When people think of the marine industry, they typically envision pleasure yachts. While recreational boats dominate the market, there’s a less heralded segment that’s worthy of attention – workboats.The global industrial workboats market reached $2.5 billion in 2022 and is forecast to exceed $4.6 billion by 2032, according to an analysis by market research firm Fact.MR. The report attributes several factors to anticipated growth, including:The push to minimize the carbon footprint of shipping fleets, aided by developments in hybrid technology and electric vessels.Increased demand for floating offshore wind energy, which will require workboats to complete construction projects.The drive to design workboats that are versatile and efficient, employing advanced technology and materials.Companies involved in the market are motivated by the potential, while recognizing the unique needs of working boats.“When a boat has to go to work, it needs to be functional and last a long time. It needs to make a business case,” says Eric Jambor, lead project engineer at Janicki Industries, an engineering and manufacturing firm in Sedro-Woolley, Wash. “For a long time, the marine industry played it safe, but we’re now starting to push the envelope of what can be done for the cost invested. That’s very exciting.”There are many kinds of boats laboring on the water, several of which are noted in the sidebar on page 11. In this article, we share stories about two of them – electric ferries and autonomous vessels. Both highlighted applications rely on composite materials to promote environmentally friendly vehicles powered by electricity, solar panels or wind energy. Electric Shuttles to Replace Diesel FerriesCandela, a manufacturer of hydrofoil electric boats based in Sweden, is trialing an innovative ferry from the Stockholm suburb Ekerö to the city center that cuts travel times from 55 minutes to 25 minutes. The 30-passenger Candela P-12 Shuttle can travel up to 60 nautical miles at 25 knots on one charge thanks, in part, to three computer-guided CFRP hydrofoils that extend from under the hull, lifting the boat out of the water and decreasing drag.Candela developed the P-12 Shuttle as an alternative to conventional, large diesel ferries.“The average passenger load factor in Stockholm is 17%, meaning that a 350-passenger vessel carries on average 50 persons,” says Mikael Mahlberg, head of public relations and communications at Candela. “Our proposition is to replace these few and inefficient polluting shuttle ferries with a greater number of P-12s, which would lead to more frequent departures and faster travel times while cutting operational costs.”Mahlberg refers to the shuttles as “a bus line system on the water.” The first P-12 Shuttle was slated to begin service in the fall, followed by six months of trials and full insertion into the public transport system in the spring of 2024.All the structural components on the 12-meter-long shuttle, from the hydrofoils to the hull, are made from CFRP. The components, which are vacuum infused, feature multiaxial carbon fiber fabric ranging from 400 to 800 grams per square meter and epoxy resin.Candela’s commitment to electrification of waterborne transport required it to overcome technical challenges.“Conventional vessels use so much energy going through the water,” he says. “For electrification to happen without substantial subsidies and across many routes, you need to make vessels that have great performance, long range, better economy of features and new features to give advantages over current diesel vessels.”Candela’s hydrofoil technology is the key ingredient to economical electrification of the shuttles. Mahlberg says the hydrofoils cut energy use by 80% and are compatible with current battery technology. In addition, the shuttle relies on a smaller battery than other electric passenger ships of the same size – approximately 260 kilowatt hours (kWh) – which Mahlberg says makes it much less expensive to purchase and 60% to 70% cheaper to operate than diesel ferries.“Since it is so efficient, it doesn’t require large investments in charging infrastructure,” he says. “An automobile-style DC charger at the route’s end station is enough.”Prior to developing the P-12 Shuttle, Candela made a series of leisure boats, which provided invaluable experience in the engineering and production of CFRP vessels. But the scale and constant need for shedding weight presented obstacles in making shuttles for public transportation.“In our niche – coastal vessels – serial production is mostly unheard of. An operator might order one to three units with the same design, but the next operator comes along and orders another design specific to their needs,” says Mahlberg. “We’ve tried to make a boat that works for many cases and dock heights. By making a standardized model, we can drive down costs.”Candela hopes its P-12 Shuttle will bring back waterborne mobility to urban areas and compete favorably with cars and buses.“We’re offering a solution for replacing gas-guzzlers with a sustainable vessel that is faster and much more comfortable for passengers, while offering cost savings over conventional vehicles,” says Mahlberg. Marine Drones for Data CollectionWhen Hurricane Idalia traveled up the Gulf Coast of Florida sustaining 125 mph winds, it unmoored and destroyed small boats. But it wasn’t a match for a couple of uncrewed surface vehicles (USV) in its path. Saildrone’s USVs, made primarily from composite materials and stainless steel, gathered data for the National Oceanic and Atmospheric Administration (NOAA) to help it better predict storms.NOAA is just one of Saildrone’s customers, which include a wide range of government agencies, universities, foundations and research groups that require ocean data.“Saildrone’s mission is to find ways to sustainably explore, map and monitor the world’s oceans,” says Mark Cuyler, chief operating officer. “We offer a great platform to go places that are hard to reach and be there for long durations.”The company has three classes of vehicles, all of which feature a patented wind propulsion system and solar-powered meteorological and oceanographic sensors to perform long-range data collection missions. The first USV the company developed was the 7-meter-long Explorer. It includes a lead keel and a GFRP hull and wing. The USV runs 100% on renewable energy, using solar panels to charge a lithium battery that operates the vehicle’s systems and sensors.The 10-meter-long, hybrid Voyager class was introduced in 2022 and features a GFRP hull and wing and a keel made from lead and stainless steel. In addition to the battery, it includes a small diesel generator to increase endurance. “It’s a step function improvement to the first USV,” says Cuyler. “There is a base set hull with modular payload boxes that can be taken in and out without having to reconfigure the hull.”Saildrone is currently developing its third platform, the 20-meter-long, diesel/electric Surveyor. The hull is aluminum, and the 44-foot-tall wing is GFRP. “The Surveyor is large enough to go after a customer base that needs something more rugged and heavy to go to really challenging areas of our globe,” says Cuyler.