocean renewable energy site assessments for tidal energy devices (tidal current speed, tidal elevation, tidal power). NOVELTIS has developed a unique solution to provide this information: TidEA, Tidal Energy Assessment. TidEA is a free of charge decision-making tool to identify the most suitable sites for the development of tidal energy and also to characterize in detail the resource of the various sites of interest through the provision of relevant indicators calculated by NOVELTIS teams and validated using products (in situ data, elevation data) provided by the Copernicus Marine Environment Monitoring Service (CMEMS, marine.copernicus.eu). TiDEA lists all the worldwide coastal regions and offers data up to 100 meters deep. For each selected site, you will find the maximum current speeds, the power density and the indicators of occurrence of some specific speed thresholds. TidEA is used by different types of end-users : NAVAL GROUP and SABELLA for the tidal energy project development and KRAKEN SUBSEA for their business development. More here: http://www.tidea.io/
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A first level of information concerning the worldwide tidal energy resource Free of charge access global coverage
OCEAN RENEWABLE ENERGY TIDAL RESOURCE OCEAN ENERGY RESOURCES ASSESSMENT OCEAN FARM SITING TIDEA NOVELTIS
NATURAL RESOURCES & ENERGY
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Ocean energy technology is rapidly being developed to help meet Europe energy needs and reduce its fossil fuel footprint. Several technologies have emerged to harness the energy of the seas. The Copernicus Marine Service ocean products provide key input for such technologies, as they can be used to help estimate the ocean energy resources available and select the most interesting areas to develop the tidal energy projects in the world.
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NOVELTIS is performing high resolution tidal atlases for the space agency and maritime industry. These atlases have been validated thanks to the best satellite data and in-situ observations procured by the Copernicus Marine Service allowing to provide some tidal energy parameters (Maximum current speed, Tidal power density etc...) all over the world. Product in use 1 Product in use 2
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NOVELTIS, a french private company, supports its offshore energy clients in their projects with resource assessment, site selection and metocean studies. It develops services for offshore wind, tidal and wave energy. Their expertise in modelling, data and statistical analysis and in forecast services helps their clients in the design of projects and risk management.
NOVELTIS www.tidea.io/
More information here Contact Florian Jeliazovski florian.jeliazovski@noveltis.fr
NATURAL RESOURCES &ENERGY
COPERNICUS MARINE SERVICE
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Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
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U S E CASES
VALIDATION OF HYDRODYNAMIC MODELS FOR COASTAL APPLICATIONS CASE • USE OVE RVIE W
GLOBOCEAN develops tools and services for Oil & Gas, Coastal Engineering and Renewable Energy applications. For example, Met-Ocean dashboards (i.e. dashboards combining information about both meteorological and oceanic conditions) combining data from various sources are developed, in order to contribute to the study and monitoring of specific sites. Moreover, fine scale ocean models are developed to better comprehend the complexity of such specific areas. Hafedh Hajji from GLOBOCEAN says that "CMEMS satellite products such as sea level altimetry products are key information for validating our ocean models".
E NE FIT S • BFOR USE R
High quality information allowing realistic applied results. Useful, free and sustained information provision for coastal modelling.
GLOBOCEAN PRIVATE COMPANY GLOBAL OCEAN OIL&GAS COASTAL ENGINEERING RENEWABLE MARINE ENERGY MET-OCEAN DASHBOARD CMEMS SATELLITE PRODUCTS
NATURAL RESOURCES & ENERGY
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S A ND • FACT KE Y N UMBER S
Ports, waterways and locks are constantly being extended and adapted in order to meet economic demand. Private companies such as GLOBOCEAN help project developers and government authorities with the design, construction, and servicing of ports. Their knowledge about waves, morphology, hydrodynamics, water quality and ecology allows to advise clients and to optimise the design of ports. The use of the free and sustained Copernicus Marine Service products is an asset for such private companies.
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The global Ocean satellite sea level anomaly maps in real time and in the past are used for this application. It merges data from several satellites among which Sentinel-3. Product in use 1 Product in use 2
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Globocean is a french private service company with strong expertise in met-oceanic studies : Evaluation of offshore and coastal wind, waves, current and water levels useful to operators and engineers, Supervision of sea operations, Hindcasting of storms and tropical cyclones, Meteorologic assistance for routes and operations at sea, Tidal studies, Analysis of in-situ measurements.
GLOBOCEAN www.globocean.fr/
NATURAL RESOURCES &ENERGY
More information here
COPERNICUS MARINE SERVICE
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Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
Copernicus Marine Service
Version 2.0
U S E CASES
WELLO - WAVE RESOURCE ASSESSMENT AND COST OF ENERGY WORLD MAP CASE • USE OVE RVIE W
Wello started designing wave energy converters in 2008. Its devices called Penguins are unique in the wave energy landscape. The asymmetrical shape of their hull creates a gyrating motion which pushes a rotating mass inside the device with each passing wave. The converter turns it into electrical power, immediately transferred to the grid by a sub-sea cable. Wello is also one of the first wave energy companies to develop a project outside of Europe. With its 10 MW capacity, the Nusa Lembongan site in Indonesia is currently the largest in-the-works wave-energy park in the world. Copernicus Marine Service product: Global Ocean Waves Analysis and Forecast updated Daily, provides precious wave data to optimize Wello's activity.
E NE FIT S • BFOR USE R
Allows to design cost of energy maps for investors. Provides relevant data for wave resource mapping in Europe and export markets.
WAVE ENERGY NATURAL RESOURCES & ENERGY GLOBAL OCEAN WAVES ANALYSIS AND FORECAST UPDATED DAILY
NATURAL RESOURCES & ENERGY
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S A ND • FACT KE Y N UMBER S Wello's Penguins are rated at 1 MW. Its first device survived 18 meters waves. Wello expects to reduce the costs of its Penguin by 30% by 2020.
MS • CME P RODUCT I N U SE
Wello has been using Copernicus Marine Service's data to develop its Indonesian project. The global coverage allowed the Finnish company to get wave data for remote locations and perform both resource assessments and production simulations thanks to our product: Global Ocean Waves Analysis and Forecast updated Daily. Wello also used our product to design a world map showing the price of electricity produced by its devices in each suitable location on the globe. Product in use 1
E MS • CM USE R
Wello was established in 2008 with the development of the Wello Penguin product line. Over the years the company has secured several essential patents and has grown, getting new partners on board. Among Wello's lead investors: Fortum Oyj, VNT Management, Innovestor Ventures, and Estlander Holdings Oy.
WELLO wello.eu/
More information here Contact Heikki PAAKKINEN heikki.paakkinen@wello.eu
NATURAL RESOURCES &ENERGY
COPERNICUS MARINE SERVICE
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Any question, please contact servicedesk.cmems@mercator-ocean.eu http://marine.copernicus.eu/
MARKETS
Copernicus Marine Service supports all sectors of the Blue Economy.
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POLAR E NVI RONME NT M ONI TORI NG
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The Copernicus Marine Service polar environment products allow users to assess environmental safety in both poles. These products are used by national sea ice services to serve many user groups like: National authorities Research institutes Shipping companies
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SCIENCE & CL IMAT E
We provide scientists with many products to conduct their environmental, climate and oceanographic research. They can rely on: The Ocean Monitoring The Ocean State Indicators (OMIs) Report, a flagship scientific publication
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We provide public authorities and governments with key parameters to support the monitoring of habitats within conservation areas. Many variables can be monitored by each European Member State using the Copernicus Marine Service, such as: Sea water eutrophication Ocean noise
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WATE R QUALI TY
SOCIET Y & EDUCAT ION
We develop ocean literacy tools for the general public, teachers, decision-makers etc. They are used to raise awareness about the multifaceted environmental pressures on the ocean: Climate change Overfishing Plastic pollution
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M ARI NE NAVI GATI ON
We provide products contributing to safer ship routing (can reduce fleet navigation risks in ice-covered areas) and more ecological and efficient marine navigation (by lowering fuel consumption): Ocean current Sea ice Wave
N ATU RA L R ES O U R C ES & E N E R GY
Our ocean models provide key inputs to estimate ocean energy resources to: Monitor Evaluate ocean offshore sites energy resources These data are used by businesses researchers and decision-makers.
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COASTAL M O NITO R IN G
The modelling method called “Downscaling” allows the Copernicus Marine Service data to be used to develop high resolution coastal models, useful for coastal management.
Using our products, each European Member State can: Monitor sea water Notably sea water quality in line with eutrophication in the European Marine areas impacted by Strategy Framework harmful algae blooms Directive (MSFD)
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M A R IN E CO N S E RVAT I O N & PO L IC IES
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M A R IN E FO O D
Our products and services are used to model fish habitats with variables like chorophyll and sea surface temperature, for example. These contribute to the sustainable management of: Fisheries Aquaculture farms
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SA FE TY & D ISASTE R
Our daily forecast ocean model provides inputs for: Search and rescue Meteo-ocean software dashboards The ocean current model can be used for drift forecasting of oil spills that help government agencies to better plan emergency response operations.
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NATURAL RESOURCES & ENERGY
AVAILABL E VARIABL ES
B ENEFITS
National & local authorities
Safer implementation of energy platforms at sea
Research institutes
More sustainable exploration and exploitation of natural resources
Governmental & public agencies
ENVIRO NMENTAL & SOCIETAL IMPACT S
Help with the mandatory environmental monitoring of oshore energy sites
Private companies
Minimize the risks for operations at sea Support the evaluation of energy resources (reduce prospection, exploration and costs)
Startups
Copernicus Marine Service provides key data for the marine renewable energy sector and for the sustainable exploitation of oil & gas, and deep-sea mining resources. l
Implemented by
marine.opernicus.eu
@CMEMS_EU
Copernicus Marine Service
servicedesk.cmems@mercator-ocean.eu