Had he continued working aboard fuel-powered cargo ships, Yann Jourdan reckons he'd be earning perhaps four times what he now gets as captain of a sailboat that instead uses the wind's clean energy to transport goods across the Atlantic.
But the hit to Jourdan's pay is buying him peace of mind. When his 3-year-old son, Marcel, grows up, the burly French mariner wants to be able to explain what he did to make a dent in the the shipping industry's huge carbon footprint.
The international merchant fleet of more than 100,000 ships transports more than 80% of global trade. But it's also responsible for about 3% of global greenhouse gas emissions. Without a quick switch from dirty fuels to cleaner energies, its pollution is forecast to soar.
Mariners pushing for wind power say investors used to view them as something of a joke. But as they pioneer a comeback for sail-powered cargo ships, they're having the last laugh.
“It’s our job to prove that it’s possible,” Jourdan said aboard the new Grain de Sail II cargo carrier as it sailed off the French port of Saint-Malo one recent autumn day.
“For me, it’s just logical, you know?" he said. “Like the petrol is limited quantity and the wind is not.”
The cleanest of the new vessels spearheading wind's embryonic revival are almost pure-sail vessels like Grain de Sail II. Half the length of a soccer field and able to carry 350 tons of goods in its holds, it uses its diesel engine only to maneuver in and out of port.
“We want to not only reduce the carbon footprint, we want to kill it,” said Jacques Barreau, co-founder of the Grain de Sail firm with his twin brother, Olivier. They used profits from their chocolate-making and coffee-roasting business in western France to finance their first sail-powered cargo ship, Grain de Sail I.
With its aluminum hull, two giant carbon-fibre masts, mechanized systems for hauling and adjusting the billowing sails, and its bridge bristling with high-tech navigation gear, Grain de Sail II is a supercharged modern successor to sailing clippers of yore.
The speediest of its four crossings so far to New York took 17 days, and just 15 days on the return trip to Saint-Malo.
“It’s a totally different way of sailing," Barreau said. He foresees a future with “thousands of sailing cargo (vessels) like this one and even bigger versions.”
Wind-assisted systems to save fuel are also being fitted to engine-powered cargo ships, all the way up to the massive 340-meter Sea Zhoushan.
It transports iron ore and was built in China with five large spinning rotors on its deck that harness wind energy. When the ship entered service in 2021, Brazilian mining giant Vale said it expects fuel savings of up to 8% on its 40-day voyages between Brazil and China.
Finland's Norsepower, the rotor manufacturer, says it has installed them on 16 ships since fitting its first in 2014 and has installations for 13 more vessels on order.
Although wind-assisted vessels are just a tiny fraction of the global fleet, their numbers are growing at unprecedented rates, says Clarksons Research, which tracks shipping data. By its count, 165 cargo ships are already using wind to some degree or are due to have wind-assisted systems installed.
In the European Union, larger cargo ships have to start paying for some of their emissions from 2025 and adhere to new EU regulations that aim to promote low-carbon fuels.
Such pressure could strengthen wind's appeal.
“Ultimately, wind-assisted propulsion is going to help with the global transition for even the largest segments of the cargo shipping sector,” said Bryan Comer, who heads up efforts to decarbonize shipping at the non-profit International Council on Clean Transportation.
“We know that it works, right? Shipping originally was completely wind-powered.”
But wind — unlike engines — can't be switched on at the touch of a button.
French shipper Neoline is open about the fact that when its new 136-meter (446-foot) carrier begins sailing in 2025, it will use its diesel engine when winds alone can't meet its target of 13-day crossings between the French port of Saint-Nazaire and Baltimore on the U.S. eastern seaboard.
“We're aiming for punctuality," says Neoline’s president, Jean Zanuttini. “It wasn't speed that killed working sailing at the start of the 20th century, it was lack of punctuality.”
“We accept and recognize the fact that about 30% of our energy will come from a diesel system," he said.
Still, the other 70% from the Neoliner's new type of giant sails — made with fiberglass panels, not canvas — is expected to slash its fuel-use and be another step forward for wind.
“We are going to learn and we are going to improve," Zanuttini said. "And tomorrow we'll build ships that are bigger, that are more specialized for certain goods, and more efficient at every level.”
After the commercial launch of Grain de Sail I in 2020 and of Grain de Sail II this March, the Barreau twins are working to finance a third boat, Grain de Sail III. It will double the length of its predecessor and carry eight times more cargo, driving down costs. Grain de Sail hopes to have it in service by 2027.
But it says its core philosophy will remain unchanged: The bigger ship will also use only wind power, except to maneuver in ports. That rigor shrinks its vessels' carbon footprint to just a small fraction of the emissions from fuel-powered vessels, the firm says.
With a large golden ring in his left ear and bushy beard, Jourdan has the look of a pirate as he scrutinizes Grain de Sail II's rigging and tugs on its ropes to check their tautness in the wind.
He swears there'll be no going back to fuel-powered carriers for him.
“For me now, it’s a dirty business," he said. “I just want to do something that I’m proud of.”
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3 Comments
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virusrex
A few years back there were some news about a company that was developing a complicated propulsion system based on giant kites to save on fuel, I am glad people now recognize that the already well known solution using wind power is less complicated and much more reliable.
N. Knight
The kites are quite simple and generate more power than conventional sails. Have already been used and still in ongoing development.
Brian Nicholls
It is sad to think Japan could have been the world leader in this field. Back in the early 1980s I worked part time for the Japan Marine Machinery Development Association (JAMDA,) a research institute. As a response to the oil shocks of the 1970s, JAMDA developed a series of cargo vessels with computer controlled folding aerofoil sails linked to an engine management system. These sails added little to the cost of a new ship, could be turned out of the way so as not to interfere with loading and unloading, and also enhanced the stability of the ships. Fuel savings of between 30-50% were achieved depending on the size of the vessel - a figure that could easily be bettered using today's technology. A number of these ships were built, from the original Shin Aitoku Maru to the large bulk carrier Usuki Pioneer. (A model of Shin Aitoku Maru may be seen in London's Greenwich Maritime Museum.) Sadly, the price of maritime bunker fuel dropped in the late 80s, and despite the success of the ships, owners no longer saw the need to save fuel if it meant spending more to build the ships. Orders dried up and the idea was forgotten until recently. If Japanese ship owners had not been so short sighted, and the technology had been further developed, Japan could have led the world. Yet another story of missed opportunity.