Tesla battery details are available here. Tesla is an American company that makes electronic future devices like solar panel, batteries and electric cars and it is popular in India.
Tesla battery price is Rs. 3,75,000/- in India and it provides super future batteries with solar power. These rates doesn’t include installation of the batteries.
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Tesla New Cost-Efficient Battery
A revolution is afoot in the world of electric vehicles.
Major breakthroughs in chemistry, materials science and structural engineering will soon help EVs drive further, charge faster and cost a lot less at the dealership.
And it’s basically all happening on one company’s watch.
So what can we expect from the next generation of Tesla batteries?
How are they different?
And is this the final nail in the coffin for the gas-guzzling internal combustion engine?
Join us now as we speak truth to power and investigate Tesla’s new battery at good price in India.
First, let’s examine why this new kind of battery is needed in the first place.
Tesla CEO Elon Musk is a great believer in what business dorks call ‘vertical integration’.
That means smart manufacturing firms, like Tesla, try to make as much as they can – from sprockets to steering wheels – in-house, instead of relying too heavily on outside suppliers.
Frustratingly for Musk, he’s currently dependent on Japanese electronics giant Panasonic for Tesla’s all-important lithium ion battery cells.
Musk has roundly criticised Panasonic for what he sees as its sluggish manufacturing pace, a significant drag factor on what he’s described as his ‘production hell’ during the Model 3 rollout in 2018.
In fairness, Panasonic CEO Kazuhiro Tsuga candidly predicts his own firm’s batteries will probably just “run out” if Tesla goes on expanding.
So in the name of vertical integration, Musk is pushing to manufacture Tesla batteries in-house.
Not for cheeseparing corporate reasons either.
He believes, with his handpicked team including eminent Lithium Ion pioneer Jeff Dahn, Tesla can and will manufacture batteries that go further, last longer and cost less.
If they pull it off, it will overcome many of the stumbling blocks to universal EV adoption.
For instance, the spectre of so-called ‘range anxiety’, which puts potential customers off for the perfectly legit reason they’re scared of running out of juice miles from a charger.
Another is affordability.
“We need to make more affordable cars,” says Musk plainly.
“One of the things that troubles me most is that we don’t have a truly affordable car, and that’s something we will have in the future.
“For that,” he says, “we need cheaper batteries.”
How will Tesla achieve this?
By halving the cost per KWH of its next generation automobile batteries.
This will happen, Musk declared during his splashy Battery Day announcement last Autumn,
via a five pronged assault.
Prong one, obviously enough, is to revisit battery cell design.
Tesla’s great innovation here is what’s called ‘tabless’ technology.
In a conventional lithium ion battery, electrons flow from the cathode through a tab, a separate.
component that has to be manufactured and welded onto the cell.
On the new simpler tabless Tesla battery, this pretty shingled spiral is created when battery foils are laser cut and folded over each other.
That means electrons can pass in and out of the battery more freely.
Imagine the interior of regular tabbed batteries as like an airplane fuselage with only one exit.
Some passengers – electrons in this metaphor – will take much longer to disembark than others, which creates overheating and inefficiency.
Tesla batteries are more like an airplane with an exit on every row, so electrons can escape more rapidly and efficiently with affordable price.
Prong two of Tesla’s five-prong strategy is to revamp the very battery manufacturing process itself.
The current ‘wet’ process beloved by Panasonic and others for manufacturing cells is complex, time consuming and occupies a vast factory footprint.
Tesla’s new groundbreaking ‘dry solvent’ method is still somewhat in development – even Musk concedes it won’t be ready for well over a year.
But if – when – they nail it, it’ll use 10x less energy and occupy a 10x smaller physical footprint.
That kind of reduction wouldn’t just gee-on production at the Gigafactory, by the way.
It will reshape the entire battery industry forever.
Prong Three revisits the fundamental material used in Tesla’s anode, that compartment of the battery where lithium ions are stored ready for deployment.
Graphite is presently the favoured material for the job, but silicon – the most abundant element in the earth’s crust after oxygen – could be a game changer.
If, that is, Tesla can stabilise its anode silicon with a coating of elastic ion-conducting polymer.
Pull that off, and Tesla vehicle range will be extended by 20% at a stroke.
Step Four is about the cathode, which houses ions shorn of electrons after they’ve departed the anode.
For now, cobalt is the preferred material, but the downsides are hefty.
Cobalt is environmentally destructive to mine, and toxic to the health of vulnerable miners who labour under threadbare safety regimes.
So Tesla is looking to diversify the material in its cathodes, using a mixture of iron, lithium and nickel extracted from regulated sources in the USA.
This extraction process alone has led to its own breakthroughs, not least a new process devised for deriving lithium from clay.
Tesla reckons there’s enough lithium in the clay soil of Nevada alone to transition every vehicle on earth to electric.
The fifth prong of Tesla’s approach is the most striking of all.
In order to reduce vehicle mass by 10% and use fewer parts, the plan is to integrate the battery cell into the body of the car itself.
This so-called ‘structural battery’ will use a honeycomb structure to keep light and strong.
With nothing less than the world’s largest factory casting machine, and the company’s own patented alloy, Tesla will integrate its new battery into the car chassis itself.
In Musk’s words, safety won’t be compromised as a structural battery “provides better torsional rigidity & improved polar moment or inertia.”
“This,” says Musk with a flourish, “is a major breakthrough.’
It certainly saves 370 parts, which in turn makes manufacturing and scale-up a whole lot simpler.
Tesla’s nifty integrated design might have been indirectly inspired by the common aerospace practice of using cavities in wings for fuel tanks, reducing material use and weight via
imaginative multi-tasking.
Proper manufacturing roll-out of the new battery, Catchily named the 4680, is still a year off at least.
But one dedicated pilot plant in California Tesla is already working towards an impressive 10 gigawatt hours of 4680 production a year.
That’ll ultimately help free Tesla from its unhappy marriage of convenience with Panasonic, and move the company close to it’s long-promised $20k mass-market EV.
In practical terms, the 4680 will increase range by as much as 54% – that’ll hopefully soothe the nerves of all those range-anxiety sufferers.
It’ll also create a 56% drop in vehicle cost per kilowatt hour – which in turn might flog a few more Teslas over the coming decade.
As for our mate Elon ‘build the machine that builds the machine’ Musk, the greatest advantage is that sweet investment cost reduction, per kWh, of 69%.
This post was about Tesla Battery details and its price in India.
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