Batteries

If you value freedom, engineering and sustainability, you probably want to have a ‘home battery’ that stores and provides you with energy independent from the grid. But these are not as easily bought as your average turkey sandwich. Which battery do you need for your family? How do you install it? How much does it cost? This liveblog is intended to provide you with (some) of the answers.

What is solar inflation? What is “the grid” and why is it “full”? Why are Germany and Chile struggling with negative energy prices? Tune in with our special guest Benjamin, as we discuss these questions, what they mean to electricity production in the future and how we could potentially solve these massive challenges. In this episode you learn all about “the grid”, how complex it can be, where it is "failing" - we are still not certain - and the ultimate wizard solution: virtual power plants.

Will our kids ever know what it is like to refuel a car with gasoline, or will everything be electrified by then? In this episode Vincent and Yvo discuss electric batteries and what happens with them when they die. Learn all about battery basics, how they are recycled at the moment and in the future, plus how we could all be driving around like in Mario Kart in the future with wireless charging lanes. And remember, we are not the experts here. We are simply learning, together.

The global energy firm Wartsila modeled the least-cost renewables mix for all regions of the world, based on projected technology costs for 2030. The analysis shows that all regions require overbuilding of renewable capacity of up to four times. Contrary to popular belief, no seasonal storage is required, “only” four to ten days of multi-day storage capacity.

A great movie by JerryRigEverything that shows you exactly how easy it can be to install solar panels and hook them up to a local grid with battery storage.

With Northvolt’s acquisition of Silicon Valley battery company Cuberg, we're launching Northvolt into a new tier of cell architecture and performance. With an innovative cell design, Cuberg's technology will unlock far higher performance from batteries than we achieve with today’s technology.

Northvolt has partnered with Hydro to establish a first-of-its-kind battery recycling facility. The recycling plant will come online in 2021 in Fredrikstad, outside of Oslo. At commissioning, the Hydro Volt plant will have initial capacity to process more than 8,000 tonnes of batteries per year – roughly the equivalent of 23,000 moderately sized EV batteries. Northvolt is aiming for 50% recycled material in new cells by 2030.

Solar and Wind energy are growing at a truly astonishing pace on every continent. But in the race for global supremacy in the power generation sector have we neglected to consider how we will deal with millions of panels and turbines when they come to the end of their useful lives? Are we storing up yet another environmental problem?

The price of a lithium-ion battery pack used to power an electric vehicle has plunged 89% in the last decade, from $1,100 per kWh to $137 per kWh. Marine batteries still cost significantly more, ranging between $800-$1,000 per kWh for retrofits to $500 per kWh for newbuilds. DNV expects the cost of batteries to be reduced by 56% by 2025.

A webinar on hybrid propulsion systems for offshore giving an introduction to a selection of our hybrid battery solutions and the advantages they offer.

The North Sea Giant, a Norwegian offshore construction vessel, is the first DNV class-approved ‘hybrid’ DP3 vessel with three batteries on-board that have a total capacity of 2.034 kWh. The batteries have been installed in an upgrade and serve the purpose of spinning reserve, peak shaving and load leveling. Since then, fuel consumption is reduced in all operational modes with over 2 million liters of diesel per year, saving up to 30% fuel.

The auto industry witnessed a historic event happening in Germany in 2019, which went by largely unnoticed. In a rare act of unity, the leaders of the country’s big three Automakers; Volkswagen CEO Herbert Diess, Daimler CEO Dieter Zetsche, and BMW CEO Harald Krüger, all agreed that the future of German auto is the electric car. Over the next decade, each CEO would be pushing their respective companies to shift and embrace the idea of an electrified fleet.

A team of researchers created small prototypes of ‘power bricks’ which are able to power small LEDs. The energy density is only about 1% of that of lithium ion batteries, but is believed this can be increased by tenfold. A brick costs only about 3 dollars to make.

A first look at QuantumScape’s groundbreaking solid-state electric vehicle battery technology. Warning: this video might change everything what you were told about batteries.

Volkswagen-backed QuantumScape is building a solid-state lithium metal battery for electric vehicles that it says should allow a car to charge to 80% of its full capacity in 15 minutes.

Designed in 2017 and launched in 2018, Hurtigreten has launched two new hybrid cruise vessels, the MS Roald Amundsen and MS Fridjof Nansen, that can sail fully electric for up to 30 minutes. Not only will it significantly reduce emissions, a hybrid system is also extremely quit. Arctic exploration has never been so much fun!

The best explanatory video on regular lithium-ion batteries and solid-state lithium-ion batteries we have seen so far.

Quantumscape CEO Jagddep Singh discusses going public through a SPAC deal and his company's battery technology for electric vehicles.

The EU is currently 75% to 100% dependent on imports for most metals. With the EU's green and digital ambitions raw materials’ requirement requiring 18 times more lithium alone by 2030, this dependence must be reduced. She has come up with an action plan that includes setting up new European mines, which are not taken kindly upon by everyone. Lithi-yummy!

NortVolt, led by Tesla-Veteran Peter Carlsson, is building the very first European battery gigafactory. One that should counterbalance Elon Musk and, above all, the Asian producers. What is NorthVolt’s strategy to create a European battery power basis? An interview with CEO Peter Carlsson, who urges Europe to quickly build on its own battery knowledge.

Using Tesla’s announcements of Battery Day, DNV expects the cost of batteries to be reduced by 56% (measured in $/kWh) by 2025. Worldwide, DNV predicts that passenger electric vehicles are likely to start outselling their internal combustion engine counterparts from 2032 onwards. In North America, Europe and China this will take place well before 2030.  Tesla’s success could spill over from land-based vehicles into adjacent transport sectors. On the assumption of success on all fronts, Tesla will achieve the critical battery density for short range electric airplanes – namely 400 Wh/kg with high cycle life.

This blog sketches a vision on how to convert the largest crane vessel in the world - Sleipnir - owned by Heerema Marine Contractors, to a zero-emission vessel. Several promising carbon reduction measures are combined which are technically viable and based on matured technology, although scaling of existing technologies and cooperation with key partners is required. Key technologies include electrification, on-board batteries, solar panels, synthetic fuels, carbon capture and storage and possibly hydrogen.

Maersk and Ørsted are building a ‘power-buoy’ that can act as both a mooring point and a charging station for vessels, enabling them to turn of their engines when laying idle.

Tesla announced new ‘tabless’ batteries, aims to phase out cobalt and plans for investing in a new cathode plant. Their goal is to improve affordability by building a $25,000 electric car.

Full electrification of buildings is a crucial step in the energy transition. To reduce fossil fuel dependency in buildings, heat-pumps are key.

Colin Breck and Percy Link explore the evolution of Tesla's Virtual Power Plant (VPP) architecture. A VPP is a network of distributed energy-resources (often solar, wind, batteries) that are aggregated to provide smarter and more flexible power generation, distribution, and availability. Tesla's VPP consists of vertically integrated hardware and software, including both cloud and edge computing.

Electric cars have a dark secret - cobalt. The element that is in almost all lithium-ion batteries is often considered a conflict mineral because half of all cobalt reserves are found in the Democratic Republic of Congo, a troubled region with over a century of instability. But is it as bad as the anti-EV crowd has led us to believe? What's the reality of the situation, and what are some of the solutions?