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Solar Panels on Tesla Car – Future Cars by Elon Musk

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Electric cars and solar panels seem like a match made in heaven, free clean power as long as the sun shines.

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A self-reliant, solar car that’s not dependent on the power grid could recharge sustainably from anywhere you dare to venture, as long it’s not a cloudy day. So, have you ever wondered about bolting solar panels on your Tesla? And why don’t all-electric cars come equipped with solar panels for a sleek charge-on-the-go solution? In fact, with improving solar technology and clever ground-up engineering, a few self-charging solar cars are just at the point of coming to market. In this video, we’ll delve into the practicalities of solar power for vehicles and have a look at some of the early adopters of this emerging technology.

In 2017, Elon Musk suggested that Tesla would offer optional solar tiles on the roof of the model 3. But later retracted the statement, saying that putting solar panels on a car is “Not that helpful because the actual surface of the car is not that much, and cars are often inside. The least efficient place to put solar is on the car.”

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Did you know that every hour the earth is hit with more energy from the sun than the entire world consumes in a year? The problem is the total surface area of the earth is about 197 million square miles and The roof of your car is… a lot less than that, about 3-10 square meters of usable space. It does make a lot more sense to utilize the large surface area of your home with a solar power system like the Tesla solar roof and charge your car from there.

The only problem is, you have to be home to use it. A car with integrated solar panels can recharge from any sunny parking lot in the world. And, if you happen to be driving in perfect midday conditions, you can even charge on the go, extending the range of your vehicle as you drive.

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Potentially, the extra incoming power from the solar system could even allow for a smaller, lighter battery system than in a comparable conventional electric car, leading to lower vehicle mass and energy use in driving. To understand if a solar car could really work,

we need to find out how much solar energy the surface of a car can capture, and how much range that energy will provide under realistic driving conditions. Solar radiation is often measured in kilowatts per square meter, so let’s assume a 1-meter square panel is being hit with about 1 kW of energy in direct sunlight. Unfortunately, nothing in this world is perfectly efficient, especially devices that take raw energy and transform it into useful work: that’s just thermodynamics.

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The most efficient modern silicon solar cells you’d find on a home system only work at best around 20% efficiency, but unlike a house, cars move. This creates unpredictable conditions and can lead to suboptimal solar panel angles. You can technically cover every square inch of the car in panels, but for example, covering the lower door panels isn’t going do you much good, as they won’t get much sunlight, and the proximity to the road will have them covered in a thick layer of dirt and dust every time you drive.

So let’s take a sedan the size of a Tesla Model S, almost 5 m long and 2 m wide, and put a totally impractical, hypothetical array of solar cells covering the whole plan-view rectangular area of 10 square meters. Indirect sunlight, it could charge its battery with, at best, 20% of the 10 kilowatts of solar energy hitting it, about 2 kW. With full sun for about 5 hours per day – just as an approximation, – that’s 10kWh of battery charge per day, at best. For comparison, the long-range plus battery option on the

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Model S is 100 kWh, so our giant imaginary square solar panel could charge up to 10% of its lithium-ion battery per day. This model has an EPA estimated range of 402 miles or 647 km, so we could be looking at gaining up to 40 miles, or 65 km of range with this exceedingly optimistic and frankly unrealistic estimate – potentially a useful extra distance.

In a more practical scenario, the solar panels would only partially cover the top surfaces of the vehicle and have a much smaller surface area.

Now, no one’s saying you’ll get 100% of your power from an integrated solar panel system, in the foreseeable future any solar tesla would still require the standard battery charging apparatus, but solar could be a useful supplement.

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Tesla’s commitment to solar energy is well known, and the Palo Alto behemoth offers solar roof tiles in addition to the Tesla Power wall line of energy storage products.

 

According to the 2019 Impact report from Tesla, the average lifecycle emissions from the Model 3 are less than half those of an equivalent mid-sized ICE car, and if you install a solar power system on your home, and charge your EV with that, your carbon footprint can be reduced to almost nothing. This was Elon Musk’s idea in 2017 – that car roofs are small and inefficiently angled platforms for viable solar installations, and charging from a home solar installation made more sense. You could even charge a night on stored solar and cheaper off-peak electricity. However, Elon might have changed his mind, confirming that the Cybertruck will offer a solar roof option on the truck’s bed.

 

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On Twitter, Elon said, “Will be an option to add solar power that generates 15 miles per day, possibly more. Would love this to be self-powered. Adding fold-out solar wings would generate 30 to 40 miles per day. Avg miles per day in the US is 30.” In a previous video, we envisioned what a foldable solar array might look like on a Cybertruck, and you may have noticed, we envisioned it as a… military cyber track and equipped it with some extra goodies.

Researchers at NASA’s Jet Propulsion Laboratory and Brigham Young University collaborated to construct a prototype of a solar panel array that folds origami-style, to be used in space. Such a technology might be an interesting concept to explore in the automotive world on earth, where the greater surface area could increase the solar production of stationary vehicles.

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When it comes down to it, solar vehicles are all about efficiency. It’s a matter of energy to weight. A practical solar car would really need to be designed from the ground up with reduced weight and low aerodynamic drag, to create a vehicle with more favorable energy density. For as far as electric cars have come in the last decade,

the energy density of gasoline is still far greater than lithium-ion batteries. 1 kilogram of gasoline contains about 48 megajoules of energy, and lithium-ion battery packs only contain about .3 megajoules of energy per kilogram. Gasoline still has more than 100 times the energy density of the batteries used in most electric cars. This is why planes still use fuel, and why we’re not likely to see an electric 787 unless a radical breakthrough in commercially viable battery technology comes into service.

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Teams gather each year in Australia to race pure solar cars across the continent from Darwin to Adelaide under the scorching desert sun. Back in 2013, a new class of racer was brought into the competition: the Cruiser Class. Whereas previously the race was simply about building stripped down single-seaters, new designs were welcomed for vehicles which could carry passengers, with additional points were scored for ‘practicality’ – passenger cars which could perform under normal driving conditions.

Consistent winners of this class have been the evolving Stella series from the University of Eindhoven, the team from which Lightyear sprang in 2016. This young start-up is one of the most prominent automotive companies pursuing solar-powered vehicles. This is a perfect example of engineering competitions and racing fueling innovation for consumer products, as the lessons learned in the playground of the Australian outback have been incorporated directly into Lightyear One, the first car offered by the company, which sports 5 square meters of integrated solar cells along its low, sweeping roof and hood.

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Lightyear one reevaluated every component of the car and used lighter materials like aluminum and carbon fiber, to build a lighter vehicle with the best aerodynamic coefficient of any car on the market. Four independently driven in-wheel motors also lower the car weight and improve powertrain efficiency. In an interview with ‘AutomotiveEV’ magazine,

 

CEO Lex Hoefsloot described the positive feedback loop of weight reduction: By concentrating on efficiency and lightweight, we can use batteries that are about half the size and weight of a conventional EV, and half the energy consumption of an EV in the same segment. We have a battery pack that is two-thirds the size of that of a Tesla Model S and we can drive further than the Model S – up to 800 kilometers with good sunlight, and a minimum range of 400 kilometers without any solar top-up and with heating, air conditioning all being used and doing high-speed driving’. Stop-start and initial acceleration demand power and wastes energy in proportion to mass,

typical in urban, low-speed situations, whereas the power required for overcoming air resistance increases proportionally to speed cubed, sapping energy at high speeds. How effective solar charging will therefore depend largely on how you use the car to balance energy usage. As Hoefsloot notes, the lightyear one is an electric vehicle capable of 250 miles or 400 km of high energy use driving,

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even at night, and is expected to achieve a rated range of 450 miles or 725 km even without its solar panels trickling in their 1.25kW of extra juice, which the company equates to 10-12 km, or 6-7 miles for each hour of charging, even while driving. This means that, while this car is self-charging, it is primarily a highly capable battery electric vehicle with a small solar capability. Lightyear points out this solar charge adds up to 10,000 km or 6,200 miles of free motoring per year in the Netherlands, and up to 20,000km or 12,400 miles in sunnier regions like Australia or California.

LightYear believes that by eliminating the steps between sun and wheel, it should be possible to gain overall efficiency. Lightyear, as Tesla did before them, are starting at the top of the market, coming in at a premium price point of $170,000 for their first full-size luxury car with future plans to release smaller more affordable vehicles in the future. Sono Motors Sono Motors, on the other hand, are starting with a more affordable $29,000 compact family car designed for urban use. In designing the Scion prototype, The German startup looked at driving patterns of real-world motorists and found that a typical commute from home to work and back in Europe or the US might be up to 16 miles or 25 km.

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Sono’s proudest new technology integrates solar cells into polymer body panels to replace conventional painted metal bodywork. These weigh as little as 4-8 kilograms per square meter2, compared to 5-12 kilograms per square meter for metal, or the 10 or 20 kilograms per square meter of flexible or glass-encased solar panels respectively.

Importantly, Sono claims to be able to produce these at the same cost as painted metal, although that includes their initial expense of building and operating a painting production line, a cost which reduces per car panel as more cars are produced. These robust, damage tolerant, plastic body panels have the additional advantage of being capable of mounting to the sides of the vehicle, increasing the solar cell area on a car where glass panels (as used by Lightyear) might be risky.

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Vertical panels, such as on doors, however, can rarely hope to point directly towards the sun and achieve their maximum potential and will often be shaded entirely when parked next to walls or other cars. The Sono founders are exploring some other intriguing ideas, including bi-directional charging to allow solar-generated power to be fed into other cars or back into the grid, or even used for grid-connected external renewable energy storage and stabilization.

It’s not only relative newcomers who are adapting to new technological innovations in solar energy. Toyota has experimented with a demonstration Prius with high-efficiency thin-film triple-junction cells made by Sharp, whose efficiency is claimed to be 34%, compared to that of their commercially available silicon-based solar panel of 22.5%.

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Hanergy Solar, a Chinese manufacturer of thin-film panels, has also demonstrated prototype cars with panels that can harvest 8-10 kWh per day and supplied such panels to Aston Martin for their GTE racing car. Most solar panels rely on cells made from semiconducting silicon crystals, which convert sunlight to electricity at around 15%-19%, but new technologies are in the works to create higher efficiency solar cells utilizing new materials. Organic molecules such as polymers can form the light-absorbing layer in a photovoltaic cell, and can potentially be semi-transparent.

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Absorbing infrared light and letting visible light pass through, which has intriguing implications for automotive applications, such as windows. Organic cells can also be flexible, which can allow them to be fitted onto uneven surfaces more effectively than traditional glass panels. As the future unfolds, and more cutting edge solar technologies come to market, we can see self-charging solar electric vehicles become more and more practical, as cells get more and more efficient.

A future cell technology with efficiencies above 50% would be a game-changer, and probably make solar cars ubiquitous. Heavy batteries are a limiting factor in the feasibility of solar cars. A breakthrough battery with more favorable energy to weight characteristics would revolutionize electric transportation, and make solar cars far more realistic.

Promising new technologies that utilize materials like graphene, solid polymers, and ceramics are currently in research and development and are poised to create the next generation of powerful batteries with higher energy density, greater service life, faster charging, improved safety, and potentially even lower costs. Most experts agree that we’re likely at least a decade out from a fundamental commercial disruption in battery chemistry, but there is a massive amount of scientific and commercial attention on this sector, and a lot at stake,

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so stay tuned. So should you mount a solar panel on your Tesla? Well, we wouldn’t recommend a home-made conversion with a heavy and delicate, aerodynamically inefficient domestic panel. However, with the fresh design of new vehicles whose entire architecture revolves around the solar cells and design philosophy of maximum efficiency and lightweight construction, the future is bright and this technology can be viable.

 

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Image Source: From Tesla Official site

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Thanks for reading and have a great day.

 

 Some Important Links :- 

How Does an Electric Vehicle Work? Tesla Motors

Solar Panels on Tesla Car – Future Cars by Elon Musk

Tesla Military Cyber Truck 4×4 Power Electric Combat Vehicle

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jim Carrey

I am a Psychologist and Philosopher ... that's all :)

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