Maritime Renewable Technology (MRT) JoEllen Rose Marine Renewables Engineer October 2011

Energy | Environment | National Security | Health | Critical Infrastructure

Technology Review

Tidal

Wave/Ocean Current

Offshore Wind

Seawater Air Conditioning (SWAC)

Verdant Power

ORPC

Pelamis Wavebob

Oceanlinx

Oyster

Poseidon wind/wave hybrid

Energy | Environment | National Security | Health | Critical Infrastructure

Growing Industries

0102030405060708090

100

2004 2005 2006 2007 2008 2009 2010

Bill

ions

of D

olla

rs

Year

Wind Investment

International

US

0

5

10

15

20

25

30

35

2004 2005 2006 2007 2008 2009 2010

Bill

ions

of D

olla

rs

Year

Solar Investment

International

US

01020304050607080

2004 2005 2006 2007 2008 2009 2010

Mill

ions

of D

olla

rs

Year

DOE Wind Funding

DOE_FUND

0

50

100

150

200

250

300

350

2004 2005 2006 2007 2008 2009 2010

Mill

ions

of D

olla

rs

Year

DOE Solar Funding

DOE_FUND

Energy | Environment | National Security | Health | Critical Infrastructure

MRT Projected Growth

2010 showed significant changes to US National Ocean Policy DOE marked $40-50 M for MHK funding in 2011 Potential for 15% of Europe’s energy generation by 2050 with 188 GW of MHK Ocean Power Technologies, Inc. signed SA with 11 state/federal agencies for utility

scale project in Reedsport, Oregon

Energy | Environment | National Security | Health | Critical Infrastructure

Geographic Engagement

Wind

MREC

SWAC

NWETC

SWAC

Wave/Ocean Current

Camp Rilea

In-stream Turbine

Portland

Guam

Korea

Scotland

Norway

Energy | Environment | National Security | Health | Critical Infrastructure

DOE MHK Standards Development

• Serve as head of US DOE’s Technical Advisory Group to the International Electrotechnical Commission Technical Committee for Marine and Hydrokinetic Energy standards (IEC TC-114)

• Making strong efforts to coordinate with Wind Turbines Technical Committee, Offshore Wind Development Coalition, and the American Wind Energy Association Offshore Working Group

• Other TAG participants: • GE Global Research • Chevron Technology Ventures • Lockheed Martin Corporation • Royal Caribbean Cruises, Ltd. • Florida Atlantic University • Old Dominion University • Oregon State University • University of Washington

• Georgia Tech • Virginia Tech • United States Naval Academy • Alaska Power & Telephone • Pacific Gas & Electric • Maui Electric Company • Foundation for Ocean

Renewables

Energy | Environment | National Security | Health | Critical Infrastructure

Army Energy Initiatives Office

Created to foster support of renewable energy projects on Army lands Dedicated solely to working with private sector to execute large-scale projects Will publish “playbooks” on the Army’s process to be available publically

Army owns 15 million acres of land, 1/3 could be used for buffering and renewable energy infrastructure

The Army needs an additional 2.1 million MWh of renewable energy and $7.1 Billion in private investment to meet the goal of 25% renewable energy by 2025.

Energy | Environment | National Security | Health | Critical Infrastructure

Air Force Energy Program Policy

• Aiming to reduce infrastructure energy use by installing solar panels and wind turbines – 14.2 MW solar array at Nellis AFB – 1.5 MW wind turbine at Massachusetts Military Reservation

• Three Part Strategy – Reduce Demand – reduce installation energy intensity by 3%

annually – Increase Supply – 25% renewable energy target by 2025,

currently around 6% – Change the Culture – identify/develop energy sources on

underutilized land

Energy | Environment | National Security | Health | Critical Infrastructure

Navy Energy Program

Partner with industry to develop needed technology Completed alternative energy projects

• MGAGCC Twenty-Nine Palms – 1.1 MW (solar) • Naval Base Coronado – >1.0 MW (solar) • MCLB Barstow – 1.5 MW (wind)

SECNAV Renewable Energy Goals for 2020 • 50% of shore based energy requirements from alternative sources • 50% of Department of Navy’s energy consumption from alternative

sources • 50% of facilities to be net zero

Energy | Environment | National Security | Health | Critical Infrastructure

Offshore Summary/Marketing

• Cables and Ocean Engineering • Underwater Unexploded Ordnance, Environmental

Analysis and Remediation • System Engineering and Integration (SE&I) • Logistics and O&M

Energy | Environment | National Security | Health | Critical Infrastructure

OCEANS ‘12 Conference

Energy | Environment | National Security | Health | Critical Infrastructure

OCEANS ‘12 Conference

• International forum for ocean engineering and marine technology professionals

– Marine Technology Society – Oceanic Engineering Society of IEEE

• Over 300 technical sessions • 1800 + Attendees (2010) • 150+ Exhibitors • October 14-19, 2012

– Virginia Beach Convention Center – 4-day technical program – 3-day exhibit program – Icebreaker reception (Monday) – Awards Luncheons (Tuesday/Wednesday) – Gala reception at Nauticus (Wednesday)

Energy | Environment | National Security | Health | Critical Infrastructure

OCEANS ‘12 Technical Program

• Topics of Local Interest HR 1 National Ocean Enterprise HR 2 Sea Level Rise/Coastal Inundation HR 3 Offshore Wind Energy HR 4 Marine Spatial Planning HR 5 Integrated Ocean Observing HR 6 Marine Vehicle Autonomy

• Core OCEANS Topics • 1.0 UNDERWATER ACOUSTICS AND

ACOUSTICAL OCEANOGRAPHY • 1.1 Sonar and transducers

1.2 Calibration of acoustic systems and metrology 1.3 Sound propagation and scattering 1.4 Acoustical oceanography 1.5 Geoacoustic inversion 1.6 Bioacoustics 1.7 Seismo-acoustics 1.8 Ocean noise 1.9 Signal coherence and fluctuation

• 2.0 SONAR SIGNAL / IMAGE PROCESSING AND COMMUNICATION

• 2.1 Sonar signal processing 2.2 Array signal processing and array design 2.3 Model-based signal processing techniques 2.4 Vector sensor processing 2.5 Synthetic aperture (active and passive) 2.6 Classification and pattern recognition (parametric and non-parametric) 2.7 Sonar imaging 2.8 Acoustic telemetry and communication 2.9 Biologically inspired processing

• 3.0 OCEAN OBSERVING PLATFORMS, SYSTEMS, AND INSTRUMENTATION

• 3.1 Automatic control 3.2 Current measurement technology 3.3 Oceanographic instrumentation and sensors 3.4 Systems and observatories 3.5 Buoy technology 3.6 Cables and connectors

3.7 Marine geodetic information systems • 4.0 REMOTE SENSING • 4.1 Air /sea interaction

4.2 Lidar 4.3 Passive observing sensors 4.4 Coastal radars 4.5 Ocean color and hyperspectral measurements 4.6 Airborne and satellite radar and SAR 4.7 Operational observation 4.8 Sensor synergy 4.9 Space systems

• 5.0 OCEAN DATA VISUALIZATION, MODELING, AND INFORMATION MANAGEMENT

• 5.1 Access, custody, and retrieval of data 5.2 Data visualization 5.3 Numerical modeling and simulation 5.4 Marine GIS and data fusion 5.5 Information management 5.6 Data assimilation

• 6.0 MARINE ENVIRONMENT, OCEANOGRAPHY, AND METEOROLOGY

• 6.1 Oceanography: physical, geological, chemical, biological 6.2 Marine geology and geophysics 6.3 Hydrography / seafloor mapping / geodesy 6.4 Hydrodynamics 6.5 Marine life and ecosystems 6.6 Meteorology 6.7 Pollution monitoring 6.8 Mineral resources 6.9 Marine mammals 6.10 Methane hydrates

• 7.0 OPTICS, IMAGING, VISION, AND E-M SYSTEMS

• 7.1 Imaging and vision 7.2 Beam propagation 7.3 Optical sensors and adaptive optics 7.4 Marine optics technology and instrumentation 7.5 Holography and 3D imaging

7.6 Optical communication 7.7 E-M sensing

• 8.0 MARINE LAW, POLICY, MANAGEMENT, AND EDUCATION

• 8.1 Coastal zone management 8.2 Ocean economic potential 8.3 Marine law and policy 8.4 International issues 8.5 Marine safety and security 8.6 Law of the Sea and UNCLOS 8.7 Ocean resources 8.8 Marine education and outreach 8.9 Marine archaeology

• 9.0 OFFSHORE STRUCTURES AND TECHNOLOGY

• 9.1 Ocean energy 9.2 Ropes and tension members 9.3 Offshore structures 9.4 Marine materials science 9.5 Marine salvage 9.6 Diving 9.7 Pollution clean-up and pollution remediation 9.8 Deepwater development technology 9.9 Seafloor engineering 9.10 Ocean exploration

• 10.0 OCEAN VEHICLES AND FLOATING STRUCTURES

• 10.1 Vehicle design 10.2 Vehicle navigation 10.3 Vehicle performance 10.4 Autonomous underwater vehicles 10.5 Manned underwater vehicles 10.6 Remotely operated vehicles 10.7 Dynamic positioning 10.8 Moorings, rigging, and anchors 10.9 Naval architecture

• 11.0 OTHER • 11.1 Other

Energy | Environment | National Security | Health | Critical Infrastructure

OCEANS ‘12 Contact Information

• Website: http://www.oceans12mtsieeehamptonroads.org/ • E-mail: info@oceans12mtsieeehamptonroads.org • General Chair: Ray Toll 858-729-3230 • Technical Chair: Mark Bushnell 757-647-0764

• Next Planning Meeting

– Wednesday, October 12 – Virginia Aquarium – 10:00 – (2:00) – 1-800-366-7242 Conference code: 6360132#