The Dawn Of Low-Carbon Shipping

Jul 16, 2019
Originally published on July 16, 2019 10:01 pm

The global shipping industry is enormous — thousands of ships carry billions of dollars of goods each year across nearly every ocean on the planet.

Those ships run mostly on a particularly dirty type of fuel known as heavy fuel oil, or bunker fuel. It's thick and sooty, and when it burns, it emits sulfur and particulate matter that can cause respiratory illness. It also emits greenhouse gases, including carbon dioxide and methane, which trap heat in the atmosphere and cause global warming.

"If shipping was a country, it would be the sixth-largest polluter in the world," says Nerijus Poskus of the shipping technology company Flexport. "About 3% of global emissions are released by ocean freight shipping."

The industry is growing so steadily, he says, that it's projected to produce more than 15% of global greenhouse gas emissions by midcentury if ships continue to burn the same fuel, which is a real possibility considering that most cargo ships are designed to last at least 30 years.

Maritime shipping vessels like this coal-carrying ship are powered by enormous engines that burn thousands of gallons of heavy fuel oil every day when they're at sea.
Ryan Kellman / NPR

Yet there are signs that the status quo is changing and that a new fuel could make cargo ships among the cleanest transportation methods on Earth.

"Things are changing, and they are changing quite fast, finally," Poskus says.

The international body that helps create global shipping regulations has clamped down on emissions of some air-polluting substances when ships are in or near ports. The new regulations, which started going into effect in 2012 and which decrease limits dramatically in January 2020, require ships to significantly cut the amount of sulfur pollution they emit when they're near land. For the U.S., the regulations apply anywhere within 200 miles of its coastline.

The easiest way to comply with the new regulations is to burn a different, less pollution-intensive type of diesel fuel.

The fuel oil that ships burn produces air pollution, greenhouse gases and waste sludge. The crew of the Premiership, a bulk vessel owned by Seanergy Maritime, collects the sludge in 55-gallon drums on board.
Ryan Kellman / NPR

Additional increasingly stringent emissions standards are planned for the next two decades. The largest container-shipping company in the world, Maersk, announced in 2018 that it intends to make its operations carbon free by 2050, though it's still unclear how the company would achieve that goal.

What is clear is that success will require new ships, new engines and — above all else — a new fuel.

Old technology, new economy

The search for a cleaner, more climate-friendly maritime shipping fuel has turned up two real possibilities: liquefied natural gas and hydrogen.

Research at the U.S. Energy Department's Sandia National Laboratories suggests that of the two, hydrogen is the most promising.

Using hydrogen to generate electricity is very clean. Hydrogen fuel cells combine hydrogen with oxygen and create electricity and water. The electricity can be used to turn a propeller, for example. The exhaust from fuel cells is moist air — with no greenhouse gases.

"There's been a lot of interest in putting hydrogen fuel cells on boats," says Leonard Klebanoff, a researcher at Sandia. Around 2014, he and his then-research partner, Joe Pratt, started systematically analyzing whether current ships could be retrofitted to run using hydrogen fuel cells instead of fossil fuels.

Pratt says the project started when a San Francisco Bay ferry operator asked the Energy Department whether it was possible to switch his fleet over to hydrogen power. Although hydrogen fuel cell technology has existed for decades, at the time no one in the U.S. had ever analyzed whether fuel cells could be used to power the world's shipping fleet.

The answer, they found, was yes.

The main issue was about size. For each unit of energy, liquid hydrogen is about four times larger by volume than conventional diesel, so many engineers worried that it might not be possible to fit enough fuel onto ships. Liquefied natural gas has a similar size problem and doesn't come with the zero-carbon benefits of hydrogen.

But "the efficiency of a fuel cell is about twice as much as a diesel engine," Klebanoff says, "[so] you end up needing only about twice as much volume for the same endurance." And the gigantic internal combustion engines that currently take up lots of space on ships would be unnecessary on a vessel powered by hydrogen.

When they analyzed the entire system, Klebanoff and Pratt found that it would be possible to retrofit most types of existing vessels to run on hydrogen and even easier to construct a new ship powered by fuel cells.

"The technology is all here," Pratt says. "There's no reason why we couldn't make all these vessels zero emission today."

In 2018, Pratt left Sandia to prove it. He co-founded a company called Golden Gate Zero Emission Marine, drew up detailed construction plans for a hydrogen-powered ferry and persuaded the state of California to contribute $3 million to fund a pilot project.

The first hydrogen-fueled ferry in the U.S. is under construction in Oakland, Calif. Two hulls will support hydrogen tanks and fuel cells capable of powering the vessel without fossil fuels.
Rebecca Hersher / NPR

In May, inside a warehouse at a shipyard in Oakland, Calif., welders worked meticulously on the aluminum skeleton of a catamaran. The ship's hydrogen fuel tanks will sit on the deck and will power a propeller below.

The ship's exhaust will be moist air, devoid of sulfur, soot and greenhouse gases. In fact, the drinking fountains on the ferry will feature water recycled from the exhaust system.

When the ship — it's a passenger ferry — is finished this fall, it will be the first hydrogen-powered vessel to operate in the United States. It will be used to carry passengers across the San Francisco Bay and for tours of the area, and a Sandia National Laboratories team will study the vessel's performance.

Hydrogen vessels in use by 2030?

The quest to prove that hydrogen-powered vessels are viable is also underway in Europe. Hydrogen-powered vessels are under construction in Norway and France, also funded in part with public dollars.

But Pratt sees signs that a commercial market for such vessels exists. He says that since his company formed, it has been contacted almost continuously by ship operators wanting to know more about hydrogen vessels. "It's not just a few lab scientists thinking about it," he says. "There are people out there who want it."

Even so, Poskus says, it will be another decade before the shipping industry could begin to adopt hydrogen fuel cells. And, until there is more demand for fuel cell technology, hydrogen fuel will remain significantly more expensive than other, more polluting, shipping fuels.

"Technology is being tested. It's promising. I do think once it proves that it actually works, by 2025-plus, people will start ordering [new ships]," he says. "It takes three to five years to build a ship, so maybe by 2030 we will start seeing hydrogen ships."

Copyright 2019 NPR. To see more, visit https://www.npr.org.

MARY LOUISE KELLY, HOST:

Time now for All Tech Considered. And today we are considering how technology could make shipping cleaner. The vast majority of the things we buy in the U.S. come here on ships, often from countries oceans away. These ships run on a particularly dirty kind of fuel called heavy fuel oil, or bunker fuel. As NPR's Rebecca Hersher reports, that may be changing.

REBECCA HERSHER, BYLINE: The inside of a modern ship smells like oil, and everything is enormous.

ALEKSEI BUZLOV: So let's go down.

HERSHER: Aleksei Buzlov (ph) is the chief engineer on a coal-carrying ship that I visited when it stopped in Baltimore earlier this year. Its engine room was a cavern four or five stories tall.

Wow.

There were layers of catwalks around an engine with pistons as long as station wagons. And built into the walls were rows and rows of bulbous storage tanks.

BUZLOV: Fuel tanks - this one, 60 tons; another one, 80 tons - small tanks.

HERSHER: Small because, in all, the ship carries about 300 tons of heavy fuel. The fuel is darker and thicker than diesel or gasoline. It looks kind of like the engine oil for a car. Aleksei spends a lot of his time down here cleaning gunk out of engine parts.

BUZLOV: This is slop.

HERSHER: Slop, the dark grease that heavy fuel leaves behind on basically everything it touches.

Oh, it's like frosting - or poop.

BUZLOV: Don't touch.

HERSHER: Keeping the ship's engine clean enough to run efficiently is a never-ending job. This ship burns an average of 50 tons of heavy fuel every day when it's on the ocean. And in addition to the slop, as it burns fuel, the engine emits CO2, carbon dioxide, and soot into the atmosphere. Add that up across all the thousands of ships crisscrossing the Earth every day, and it's a lot of pollution.

NERIJUS POSKUS: If shipping was a country, it would be the sixth-largest polluter in the world. About 3% of global emissions are released by ocean freight shipping today.

HERSHER: Nerijus Poskus is an analyst at the company Flexport. He says the shipping industry is growing so fast, it's projected to emit more than 15% of greenhouse gases by midcentury if ships keep burning heavy fuel oil, which is untenable if humans hope to avoid the worst effects of climate change. And the shipping industry appears to know that.

POSKUS: Things are changing, and they are changing actually quite fast, finally.

HERSHER: International regulators have tightened emissions standards for when ships are in port. And one big company, Maersk, has said they intend to make their entire fleet zero emission by 2050 - no greenhouse gases, which will require a new type of fuel.

POSKUS: My personal opinion, hydrogen looks like the most promising way to power ships.

HERSHER: Poskus thinks it will take at least a decade, partly because ships are designed to last about 30 years. But the first hydrogen-powered prototypes are being built now in just a few places on Earth. Norway is one of them. The other is Oakland, Calif.

JOE PRATT: OK. So down here where he's working, you have the two holes. Right?

HERSHER: Joe Pratt looks down at the shiny aluminum skeleton of a ship. It's on its way to being a passenger ferry, so you can see the outlines of what will be two catamaran hulls.

PRATT: This is the floor.

HERSHER: His company, Golden Gate Zero Emission Marine, is building it with money from the state of California. When it's finished in the fall, it will be the first hydrogen-powered vessel to operate in the U.S. Pratt says the technology is not particularly new. They're just proving that it can be used to power a boat.

PRATT: Yeah, everything is off the shelf.

HERSHER: One issue his team has had to figure out was how to make sure there was enough room for the hydrogen tanks and for the fuel cells. As big as internal combustion engines are, hydrogen fuel cells and their fuel will require even more space. One thing they don't have to worry about anymore, though - smelly exhaust.

PRATT: It has an exhaust duct, which will have warm, humid air coming out.

HERSHER: The moisture from the exhaust will be collected and used as drinking water onboard. Pratt says his company is already fielding questions from boat tour companies and others who are interested in either building new hydrogen-powered vessels or retrofitting their current ships. There is one more challenge, though, to achieve the goal of zero emissions. The hydrogen fuel that powers a vessel like this isn't necessarily clean. Lennie Klebanoff studies hydrogen fuel cells at Sandia National Lab.

LENNIE KLEBANOFF: In the U.S., about 90% of our hydrogen is made from methane.

HERSHER: When you make hydrogen from methane, the process emits some CO2. So even though the hydrogen itself is clean burning, it's not really zero emissions. There are other ways to make hydrogen, though - from biomass, for example, or - cleanest of all - from water.

KLEBANOFF: So water is H2O. You get the H's off of the H2O, and you're left with O, which is oxygen.

HERSHER: The hope is if even a few companies start buying hydrogen-powered ships in the coming decade, the demand for clean hydrogen will go up, and fossil fuels will stop being the go-to for global shipping.

Rebecca Hersher, NPR News. Transcript provided by NPR, Copyright NPR.