Thursday, May 23, 2024

 

First Hydrogen-Fueled Vessel Receives USCG Approval to Enter Service

hydrogen powered ferry
Sea Change will begin a demonstration service in San Francisco after receiving its USCG certificates (SWITCH)

PUBLISHED MAY 21, 2024 12:36 PM BY THE MARITIME EXECUTIVE

 

 

After nearly five years of development and several delays, the first hydrogen-powered commercial vessel in the United States has received U.S. Coast Guard approval to enter service. Developed by a startup called SWITCH Maritime, the vessel a 75-passenger catamaran ferry Sea Change was presented last Friday with its Certificate of Inspection by Captain Taylor Lam, USCG Sector San Francisco commander and Captain of the Port for Northern California.

With the COI, the vessel is now able to commence commercial operation for zero-emission public ferry service. Following a formal launch event in June, the Sea Change will be operated in a six-month pilot service by the San Francisco Bay Area Water Emergency Transportation Authority (WETA). After the initial demonstration period, SWITCH will put the vessel into a more permanent ferry route.

“This COI represents the culmination of years of close collaboration with the US Coast Guard and a significant milestone for the maritime industry, demonstrating the viability of carbon-neutral vessels,” said Pace Ralli, CEO of SWITCH. “We are immensely grateful for the support from the US Coast Guard and all our partners along the path to completion. This is not the finish line, but just a starting point from which to build many more.”

Ralli highlights the rapid evolution of the technology. He said they are already able to provide similar operational capabilities and ranges to diesel-powered vessels. The hydrogen system also eliminates the need for shoreside charging infrastructure required by battery-only vessels.

 

Sea Change is the first hydrogen-powered vessel in the U.S. (SWITCH)

 

The Sea Change uses hydrogen fuel cells to power all-electric motors for transit distances up to 300 nautical miles and speeds up to 15 knots. Built and launched at All American Marine shipyard in Bellingham, Washington, in August 2021, the Sea Change is a 70-foot catamaran ferry designed by Incat Crowther. There have been significant hurdles and developing the technology and gaining approval. The vessel reached the San Francisco Bay Area just over a year ago with SWITCH working to train the crew and complete USCG certification.

The vessel features an integrated hydrogen power system from Zero Emission Industries, with 360kW of fuel cells from Cummins and 600kW of electric motor propulsion from BAE Systems. Its tanks from Hexagon Purus have a capacity for 242kg of hydrogen stored in a gaseous form on the top deck at a pressure of 250 bar.  

There are so far only a handful of hydrogen-powered vessels in the world although supports highlight the potential for the industry. Founded in 2018, SWITCH Maritime develops, finances, builds and leases zero-emission maritime vessels to existing operators in the U.S. and internationally. SWITCH has reported it is actively working on additional expansion designs for 150-, 300- and 450-passenger zero-emission ferries.

KR Guide to Select Thermal Properties for Cryogenic Insulation Materials

Korean Register
Cover of the report

PUBLISHED MAY 22, 2024 4:39 PM BY THE MARITIME EXECUTIVE

 

[By: Korean Register]

KR has published the Guide to Selection of Thermal Properties of Cryogenic Insulation Materials for safe storage of cryogenic fuels, including LNG and liquid hydrogen.

Last year, the International Maritime Organization (IMO) adopted the '2023 Greenhouse Gas Strategy' with the goal of achieving carbon neutrality in international shipping by 2050. The strategy aims to reduce greenhouse gas emissions by at least 20%, striving for 30%, by 2030, at least 70%, striving for 80%, by 2040, and to achieve net-zero emissions by around 2050.

In response to these increasingly stringent environmental regulations, the maritime industry is focusing not only on the widely used liquefied natural gas (LNG) but also on the long-term use of alternative fuels such as hydrogen and ammonia. In particular, there is a rising emphasis on insulation system technology to ensure the safe and efficient storage of cryogenic low- and zero- carbon fuels.

Representative cryogenic fuels include LNG and liquid hydrogen. Hydrogen is a liquid below its boiling point of -253°C, which is about 90°C lower than the boiling point of LNG at -162°C, requiring advanced insulation technology. Since liquefied hydrogen reduces its volume by about 800 times compared to its gaseous state, securing stable storage technology on ships would enable the affordable import and utilization of hydrogen through marine transport, while also facilitating the implementation of Republic of Korea's Hydrogen Economy Roadmap (2019).

To develop insulation system technology that is essential for the use of cryogenic low- and zero- carbon fuels, KR partnered with researchers from the Korea Institute of Machinery & Materials (KIMM), Pusan National University (PNU), and the Seoul National University of Science and Technology (SEOULTECH) to publish the report.

The report describes the insulation system used in ships for -162°C LNG and -253°C liquefied hydrogen, and analyzes environmental factors influencing the heat transfer mechanisms of the system and other design elements.

KIM Daeheon, Executive Vice President of KR's R&D Division, stated, "This technical guide is expected to serve as the standard for material selection during the design of insulation systems in cryogenic environments or the development of innovative insulation systems. KR will continue to provide alternative fuel technology services, driving decarbonization of the maritime sector and aligning with evolving maritime technology through various R&D activities.”

The document can be downloaded on the KR Decarbonization Portal (decarbonization.krs.co.kr/eng/).

The products and services herein described in this press release are not endorsed by The Maritime Executive.

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