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Offshore Wind Study Offers Encouraging Prospects for U.S. Coastlines

Three years ago, the U.S. Department of Energy (DOE) funded an investigative research team to

conduct a national study on the feasibility for offshore wind integration into the U.S. grid. In

particular, the technical and economic viability was studied as one possible input for the DOE to

produce a roadmap to gigawatt levels of offshore wind energy, based on the DOE's "20 Percent

Wind Energy by 2030" report. This Offshore Wind initiative would help to assess the ability to

interconnect 54 GW of deployed offshore wind generating capacity by 2030.

The DOE-funded study, known as the "National Offshore Wind Energy Grid Interconnection

Study" (NOWEGIS) – was ABB-led and overseen by experts from ABB, AWS Truepower,

Duke Energy, the DOE's National Renewable Energy Laboratory (NREL), and the University of

Pittsburgh Swanson School of Engineering.

The team sought to determine the expected staging of offshore wind development in each of the

U.S. coastal regions, develop expected wind generation production profiles, assess the

applicability of integration study methods to offshore wind production, assess a variety of

offshore wind collection and delivery technologies, and consider various regulatory issues.

Three years later, the results are in, and the prospects are encouraging. The NOWEGIS team

determined eight key results and observations:

1. The U.S. has sufficient offshore wind energy resources to consider having at least 54 GW

of offshore wind. However, the resource assessment-which considered exclusion zones as a

result of military use, commercial shipping lanes, and environmental concerns-indicates that a

significantly larger amount of offshore wind could, in theory, be utilized.

2. The methods used for evaluating the integration of land-based wind energy are also

appropriate for studying offshore wind energy. The methods currently used for evaluating

system impacts of onshore wind power plants apply directly to studying offshore wind, and the

same types of data are required.

3. Appropriate technologies exist for interconnecting large amounts of wind energy to the

U.S. grid. Multiple technologies designed for both alternating current (AC) and direct current

(DC) exist that can be used to collect wind-generated electricity and deliver it to the onshore grid

efficiently and cost-effectively.

4. At a regional or national level, offshore wind energy may provide significant value.

NOWEGIS estimated that the 54 GW of offshore wind would provide a national reduction of

electricity production costs of $7.68 billion annually, resulting in an approximate value of

offshore wind at $41/MWh.

5. State policies that recognize the energy, environmental, and economic benefits of

offshore wind are critical to encouraging investment in offshore wind. State policies can

encourage offshore wind deployment by creating demand through renewable portfolio standards

(RPS) that establish policy mechanisms based on the needs of the state.

6. Reductions in the federal permitting and siting process are critical to achieving gigawatt-

scale offshore wind deployment in the next decade. Although great strides have been made to

reduce the permitting schedule from the 12 years it took for Cape Wind to between 2-4 years

today, further enhancements by the multitude of federal permitting and regulatory agencies are

needed.

7. Current organizational structures in the U.S. may make it more difficult to attain the

offshore wind value found in the study. This is because these value levels rely on a regional or

broader perspective. Areas such as the Southeast U.S. that do not have RTOs may find it difficult

to sufficiently socialize and justify the costs compared to the benefits. However, working from a

regional perspective may be more straightforward in areas that have an ISO or RTO (e.g., ISO-

New England or PJM), but even here each state and utility involved must be willing to consider

and share in the broader perspective, costs, and benefits.

8. Research and development promise to help reduce initial capital investment. One of the

major market barriers to offshore wind is the high capital costs compared to other forms of

energy production. However, research and development can help lower these costs.

It is my hope that the study findings will be of great interest to executives, decision makers and

policy makers throughout the power industry. We hope this study supports the national

conversation and provides valuable insight for decision makers on laying the groundwork for

offshore wind to become part of the U.S. energy portfolio.

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