Changing shipping routes: Altering shipping routes for offshore wind development could save billions
Rerouting ships to open up areas for offshore wind development could save billions of dollars in construction and operating costs for the renewable energy source, according to new findings by the University of Delaware’s College of Earth, Ocean, and Environment (CEOE).
The savings come at a relatively small expense for sending commercial ships slightly farther out to sea when traveling between Mid-Atlantic ports, the research shows. The analysis was part of an economic study on societal costs and benefits of allocating ocean space off the coast for wind energy development.
Offshore wind projects are being considered in the United States with aims of improving air quality, increasing energy security and supporting domestic manufacturing. Numerous factors play into decisions on where to place wind turbines, from wildlife migrations and fishing hotspots to boat traffic, ocean depth and seafloor geology.
“It’s a big ocean, but there are a lot of users that need to work with each other to maximize benefits to society,” said study co-author Jeremy Firestone, CEOE professor of marine policy and director of the Center for Carbon-free Power Integration.
Coastal and marine spatial planning is one common method used for mapping out and weighing the various options. Economic factors are typically left out of the mix, however, so UD researchers decided to examine the question of which would cost more to place farther off the coast: commercial shipping traffic or wind farms.
The team considered several hypothetical, large-scale offshore wind projects that could be built in the Mid-Atlantic region. Based on current shipping data, researchers considered deep-draft vessels — like tankers and container ships — that make approximately 1,500 trips between New Jersey, New York, Delaware Bay and Chesapeake Bay ports each year.
In one scenario, ships traveled at their present distance of about 33 miles from shore and wind projects were built beyond that. In a second scenario, ships traveled 46 miles from shore and wind projects were built where the ships used to go.
Researchers calculated the added cost of having ships travel farther by considering capital, fuel and operating costs and cost to society of emissions of CO2, NOx, SOx, and particulate matter emitted during ships’ voyages. The cost of offshore wind projects included capital costs of foundations, transmission cables and installation, as well as the cost of maintaining the turbines.
Directing ships farther out from shore added $0.2 billion to the cost of their voyages over the course of three decades. This would increase the direct cost of transporting a metric ton of goods by 25 cents. Building wind turbines farther out beyond the shipping routes added a cost of $13.4 billion to the cost of projects.
Overall, the savings from changing the routes would add up to $13.2 billion.
“If the U.S. is to advance toward meeting its goal to build 54 GW (gigawatts) of offshore wind capacity by 2030, finding cost-effective locations for these wind projects is critical,” the researchers wrote in the study. “By modifying vessel routes, shallow, nearshore sites in the U.S. Mid-Atlantic could be opened for wind development, allowing consumers to have the benefit of clean, domestic, carbon-free wind energy at a cheaper price.”
The study focused on the economic costs and benefits, but other factors — such as safety measures to avoid ship collisions — would still need to be considered.
It is also important to note that because the study analyzed a hypothetical scenario, any actual changes to vessel routes would be done after an extensive consultation with stakeholders.
“We expect that if safety aspects to such a rerouting can be addressed, the shipping industry will come to support this accommodation as it has with, for example, North Atlantic right whales,” the authors said.
The study, titled “Changing vessel routes could significantly reduce the cost of future offshore wind projects,” appears in the Aug. 1 issue of the Journal of Environmental Management and is available online.
Kateryna Samoteskul, lead author of the study who recently completed her master’s degree at UD, was awarded the Best Student Poster at the American Wind Energy Conference in Rhode Island for the work.
The research was supported in part by the Magers Family Fund and Delaware Sea Grant College Program.
About UD’s College of Earth, Ocean, and Environment
UD’s College of Earth, Ocean, and Environment (CEOE) strives to reach a deeper understanding of the planet and improve stewardship of environmental resources. CEOE faculty and students examine complex information from multiple disciplines with the knowledge that science and society are firmly linked and solutions to environmental challenges can be synonymous with positive economic impact. The college brings the latest advances in technology to bear on both teaching and conducting ocean, earth and atmospheric research. Current focus areas are ecosystem health and society, environmental observing and forecasting, and renewable energy and sustainability.
About Delaware Sea Grant
The University of Delaware was designated as the nation’s ninth Sea Grant College in 1976 to promote the wise use, conservation and management of marine and coastal resources through high-quality research, education and outreach activities that serve the public and the environment. UD’s College of Earth, Ocean, and Environment administers the program, which conducts research in priority areas ranging from aquaculture to coastal hazards.
Article by Teresa Messmore
Photo by Kathy F. Atkinson
Image courtesy of Kateryna Samoteskul
Published May 19, 2014
Page Updated on March 3, 2015