BAR, Chartwell vessels rubber stamped by ABS for U.S. operations

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Vessels servicing the expanding East Coast offshore wind development areas will increasingly need to travel farther for longer, while navigating deeper waters and greater wave heights. The design and construction of the innovative new BAR 30-meter crew transfer vessel (CTV) is another step in that development.

World-leading naval architects, BAR Technologies, and Chartwell Marine, a pioneer in next-generation vessel design, have been awarded Approval in Principle (AiP) from the American Bureau of Shipping (ABS) for the design and construction of the innovative new BAR 30-meter crew transfer vessel (CTV).

This AiP is a further stepping-stone toward an advanced, class-certified, Jones Act compliant fleet of offshore wind support vessels for the U.S. market. Following on from the AiP awarded to the Chartwell 24 vessel design earlier this year, it expands the range of complementary options available to the industry for highly efficient and capable vessel support.

Vessels servicing the expanding East Coast offshore wind development areas will increasingly need to travel farther for longer, while navigating deeper waters and greater wave heights. This must be achieved without compromising on efficiency or environmental standards, in accordance with U.S. Coast Guard guidelines surrounding emissions and Right Whale compliance.

In response to this challenge, BAR, with the support of Chartwell, has developed a 30m CTV, making use of FOSS technology (foil optimized stability system) to enhance seakeeping and maneuverability, while reducing vertical acceleration by up to 70 percent in 2.5-meter wave heights. While offering greater levels of availability in rough seas, the BAR 30-meter CTV also demonstrates up to 50 percent fuel efficiency savings at 15 knots, keeping emissions at bay in line with stringent EPA Tier 4 guidelines.

This initial vessel will be closely followed by a 50-meter variant capable of 45 knots top speed and 30 knots in a 3-meter high sea without exceeding vertical acceleration limits. The 40-passenger boat with a similar hull form and FOSS technology is focused on the replacement of helicopter transfer for workers in the Gulf of Mexico.

This new design will work in partnership with the proven vessels in the Chartwell 24 range, including the Right Whale variant. Alterations to the hull form of the latter have been made to adhere to the legislation in place that protects the migration route of the Right Whale on the East Coast, along with optimized propulsion configurations to meet EPA Tier 4 emissions standards.

Securing AiP offers the highest level of assurance that these innovative vessel designs will be built in-line with specific U.S. requirements. As part of the AiP process, the vessel designs have met stringent criteria from the ABS Rules for Building and Classing High Speed Craft 2020. This provides validation that they are well-placed to meet the demands and regulatory requirements of U.S. operations.

“This ‘rubber stamp’ from ABS paves the way for these next generation vessels to fully integrate into East Coast operations,” said Andy Page, naval architect and managing director at Chartwell Marine. “The design of these boats has capitalized on operational experience in the global market, refining the formula for offshore wind support through ongoing research and discussion with stakeholders. With the first Chartwell 24 working in the U.K. and the first U.S. Chartwell 24 in build, we are excited to work with BAR to bring a further, highly versatile option to the U.S. market.”

“Approval in Principle for the BAR 30-meter CTV is an important development that broadens the opportunities for cross-market collaboration,” said John Cooper, CEO of BAR Technologies. “As we work toward the decarbonization of the workboat sector, this latest innovation represents new gains in efficiency, which have been achieved by placing the operational profile at the forefront of vessel design. In this way, we have been able to design a CTV that combines optimal performance in challenging conditions with a significantly reduced environmental impact.”

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