The Funky Boat Circling the Planet on Renewable Energy and Hydrogen Gas (wired.com) 49
Victorien Erussard, an experienced ocean racer from the city of Saint-Malo in the north of France, was halfway through a dash across the Atlantic when he lost all power. Never again, he thought. "I came up with the idea to create a ship that uses different sources of energy," he says. The plan was bolstered by the pollution-happy cargo ships he saw while crossing the oceans. "These are a threat to humanity because they use heavy fuel oil." Five years on, that idea has taken physical form in the Energy Observer, a catamaran that runs on renewables. From a report: In a mission reminiscent of the Solar Impulse 2, the solar-powered plane that Bertrand Picard and Andre Borschberg flew around the world a few years back, Erussard and teammate Jerome Delafosse are planning to sail around the planet, without using any fossil fuel. Instead, they'll make the fuel they need from sea water, the wind, and the sun.
The Energy Observer started life as a racing boat but now would make a decent space battle cruiser prop in a movie. Almost every horizontal surface on the white catamaran is covered with solar panels (1,400 square feet of them in all), which curve gently to fit the aerodynamic contours. Some, on a suspended deck that extends to the sides of the vessel, are bi-facial panels, generating power from direct sunlight as well as light reflected off the water below. The rear is flanked by two vertical, egg whisk-style wind turbines, which add to the power production. Propulsion comes from two electric motors, driven by all that generated electrical energy, but it's the way that's stored that's clever. The Energy Observer uses just 106-kWh (about equivalent to a top-end Tesla) of batteries, for immediate, buffer, storage and energy demands. It stores the bulk of the excess electricity generated when the sun is shining or the wind is blowing as hydrogen gas.
The Energy Observer started life as a racing boat but now would make a decent space battle cruiser prop in a movie. Almost every horizontal surface on the white catamaran is covered with solar panels (1,400 square feet of them in all), which curve gently to fit the aerodynamic contours. Some, on a suspended deck that extends to the sides of the vessel, are bi-facial panels, generating power from direct sunlight as well as light reflected off the water below. The rear is flanked by two vertical, egg whisk-style wind turbines, which add to the power production. Propulsion comes from two electric motors, driven by all that generated electrical energy, but it's the way that's stored that's clever. The Energy Observer uses just 106-kWh (about equivalent to a top-end Tesla) of batteries, for immediate, buffer, storage and energy demands. It stores the bulk of the excess electricity generated when the sun is shining or the wind is blowing as hydrogen gas.
There's an existing method already (Score:3, Insightful)
The rear is flanked by two vertical, egg whisk-style wind turbines, which add to the power production.
I guess these folks haven't heard of sailing.
Re: There's an existing method already (Score:2)
The one I want to see is a fully automated Clipper ship, complete with actuated rigging and navigation. Add some solar panels to power the actuators, and let them ferry cargo autonomously.
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2. Show them the "automating the process" for sail.
3. Hire a skilled crew with navy skills for when the "automating the process" needs support.
4. Enjoy the automated sail and having a great crew.
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Well if it's all a matter of the right level of skill then why doesn't someone work on automating the process?
Because people who sail actually enjoy the process of sailing.
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what's funny is that dude is saying bad things about bunker oil fueled cargo ships when his wimpy setup could never power such things.....but sailing or augmenting with sails is indeed an option being seriously persued
Re: There's an existing method already (Score:2)
Sailing problem #1: Doldrums (no wind)
Sailing problem #2: Restricted in direction one can travel more than you might care to think
Sailing problem #3: (The biggy): Your energy budget for electricity for everything you want for day to day living.
Sailing fix #1: fuel reserve. Whether electric or conventional, you can carry enough to get you through the slow periods.
Sailing fix #2: IANAS but given several hundred years of history your second problem sounds like a PEBDAS issue.
Sailing fix #3: the fact that you have sails does not prevent you from installing some solar panels for non-propulsion needs.
A mix of sail and solar-electric seems like a much better solution that this floating monstrosity.
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Using the wind for propulsion directly you are affected by things like wind direction and speed. These work with wind from any angle and generate electricity that is used to power the motors.
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https://en.wikipedia.org/wiki/... [wikipedia.org]
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Re: Been done. (Score:2)
Did he make it all the way?
I thought Chief Lapu Lapu capped his arse.
I could Google it but why?
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Magellan himself did not survive the voyage, but others of his crew did. The point being that the SHIP went around the world using wind energy.
Re: Been done. (Score:1)
It scaled out into a worldwide network of wind powered ships engaging in commerce, which this dude's stunt only really repeats.
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Magellan didn't make it, but one of his ships did, of course on wind power all the way.
Re: Age of sail (Score:2, Insightful)
We once sailed cheap, washed cloth diapers, drank from glass bottles, etc. Time to return to those means of doing things green.
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Here, here! I certainly agree. I raised my children using cloth diapers.
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I guess I need to crowdfund (Score:1)
A boat that is just a giant solar panel. Then add a sail and a fan blowing the sail. Think how cool that would be!
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Forget hydrogen, use plastic (Score:2)
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There are two experimental projects to actually demonstrate the concept:
https://www.theseacleaners.org... [theseacleaners.org]
http://plasticodyssey.org/?lan... [plasticodyssey.org]
The sites provide details about the pyrolysis process used to transform plastic waste into fuel.
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I'm impressed (Score:2)
I'm impressed to see "funky" used in a non-ironic way. Got to be the first time this century.
Completely unfeasible (Score:2)
If you covered the entire top of the ship with solar panels, that would be 400m*59m = 23,600 m^2 of solar panels (actually a bit less due to curvature at the bow and stern).
How much power would the panels need to produce to replace the diesel engines? 60,000 kW / 23,600 m^2 = 2.5 kW/m^2, or 2500 W
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Not for a few billion years.
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Duh! It's a CARGO SHIP! Meaning it's carrying lots and lots of CONTAINERS! We cover the top of each container with solar panels,so they collect solar energy. Then we stack the containers 50-60 high and...
Oh, wait...
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We had a solution [wikipedia.org] for the cargo ship emissions years ago.
There's precedent (Score:2)
in the 1950s
https://www.amazon.com/crossin... [amazon.com]
Re:Uhhh... _Read_ and think beyond the words. (Score:2)
The guy is one of the premier sail racers in the world. The boat is a riff of the kind of high performance cat- and tri- maran sail boats he has raced. He's doing this to highlight renewable energy's potential.
"Funky" boat? See this for what it is. (Score:2)
It's funky only if you've been oblivious the developments in the yachting world (esp. catamarans and French sail racing). State of the art design, state of the are materials, even state of the art propulsion equipment (the ideas are old but the implementation is SOTA).
Also, see this for what it is: advertising for renewable energy and responsible environmental practices. While this is utterly impractical (currently) for a ship, the scale _is_ practical for a reasonably sized private dwelling.
Hydrogen works here because volume isn't an issue (Score:2)
Hydrogen fuel cells are impractical in land vehicles because even though they are lighter than batteries for the energy they store, they take up a lot of physical space. On the Ocean there's plenty of space and weight is more of an issue, so it works out better. Less weight means less volume below the waterline. This means it takes less energy and creates less drag to propel the boat.