FEBRUARY 25, 2014 — More details have been released about the portable hydrogen fuel cell unit being trialed in the Port of Honolulu (see earlier story). The unit is currently in the design phase. Once completed, it will be deployed to the Port of Honolulu by Young Brothers, Ltd.
The project follows a study (Vessel Cold-Ironing Using a Barge Mounted PEM Fuel Cell: Project Scoping and Feasibility) published last year by Sandia National Laboratories confirmed the viability of hydrogen fuel cells to provide auxiliary shoreside power to docked or anchored ships.
Hydrogen researchers at Sandia National Laboratories have joined with several partners in the follow-up project, which will result in a fuel cell unit that can float on a barge, sit on a dock or be transported to wherever it's needed to provide electrical power.
"No one has ever built this kind of custom unit for this purpose," said Sandia's project manager, Joe Pratt. The unit, he said, will fit inside a 20-foot shipping container and will consist of four 30-kilowatt fuel cells, a hydrogen storage system and power conversion equipment.
The system will be delivered to and deployed by Young Brothers, Ltd., one of the project partners and a primary shipper of goods throughout the Hawaiian Islands. The unit is undergoing detailed engineering and design through mid-2014 and, after fabrication, assembly and training for Young Brothers operators, will be operational during a six-month deployment in early 2015. Young Brothers, the project's demonstration partner, is a subsidiary of Foss Maritime Company, a shipping firm that has strong environmental and financial interests in the project.
The Hawaii project is jointly sponsored by the U.S. Department of Energy's Office of Energy Efficiency and Renewable Energy (EERE) and by the U.S. Department of Transportation's Maritime Administration (MARAD).
After conducting a study of various ports in 2013, Sandia analyzed Young Brother's shipping operations in more detail. Like many operators, the company uses diesel engine generators to provide power to refrigerated containers.
"We compared the efficiencies of their diesel engines versus fuel cells, studied the energy efficiencies at various power levels and estimated the savings and reductions in emissions that would be realized if they were to convert to a fuel cell-powered operation," said Pratt. Analyses have shown that when generators are frequently producing less than maximum power, such as in the Hawaii application, the efficiency advantage of fuel cells compared to the combustion engine increases, he said.
Though the study had to make some assumptions (the purchase price of hydrogen, for instance), it determined that Young Brothers could save fuel and energy while greatly reducing emissions, if it switched primarily to fuel cells.
With promising study results and a shipping partner, Young Brothers, to serve as an early adopter and operate the fuel cell system for six months, EERE and MARAD decided to fund the demonstration. The project's other partners include Hydrogenics Corp., which will design and build the prototype unit and supply the fuel cells, and Hawaii Natural Energy Institute, which will provide assistance with hydrogen supply issues.
Other stakeholders include the U.S. Coast Guard and its local Sector Honolulu office and the American Bureau of Shipping. These organizations have regulatory authority over the design and operation of the prototype and see the project as a way to assist their development of formal regulations for hydrogen and fuel cells in the maritime environment. They, along with the Department of Energy's Hydrogen Safety Review Panel, will review the safety aspects of the design and operating plans.
In addition to its project management role, Sandia is providing technical expertise in hydrogen and fuel cells, particularly in the areas of codes and standards, system design, safety systems, data collection and analysis of both operations and the business case for deployment.
Following the six-month deployment of the fuel cell system, the project team will analyze the project's successes and challenges, including the operating and cost parameters needed to make a business case at other ports.
The long-range goal is to develop a commercial-ready technology that can be widely used at other ports. The project team sees a strong market need and desire for a fuel cell solution, not only at maritime ports but also for other applications, such as providing power to users that are not connected to an electric grid.