Massachusetts Lobstermen s Association 3/14/2018 March 2018 1
Where are we in the process? Public input opportunities (purple) December 2017 Federal Permitting Draft COP submitted Ongoing updates to COP until deemed sufficient Available for review before finalizing State Permitting ENF (MEPA) & EFSB Applications January/February 2018 MEPA hearing and scoping for Environmental Impact Report (DEIR). MEPA Certificate released April 2018 EIS Scoping Hearings EFSB Hearing DEIR Submitted May - August August/September DEIS Released by BOEM DEIR Review and FEIR production EFSB ongoing review March 2018 2
Vineyard Wind: Local stakeholder and community focused since 2009 First offshore wind developer to enter into a community partnership: Vineyard Power Coop Non-profit serving 10% of Martha s Vineyard s customers Letters of Support from all towns of Martha s Vineyard and Nantucket, and Mashpee Wampanoag First US offshore wind developer to engage a fisheries representative Local staff with extensive U.S. offshore wind experience Based in New Bedford Offices in Vineyard Haven and Boston March 2018 3
Turbine Site Identified by Multi-Year Stakeholder Process BOEM Federal Process 2010 BOEM Task Force Local government representatives Multiple stakeholder meetings Habitat and fisheries working groups 2011: Request for Interest 2012: Environmental Assessment & Call for Information 2014: Lease Sale Notices 2015: Auction and Lease issuance 2015 Present: Task Force & Working Groups on-going guidance and consultation Massachusetts Policy Energy Diversity Act of 2016 Utilities procure total of 1600MW of offshore wind March 2018 4
Project Context and Background Vineyard Wind Lease area OCS-A 0501 ~261 square miles Northern tip of Lease Area is ~35 miles offshore from Cape Cod, and ~14 miles south of Martha s Vineyard and Nantucket Study and analysis began as soon as lease acquired in 2015 Building on earlier consultations by project and Vineyard Power Offshore geological surveys in 2016 and 2017 Additional surveys planned for spring and summer 2018 March 2018 5
Outreach Alliance to Protect Nantucket Sound Martha s Vineyard Fishermen Preservation Trust; New England Fishery Management Council Association to Preserve Cape Cod; Massachusetts Audubon Society; Northeast Fisheries Sciences Center; Cape and Islands Self-Reliance; Massachusetts Clean Energy Center; Northeast Fishery Management Council; Cape and Vineyard Electrical Cooperative; Cape Cod Fishermen s Alliance; Cape Light Compact; Climate Action Business Association; Coalition for Social Justice; Conservation Law Foundation; Coonamessett Farm Foundation; Eastern Fisheries; Environment Massachusetts; Environmental Business Council of New England; Environmental League of Massachusetts; Hercules SLR; Long Island Commercial Fishing Association; Massachusetts Fisheries Institute; Massachusetts Fisheries Working Group; Massachusetts Fishermen s Partnership and Support Services; Massachusetts Habitat Working Group; Massachusetts Lobstermen s Association; Nantucket Rotary Club; National Academies of Sciences, Offshore Renewable Energy Development and Fisheries Conference; National Wildlife Federation; Natural Resources Defense Council; New Bedford Harbor Development Commission; New England Aquarium; New England Energy and Commerce Association; Northeast Fishery Sector Managers X, XI, XIII, VII, VIII; Port of New Bedford; Recreational Fishing Alliance; Rhode Island Fishermen s Advisory Board; Rhode Island Habitat Advisory Board; Scallop Industry Advisors Meeting; Sierra Club; Stoveboat - Saving Seafood; The Nature Conservancy; Town Dock; University of Massachusetts (various campuses); and Woods Hole Oceanographic Institute. March 2018 6
Nearest suitable existing substations are in Barnstable Minimizes amount of cable installed No changes to existing transmission system will be required Connection location enhances grid reliability by providing power at edge of grid system ~ 37 miles Federal waters March 2018 7
Construction and Operations Plan Project Envelope Layout and Project Size Foundation WTGs ~800MW project Up to 106 WTG positions Continuous construction from 2021 to 2024 or 2 ~400MW stages with up to 5 years in-between construction periods 800MW of monopiles or 400MW of piles and up to 400MW of jackets Pile driving hammer Scour protection on all positions Installation with a jack-up vessel or vessel on dynamic positioning (DP) with feeder barges 8 10MW WTG Rotor size of 164-180 m (538-591 ft) Hub height of 109-121 m (358-397 ft) Installation with a jack-up vessel or vessel on dynamic positioning (DP) with feeder barges Inter-array cables Export Cables Electrical Service Platform (ESP) 66kV cables Example layout identified, not finalized Maximum total cable lengths indicated Installation techniques include jet plow, mechanical plow & mechanical trenching. Installation with a vessel on dynamic positioning (DP) Pre-lay grapnel run Up to three 220kV export cables Two corridors identified with variants Max total cable lengths indicated Installation techniques include jet plow, mechanical plow & mechanical trenching. Dredging in some locations to achieve burial depth Installation with a vessel on dynamic positioning (DP) and some use of an anchored vessel Use of mattresses or rock protection on areas of minimal cable burial Pre-lay grapnel run Four light-weight ESPs or two conventional ESPs Each ESP installed on one monopile or a single jacket foundation Scour protection on all positions Installation using foundation and turbine installation vessels or specialized crane vessel
G:\Projects2\MA\MA\4903\MXD\COP\Wind_Development_Area_20171204.mxd 70 50'0"W 70 40'0"W 70 30'0"W 70 20'0"W 10 70 10'0"W 41 20'0"N 41 20'0"N 30 4570000 10 4570000 4580000 4580000 20 Project Layout 4530000 4540000 4550000 4560000 41 10'0"N 41 0'0"N 40 Vineyard Wind Lease Area (OCS-A 0501) ")") ")").756 nm.918 nm 1 nm 50.918 nm 1 nm 1 nm 30 41 10'0"N 20 20 41 0'0"N 20 4530000 4540000 4550000 4560000 4520000 40 50'0"N LEGEND Vineyard Wind Lease Area by OCS Block Number Wind Development Area for COP Review Bathymetric Contours 10m Interval WTG 40 50'0"N Basemap: NOAA 12300-05-2008 4520000 ") Electrical Service Platforms 4510000 Service 70 50'0"W Layer Credits: 70 40'0"W 60 70 30'0"W *Please note, WTG and Offshore Substation yellow and green markers have been enlarged in this figure for visibility Scale 1:360,000 1 inch = 9 kilometers 0 2.5 5 Kilometers 0 2 4 Nautical Miles Map Coordinate System: 70 20'0"W NAD 1983 UTM Zone 19N 70 10'0"W 4510000
Foundations Monopiles Jackets March 2018 10
Scour Protection Scour Stone placed around foundation Sized between 4-12 inches 3-6 feet high Scour protection radius 22-26m (72-85ft) Protects the foundation from the removal of sediments near the base. Dimensions 138ft - 170ft diameter March 2018 11
Proposed Offshore Cable Corridors 2 possible corridors: Western & Eastern (only 1 will be used) Multiple options through Muskeget Channel August/September 2017 surveys, more in 2018 Routing Considerations include water depth, bathymetry, SSU areas, etc. Federal and state waters (Land Under the Ocean) Avoidance of mapped eelgrass habitat and core habitat for whales Minimization of impacts to hard/complex bottom areas Installation via jet-plow, plow, or mechanical trenching Target burial depth = 5 to 8 feet (1.5 to 2.5 m) 6-foot-wide swath affected by trenching Where sand waves are present, dredging will be used to achieve target burial depth Extensive outreach with local and regional fishermen and their representatives March 2018 12
Site Data Extensive data is available on the site that has been collected by Vineyard Wind and others
Benthic Data Sampling and video available from: SMAST Coonamesset Farm Foundation NEFSC Vineyard Wind Cape Wind Side Scan Sonar & Bathymetry data throughout WDA and cable routes From COP: Impact area:.4% of Wind Development Area Data used to describe benthic resources (grab and image) in the Offshore Project Area came from a robust dataset and previous studies conducted within or near the Project Area between 2012-2017 Data allowed for the characterization of abundance, diversity, community composition, and percent cover of benthic macrofauna and macroflora, both within the Project Area and surrounding area. Seafloor conditions within the WDA are very homogenous, dominated by fine sand and silt-sized sediments that become finer in deeper water. Overall, the simulations show that sediment is not transported far from the route and resettles rapidly due to the high proportion of coarse sand throughout the route. Mitigation: Siting of cables with sensitive habitat avoided as much as possible Utilize widely-spaced WTGs, so that the foundations (and associated scour protection) for the WTGs, along with the ESPs, inter-link cables, and inter-array cables, only occupy a minimal portion of the WDA, leaving a huge portion of the WDA undisturbed Conduct post-construction monitoring to document habitat disturbance and recovery. Where feasible and considered safe, use mid-line buoys on anchor lines to minimize impacts from anchor line sweep.
Fisheries (biologic) Data Data resources: Northeast Fisheries Science Center multispecies bottom trawl surveys Massachusetts Department of Marine Fisheries Trawl surveys School of Marine Science and Techology (SMAST) Survey of the WDA Southern New England Industry- Based Yellowtail Flounder Survey Northeast Area Monitoring and Assessment Program From COP: Total biomass of fish is low across the Project Area, while species richness is relatively high. High species richness has been linked to increased ecosystem resilience or the ability of an ecosystem to recover from disturbance Many of the fish species found off the Massachusetts coast are important due to their value as commercial and/or recreational fisheries. Wind Development Area: Sediment dispersion modeling indicates that deposition of 0.2 mm or greater is centered around the cable trench and no deposition over five millimeters occurs. Cable Routes: The simulations show that sediment is not transported far from the route and resettles rapidly due to the high proportion of coarse sand throughout the route. The low total fish biomass and high species richness in the Project Area makes this location ideal for wind energy as it reduces impacts to individual organisms and targets an area which will likely be able to recover following any potential Project-related disturbances. Mitigation: To mitigate the potential impacts of injury to fish from pile driving, the Project will apply a soft-start procedure to the pile driving process, which delivers initial pile drives at a lower intensity, allowing fish to move out of the activity area before the full-power pile driving begins. Impacts to benthic organisms may be minimized through the use of mid-line buoys, if feasible and safe, and installation equipment that minimizes installation impacts, such as a jet plow. In nearshore areas where sensitive resources are located, horizontal directional drilling may be used to minimize impacts. Vineyard Wind is developing a framework for a pre- and post-construction fisheries monitoring program to measure the Project s effect on fisheries resources. Vineyard Wind is working with the Massachusetts School for Marine Science and Technology (SMAST) and local stakeholders to inform that effort and design the study.
Fisheries (socio) Data Data resources: Northeast Fisheries Science Center multispecies bottom trawl surveys Massachusetts Department of Marine Fisheries Trawl surveys VMS Trip & Dealer Reports (2011 16) Vessel Trip Reports (2011-16) NE Fisheries Observer Program Database RI-SAMP MA Ocean Management Plan From COP: Commercial fishing revenue generated from within the MA WEA constitutes small percentages of each fishery s total revenue Silver Hake was the most abundant landing of the small mesh species sourced from the MA WEA based on percentage of revenue. The annual average revenue of over $212 million for Lobster harvested between 2007 and 2012, approximately $300,000 per year was harvested from the MA WEA. Squid vessels are active throughout the WDA and along portions of the offshore export cable corridor through Nantucket Sound. Vessels targeting Monkfish are trawling portions of the WDA, though vessel density increases to the north of the WDA, in the areas on either side of Muskeget Channel. Mitigation: Siting of cables with sensitive habitat avoided as much as possible Burial of cables to address EMF concerns Conduct post-construction monitoring to document habitat disturbance and recovery. Grid pattern and transit corridors in wind turbine layout Utilizing suspended sediment minimizing installation techniques for cable installation
Existing Submarine Cables 2 Nantucket power cables each ~28 miles long 3 power cables to Martha s Vineyard Cable to Block Island from RI ~20 miles 2 cables between New Haven and Long Island Crosses Long Island Sound ~25 mi, ~15 years ago Sayreville NJ to Long Island 50 miles of submarine cable 15 mile underground on Long Island Many communications cables Decades old in many cases March 2018 17
350000 360000 G:\Projects2\MA\MA\4903\MXD\COP\Wind_Development_Area_20171204.mxd 370000 380000 390000 400000 410000 70 50'0"W 70 40'0"W 70 30'0"W 70 20'0"W 10 70 10'0"W Active Consultation and Response 4580000 41 20'0"N 41 20'0"N 4580000 Layout Grid pattern, transit corridors in consultation with fishermen 4570000 30 20 10 4570000 Up to 1nm apart Active and live fisheries communication plan reviewed by regulators, fishermen and fishing organizations Fishery Liaison and Fishery Representatives Electronic chart thumb drives Feedback under review Loose turbine locations along 20 fathom contour line Consider larger rock size for scour protection (rip rap) Potential lobster habitat N/S & E/W corridor 4560000 4550000 4540000 4530000 4520000 4510000 41 10'0"N 41 0'0"N 40 50'0"N 40 Vineyard Wind Lease Area (OCS-A 0501) ")") ")").756 nm.918 nm March 2018 Map Coordinate System: NAD 1983 UTM Zone 19N 18 Service 70 50'0"W Layer Credits: 70 40'0"W 60 1 nm 50 70 30'0"W.918 nm 1 nm 1 nm LEGEND 30 Vineyard Wind Lease Area by OCS Block Number Wind Development Area for COP Review Bathymetric Contours 10m Interval WTG ") Electrical Service Platforms Scale 1:360,000 1 inch = 9 kilometers 70 20'0"W 0 2.5 5 Kilometers 0 2 4 Nautical Miles 70 10'0"W 41 10'0"N 20 20 41 0'0"N 40 50'0"N Basemap: NOAA 12300-05-2008 *Please note, WTG and Offshore Substation yellow and green markers have been enlarged in this figure for visibility 20 4560000 4550000 4540000 4530000 4520000 4510000 350000 360000 370000 380000 390000 400000 410000
Further Engagement with Fishing Community Agreement with SMAST for pre- and post-construction fishery studies SMAST will consult with fishing industry, regulators and academia - on what should be studied Data will be publically available Fishing Partnership & Support Services Partnership Vineyard Wind sponsorship of safety and survival trainings for fishermen Martha s Vineyard & New Bedford Fishery Liaison (FL) and Fishery Representatives (FR) Actively seeking permanent FL Looking to expand FR network Booth at the Massachusetts Lobstermen s Association trade show. 19
Contact Details Erik Peckar - erik@vineyardpower.com 508-693-3002 For the latest project information please visit www.vineyardwind.com March 2018 20