Meet Manta, a giant, plastic-eating catamaran powered by renewable energy. The 185-foot hybrid sailboat will be the world’s first sea-cleaning vessel capable of collecting plastic waste on an industrial scale. Operating autonomously 75 percent of the time, it’s also a state-of-the-art scientific laboratory.
World-record sailor Yvan Bourgnon is the mastermind behind the venture. During 20 years of transatlantic competitions and various solo world tours (including the first person to sail solo from Alaska to Greenland), he witnessed a sharp increase in ocean pollution. In 2015, he was forced to abandon the Transat Jacques Vabre yacht race after his sailboat struck plastic debris in the Bay of Gascogne.
Bourgnon’s response was to set up The SeaCleaners NGO in 2016, a consortium of over 58 engineers, technicians and researchers comprising five research laboratories and 17 external partners to build a solution: The Manta.
Built from low-carbon steel, the Manta is a virtuous energy recovery unit wrapped up in a 185-foot sailboat design. It features a custom electric hybrid propulsion system enabling it to travel at controlled speeds of between two and three knots, the optimum speed for waste collection. Around 500kW of onboard renewable energy is generated via two wind turbines located at the stern, 500 square meters of photovoltaic solar panels at the bow, two hydro-generators under the boat and a Waste-to-Electricity Conversion Unit (WECU) used to power the hotel load, or what the captain and crew consume.
The Manta gets its name from a pair of retractable wings used to hold a third of the solar panels that mimic the shape of a manta ray. Despite being an oceangoing vessel, the Manta will primarily focus on coastal areas in and around the estuaries or mouths of the 10 most polluting rivers in the world. These include the Yangtze (the longest river in Asia), the Yellow River, which feeds into China’s Bohai Sea, and the Ganges, which runs through India and Bangladesh.
Three floatable collection systems give the Manta a plastic-eating span of 151 feet and a collection depth of three feet. Two cranes are used to extract large debris. Up to three tons of waste will be collected per hour and sorted on board by a crew of 22 working in two 12-hour shifts. Metal and glass are sent to shoreside recycling units, organic matter is returned to the sea, and plastic waste is fed into the WECU which vaporizes the plastic turning “syngas” into electricity. Operating for 300 days a year, the aim is to collect up to 10,000 tons per year. Two multi-purpose decontamination boats stored onboard—Mobula 8 and Mobula 10—will be deployed to access narrow and shallow areas. Both models will also be sold individually to encourage public and private initiatives.
A shipyard is yet to be confirmed, but Bourgnon anticipates a two year-build for the first model, with delivery scheduled for the end of 2024. Sea trials will take place in Europe before heading to southeast Asia in 2025 to begin the first clean-up. Up to 10 scientists are also accommodated on board. All the scientific research and data collected by the Manta will be made available on an open-source platform.