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| issue date = 10/20/2010
| issue date = 10/20/2010
| title = 2010/10/20-Exhibit 17 of 21-Maine Offshore Wind Plan, Setting the Course for Energy Independence
| title = 2010/10/20-Exhibit 17 of 21-Maine Offshore Wind Plan, Setting the Course for Energy Independence
| author name = Dagher H J
| author name = Dagher H
| author affiliation = Univ of Maine
| author affiliation = Univ of Maine
| addressee name =  
| addressee name =  
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=Text=
=Text=
{{#Wiki_filter:Setting the Course for Energy IndependenceProjected Job Creation if Supply Chain Is Maximized in Maine125 Jobs per year125 Jobs per year320 Jobs per year4,500 Jobs per year7,000-15,000 Jobs per year P HASE 1 2010-2012Design, build, deploy, and test 1/3 scale (100 ft to hub)  
{{#Wiki_filter:Maine Offshore Wind Plan Dr. Habib J. Dagher, P.E.
~oating wind turbine prototype in the Monhegan test site.Build oshore wind laboratory at UMaine.P HASE 2 2012-2014Design, build, deploy, and test  
Director, AEWC Advanced Structures and Composites Center hd@umit.maine.edu (207) 581-2138 One 1/3 scale            One                    25 MW                First 500-1,000 MW              Additional 500-1,000 MW turbine                  full-scale              stepping-            commercial farm                farms with a goal of 5,000 3-5 MW                  stone farm                                          MW by 2030 500 turbine 400 Height in Feet 300 200 100 2010      2011      2012        2013        2014      2015      2016    2017      2018    2019    2020    2021      2022      2023      2024      2025      2026    2027  2028    2029      2030 PHASE 1                   PHASE 2                PHASE 3              PHASE 4                        PHASE 5 2010-2012                2012-2014              2014-2016            2018-2020                      2020-2030 Design, build,            Design, build,          Design, build,       Expand 25 MW                    Build a network of commercial floating farms with a 4,000 MW capacity deploy, and test 1/3                             deploy, and test                                    10-50 miles offshore. Each farm will be 500-1,000 MW with a goal of four scale (100 ft to hub)     deploy, and test                             stepping-stone farm to a the first full-scale   the first 25 MW      500-1,000 MW (up to 200 x 5    to eight such farms. Total installed capacity: 5,000 MW by 2030. Each floating wind                                    stepping- stone turbine prototype in      (300 ft to hub)         floating wind       MW turbines) commercial        1,000 MW will be approximately 8 miles x 8 miles.
 
the Monhegan test        floating wind                                farm 10-50 miles offshore.      This will attract $20 billion of site.                                            farm in the world turbine                (five 5 MW                                           investment to Maine.
the rst full-scale (300 ft to hub)  
Build offshore wind      prototype (3-5          turbines) 10-50 laboratory at                                    miles offshore.
~oating wind turbine prototype (3-5 MW).P HASE 3 2014-2016Design, build, deploy, and test
UMaine.                  MW).
 
the rst 25 MW stepping- stone
~oating wind farm in the world (ve 5 MW turbines) 10-50 miles oshore.
Maine LD 1810 (April 2010) will enable project.
Maine LD 1810 (April 2010) will enable project.
P HASE 4 2018-2020 Expand 25 MW stepping-stone farm to a 500-1,000 MW (up to 200 x 5 MW turbines) commercial farm 10-50 miles oshore.
Projected Job Creation if Supply 125 Jobs per year          125 Jobs per year 320 Jobs per year        4,500 Jobs per year              7,000-15,000 Jobs per year                                    Chain Is Maximized in Maine Setting the Course for Energy Independence}}
P HASE 5 2020-2030Build a network of commercial ~oating farms with a 4,000 MW capacity 10-50 miles oshore. Each farm will be 500-1,000 MW with a goal of four to eight such farms. Total installed capacity: 5,000 MW by 2030. Each 1,000 MW will be approximately 8 miles x 8 miles.
This will attract $20 billion of investment to Maine.One 1/3  scale
 
turbineOne full-scale
 
3-5 MW turbine 25 MW stepping-stone farmFirst 500-1,000 MW commercial farmAdditional 500-1,000 MW
 
farms with a goal of 5,000 MW by 20302010 2011 2012 2013 2014 2015 2016 2017 2018 2019 2020 2021 2022 2023 2024 2025 2026 2027 2028 2029 2030Height in Feet 100 200 300 400 500Dr. Habib J. Dagher, P.E.Director, AEWC Advanced Structures and Composites Centerhd@umit.maine.edu (207) 581-2138Maine O~shore Wind Plan}}

Latest revision as of 07:37, 13 November 2019

2010/10/20-Exhibit 17 of 21-Maine Offshore Wind Plan, Setting the Course for Energy Independence
ML102930375
Person / Time
Site: Seabrook NextEra Energy icon.png
Issue date: 10/20/2010
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: ML102930375 (1)
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Text

Maine Offshore Wind Plan Dr. Habib J. Dagher, P.E.

Director, AEWC Advanced Structures and Composites Center hd@umit.maine.edu (207) 581-2138 One 1/3 scale One 25 MW First 500-1,000 MW Additional 500-1,000 MW turbine full-scale stepping- commercial farm farms with a goal of 5,000 3-5 MW stone farm MW by 2030 500 turbine 400 Height in Feet 300 200 100 2010 2011 2012 2013 2014 2015 2016 2017 2018 2019 2020 2021 2022 2023 2024 2025 2026 2027 2028 2029 2030 PHASE 1 PHASE 2 PHASE 3 PHASE 4 PHASE 5 2010-2012 2012-2014 2014-2016 2018-2020 2020-2030 Design, build, Design, build, Design, build, Expand 25 MW Build a network of commercial floating farms with a 4,000 MW capacity deploy, and test 1/3 deploy, and test 10-50 miles offshore. Each farm will be 500-1,000 MW with a goal of four scale (100 ft to hub) deploy, and test stepping-stone farm to a the first full-scale the first 25 MW 500-1,000 MW (up to 200 x 5 to eight such farms. Total installed capacity: 5,000 MW by 2030. Each floating wind stepping- stone turbine prototype in (300 ft to hub) floating wind MW turbines) commercial 1,000 MW will be approximately 8 miles x 8 miles.

the Monhegan test floating wind farm 10-50 miles offshore. This will attract $20 billion of site. farm in the world turbine (five 5 MW investment to Maine.

Build offshore wind prototype (3-5 turbines) 10-50 laboratory at miles offshore.

UMaine. MW).

Maine LD 1810 (April 2010) will enable project.

Projected Job Creation if Supply 125 Jobs per year 125 Jobs per year 320 Jobs per year 4,500 Jobs per year 7,000-15,000 Jobs per year Chain Is Maximized in Maine Setting the Course for Energy Independence

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