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{{#Wiki_filter: | {{#Wiki_filter:Deepwater Offshore Wind in Maine: | ||
the Plan, the Timeline Dr. H. J. Dagher, P.E. | |||
Director, Advanced Structures and Composites Center University of Maine (207) 5812138 hd@umit.maine.edu June 18, 2009 1 | |||
Outline | |||
: 1. Why Deepwater Wind in the US? | |||
: 2. Why Deepwater Wind in Maine? | |||
: 3. How will Maine Use its Wind Resource? | |||
: 4. Europe | |||
: 5. Maine Deepwater R&D Plan Dr. H. J. Dagher (207) 5812138 2 hd@umit.maine.edu | |||
Deepwater Wind: | |||
Dominant US Ocean Energy Resource | |||
: 1. 61% of US offshore wind resource in deepwater. | |||
: 2. US deepwater wind ~ | |||
1,533 GW. | |||
: 3. Total US electrical generation capacity ~ | |||
1,100 GW. | |||
Source: Walter Musial, NREL (2008) | |||
Dr. H. J. Dagher (207) 5812138 3 hd@umit.maine.edu | |||
Why Pay Attention to Maines Deepwater Wind? | |||
: 1. 8.3% of US Deepwater Wind Resource is off Maine. | |||
: 2. R&D Capacity: | |||
UM Advanced Structures and Composites Center UM GIS Offshore Wind Database (25 faculty x 50 years) | |||
: 3. Governor Established Deepwater offshore Wind Testbed | |||
: 4. Unique Ocean Industry Assets: | |||
(a) Boatbuilding industry (BIW) | |||
(b) Deepwater floating exploration rigs (Cianbro) h Dr. H. J. Dagher (207) 5812138 4 hd@umit.maine.edu | |||
Maine: A Source of Green Energy for the Northeast U.S. | |||
55 million 40 Nuclear people Power Plants of | |||
* Maine is larger than Wind off Maine all other New England states | |||
* 18% of US population in Northeast Dr. H. J. Dagher (207) 5812138 5 hd@umit.maine.edu | |||
Maine Deepwater Wind: | |||
Part of the Regional RPS Solution 6 | |||
Dr.H.J.Dagher (207) | The Maine Plan: | ||
More than Turning the Lights on! | |||
3GW 5GW 5 GW of additional wind needed to electrify heating and transportation in Maine Dr. H. J. Dagher (207) 5812138 7 hd@umit.maine.edu | |||
89% of Maines Offshore Wind is in Deepwater; Class 6 & 7 Winds US US US Source: Walter Musial (NREL, 2008) 8 | |||
Maines Role in Meeting U.S. DOEs Plan: | |||
20% Wind Energy by 2030 5 GW in each 300 Offshore of top 10 53.9 offshore Cumulative Installed Capacity (GW) | |||
Land-based 250 GW states offshore 200 150 293.4 GW 100 on land 50 0 | |||
2000 2006 2012 2018 2024 2030 Dr. H. J. Dagher (207) 5812138 9 hd@umit.maine.edu | |||
US is Behind: | |||
Offshore Wind Projects Planned by 2015 Europe and North America 40,616MW Source: Walter Musial (NREL, 2008) | |||
Dr. H. J. Dagher (207) 5812138 10 hd@umit.maine.edu | |||
Floating Wind Turbine Testing Ongoing in Norway 11 | |||
Maine R&D Goal 1(20092010): | |||
Establish Deepwater Wind Testbed Objectives: | |||
- Evaluate deepwater platform designs in-situ, both scale models and full-size. | |||
- Verify models necessary for design. | |||
Partners: | |||
Testbed open to federal, academic and industrial partners. | |||
Approach: Establish heavily instrumented, highly characterized ocean environment, >60m Dr. H. J. Dagher (207) 5812138 12 hd@umit.maine.edu | |||
Maine R&D Goal 2 (20102014): | |||
Test Deepwater Wind Turbines Technical Challenges: | |||
- Predictive models. | |||
- Cost Target ($3.5/W). | |||
- Manufacturability. | |||
- Deployment. | |||
- Durability: corrosion/fatigue. | |||
- Survivability (extreme local events). | |||
- Foundations. | |||
- Optimization for Class 6 and 7 winds. | |||
Approach: | |||
- Start with scale model(s), Laboratory Testbed | |||
- Use macrocomposites (conventional+advanced materials). | |||
13 | |||
Maine R&D Goal 3 (20142018): | |||
First Floating Offshore Wind Farm Stepping-Stone Project: 20-30 MW | |||
* | |||
* | |||
- Design | |||
- Build | |||
- Monitor Dr. H. J. Dagher (207) 5812138 14 hd@umit.maine.edu | |||
Maine to Invest in Deepwater Offshore Wind Research | |||
: 1. Advanced Deepwater Wind Prototyping Center: | |||
* Expands UM Advanced Structure and Composites lab to 70,000 ft2 | |||
* Design, prototype and test under one roof | |||
* Robotics composites prototyping | |||
* Nanocomposites | |||
: 2. Deepwater Wind Testbed UM Testbed Dr. H. J. Dagher (207) 5812138 15 hd@umit.maine.edu | |||
Economic Opportunities for Maine 5GW = 250 MW/Year over 20 Years Based on Vestas V903MW turbine | |||
* $1 billion per year over 20 years | |||
* Local fab and install (30%) = $300M/year | |||
* Local offshore service (2.5% of CI) = $500M/year after built | |||
* With 25year life, project repowering sustains regional jobs Dr. H. J. Dagher (207) 5812138 16 hd@umit.maine.edu}} | |||
Latest revision as of 07:37, 13 November 2019
| ML102930376 | |
| Person / Time | |
|---|---|
| Site: | Seabrook  |
| Issue date: | 06/18/2009 |
| From: | Dagher H Univ of Maine |
| To: | NRC/SECY |
| SECY RAS | |
| Shared Package | |
| ML102930267, ML102930373 | List: |
| References | |
| License Renewal 6, RAS 18940, 50-443-LR | |
| Download: ML102930376 (16) | |
Text
Deepwater Offshore Wind in Maine:
the Plan, the Timeline Dr. H. J. Dagher, P.E.
Director, Advanced Structures and Composites Center University of Maine (207) 5812138 hd@umit.maine.edu June 18, 2009 1
Outline
- 1. Why Deepwater Wind in the US?
- 2. Why Deepwater Wind in Maine?
- 3. How will Maine Use its Wind Resource?
- 4. Europe
Deepwater Wind:
Dominant US Ocean Energy Resource
- 1. 61% of US offshore wind resource in deepwater.
- 2. US deepwater wind ~
1,533 GW.
- 3. Total US electrical generation capacity ~
1,100 GW.
Source: Walter Musial, NREL (2008)
Dr. H. J. Dagher (207) 5812138 3 hd@umit.maine.edu
Why Pay Attention to Maines Deepwater Wind?
- 1. 8.3% of US Deepwater Wind Resource is off Maine.
- 2. R&D Capacity:
UM Advanced Structures and Composites Center UM GIS Offshore Wind Database (25 faculty x 50 years)
- 3. Governor Established Deepwater offshore Wind Testbed
- 4. Unique Ocean Industry Assets:
(a) Boatbuilding industry (BIW)
(b) Deepwater floating exploration rigs (Cianbro) h Dr. H. J. Dagher (207) 5812138 4 hd@umit.maine.edu
Maine: A Source of Green Energy for the Northeast U.S.
55 million 40 Nuclear people Power Plants of
- 18% of US population in Northeast Dr. H. J. Dagher (207) 5812138 5 hd@umit.maine.edu
Maine Deepwater Wind:
Part of the Regional RPS Solution 6
The Maine Plan:
More than Turning the Lights on!
3GW 5GW 5 GW of additional wind needed to electrify heating and transportation in Maine Dr. H. J. Dagher (207) 5812138 7 hd@umit.maine.edu
89% of Maines Offshore Wind is in Deepwater; Class 6 & 7 Winds US US US Source: Walter Musial (NREL, 2008) 8
Maines Role in Meeting U.S. DOEs Plan:
20% Wind Energy by 2030 5 GW in each 300 Offshore of top 10 53.9 offshore Cumulative Installed Capacity (GW)
Land-based 250 GW states offshore 200 150 293.4 GW 100 on land 50 0
2000 2006 2012 2018 2024 2030 Dr. H. J. Dagher (207) 5812138 9 hd@umit.maine.edu
US is Behind:
Offshore Wind Projects Planned by 2015 Europe and North America 40,616MW Source: Walter Musial (NREL, 2008)
Dr. H. J. Dagher (207) 5812138 10 hd@umit.maine.edu
Floating Wind Turbine Testing Ongoing in Norway 11
Maine R&D Goal 1(20092010):
Establish Deepwater Wind Testbed Objectives:
- Evaluate deepwater platform designs in-situ, both scale models and full-size.
- Verify models necessary for design.
Partners:
Testbed open to federal, academic and industrial partners.
Approach: Establish heavily instrumented, highly characterized ocean environment, >60m Dr. H. J. Dagher (207) 5812138 12 hd@umit.maine.edu
Maine R&D Goal 2 (20102014):
Test Deepwater Wind Turbines Technical Challenges:
- Predictive models.
- Cost Target ($3.5/W).
- Manufacturability.
- Deployment.
- Durability: corrosion/fatigue.
- Survivability (extreme local events).
- Foundations.
- Optimization for Class 6 and 7 winds.
Approach:
- Start with scale model(s), Laboratory Testbed
- Use macrocomposites (conventional+advanced materials).
13
Maine R&D Goal 3 (20142018):
First Floating Offshore Wind Farm Stepping-Stone Project: 20-30 MW
- Design
- Build
- Monitor Dr. H. J. Dagher (207) 5812138 14 hd@umit.maine.edu
Maine to Invest in Deepwater Offshore Wind Research
- 1. Advanced Deepwater Wind Prototyping Center:
- Expands UM Advanced Structure and Composites lab to 70,000 ft2
- Design, prototype and test under one roof
- Robotics composites prototyping
- Nanocomposites
- 2. Deepwater Wind Testbed UM Testbed Dr. H. J. Dagher (207) 5812138 15 hd@umit.maine.edu
Economic Opportunities for Maine 5GW = 250 MW/Year over 20 Years Based on Vestas V903MW turbine
- $1 billion per year over 20 years
- Local fab and install (30%) = $300M/year
- Local offshore service (2.5% of CI) = $500M/year after built
- With 25year life, project repowering sustains regional jobs Dr. H. J. Dagher (207) 5812138 16 hd@umit.maine.edu