George Jetson, the character in the animated TV series The Jetsons, was born in a fictional 2022. By the time he reaches middle age, 40 years later, people are zooming around in flying cars.
Venkat Viswanathan thinks there’s a “straight shot” from today to the technologies needed to build that future, despite the jokes about flying cars being fantasy. The professor at Carnegie Mellon University is obsessed with building the batteries that will power these zero-emission aircraft.
Viswanathan has worked with next-generation battery companies such as QuantumScape, 24M Technologies and Aionics, and concluded that aviation is “the most important problem that batteries can address”, he told Bloomberg's Zero podcast.
While the “straight shot” may exist, technologically speaking, it will still take a lot of work. That's why Viswanathan serves as an adviser to companies that make aircraft powered by batteries — known as “electric vertical take-off and landing aircraft,” or eVTOLs. Later this year, he’ll move to the University of Michigan’s aerospace engineering department to double-down on battery research for electric aviation.
Time is of the essence. Even if the world gets on track to reach net-zero by 2050 and emissions from most sectors decline, carbon produced by the aviation industry is projected to increase. BloombergNEF estimates the sector’s carbon pollution is set to double between now and 2050.
The problem is it’s hard to beat jet fuel in the right combination of weight and power needed to lift a plane (with passengers and cargo) off the ground. To make a battery that is powerful but light enough to accomplish the same feat is bound to be extremely expensive.
That’s why Viswanathan believes the first application will have to be in the luxury market. Electric aviation will replace the types of trips people might take via helicopter or private jet. The ultimate aspiration may be to make long-haul flights electric, but at first the market will be “small distances and people who value time a lot who will be willing to pay a much higher price to travel that mile”.
While it may seem like a waste of energy, Viswanathan says electric flying cars are likely to replace trips covering tens of kilometres typically taken by petrol-powered cars today, in which case “there is a clear energy efficiency argument to be made that an eVTOL would definitely reduce emissions”.
Viswanathan argues we are close to a “Roadster” moment for aviation. Aviation will go electric the same way the car industry did after the luxury Tesla Roadster showed there was demand for electric cars.
If this sounds too good to be true, rest easy Viswanathan is also in the business of poking holes in battery technology that overpromises. It’s easy for start-ups to take advantage of complicated science to create hype for an idea that may be bunk, he says.
When venture capitalists are trying to determine if a battery start-up is worth investing in, they bring in Viswanathan to look at their claims. The key, he says, is combining “optimism with a healthy dose of scepticism”.
More stories like this are available on bloomberg.com
The case for flying cars as a climate solution
George Jetson, the character in the animated TV series The Jetsons, was born in a fictional 2022. By the time he reaches middle age, 40 years later, people are zooming around in flying cars.
Venkat Viswanathan thinks there’s a “straight shot” from today to the technologies needed to build that future, despite the jokes about flying cars being fantasy. The professor at Carnegie Mellon University is obsessed with building the batteries that will power these zero-emission aircraft.
Viswanathan has worked with next-generation battery companies such as QuantumScape, 24M Technologies and Aionics, and concluded that aviation is “the most important problem that batteries can address”, he told Bloomberg's Zero podcast.
While the “straight shot” may exist, technologically speaking, it will still take a lot of work. That's why Viswanathan serves as an adviser to companies that make aircraft powered by batteries — known as “electric vertical take-off and landing aircraft,” or eVTOLs. Later this year, he’ll move to the University of Michigan’s aerospace engineering department to double-down on battery research for electric aviation.
Time is of the essence. Even if the world gets on track to reach net-zero by 2050 and emissions from most sectors decline, carbon produced by the aviation industry is projected to increase. BloombergNEF estimates the sector’s carbon pollution is set to double between now and 2050.
The problem is it’s hard to beat jet fuel in the right combination of weight and power needed to lift a plane (with passengers and cargo) off the ground. To make a battery that is powerful but light enough to accomplish the same feat is bound to be extremely expensive.
That’s why Viswanathan believes the first application will have to be in the luxury market. Electric aviation will replace the types of trips people might take via helicopter or private jet. The ultimate aspiration may be to make long-haul flights electric, but at first the market will be “small distances and people who value time a lot who will be willing to pay a much higher price to travel that mile”.
While it may seem like a waste of energy, Viswanathan says electric flying cars are likely to replace trips covering tens of kilometres typically taken by petrol-powered cars today, in which case “there is a clear energy efficiency argument to be made that an eVTOL would definitely reduce emissions”.
Viswanathan argues we are close to a “Roadster” moment for aviation. Aviation will go electric the same way the car industry did after the luxury Tesla Roadster showed there was demand for electric cars.
If this sounds too good to be true, rest easy Viswanathan is also in the business of poking holes in battery technology that overpromises. It’s easy for start-ups to take advantage of complicated science to create hype for an idea that may be bunk, he says.
When venture capitalists are trying to determine if a battery start-up is worth investing in, they bring in Viswanathan to look at their claims. The key, he says, is combining “optimism with a healthy dose of scepticism”.
More stories like this are available on bloomberg.com
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