PressClub United Kingdom · Article.
New cell technology for Neue Klasse: BMW Group strengthens battery expertise as part of the European Battery Innovation initiative.
Mon Apr 19 13:30:00 CEST 2021 Press Release
+++ Focus on the development of the next generation Li-ion cells for the Neue Klasse +++ Technology leap: Further development in cell chemistry and format +++ automotive-compatible solid-state battery by the end of the decade – demonstrator vehicle well before 2025 +++ clear claim: The greenest electric vehicle is a BMW +++
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Graham Biggs
BMW Group
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Munich. The BMW Group is accelerating its development
for the battery technology of the future, thereby supporting the
ramp-up of a European cell and battery value chain. In this context,
Oliver Zipse, Chairman of the Board of Management of BMW AG, today
received a grant decision from the Federal Minister of Economics and
Energy, Peter Altmaier, as well as from the Bavarian Minister of State
for Economic Affairs, Regional Development and Energy, Hubert
Aiwanger, in support of the BMW Group's battery projects within the
framework of the battery IPCEI (Important Project of Common European Intertest).
For the BMW Group, it is clear that high-performance and
sustainable energy storage systems are the key success factor for the
individual mobility of the future. The development of highly
innovative and sustainable battery cells is therefore one key element
of a high-performance European cell and battery value chain.
This aspiration is reflected in the Neue Klasse, which the BMW
Group first presented at its annual conference in March. This new
generation of vehicles, which will be launched by the middle of this
decade, will be uncompromisingly electric, digital, circular – and
clearly focused on all-electric drivetrains.
For the Neue Klasse, the BMW Group is developing the next
generation of its battery technology – combined with a clear
aspiration: "With the Neue Klasse, we will make a big leap in
technology in electric drive," said Oliver Zipse, Chairman of the
Board of Management of BMW AG, in Munich on Monday. "We want to
significantly increase the energy density of the cells and reduce the
costs of material use and production at the same time. We will also
significantly reduce the use of primary material to ensure a truly
'green' battery."
With the Neue Klasse, the BMW Group aims at the level of
state-of-the-art internal combustion engines in terms of range and
manufacturing costs. For example, electric mobility "engineered
by BMW" is intended to appeal to and convince new groups of
buyers worldwide. For this sixth generation of BMW e-drive technology,
the company evaluates correspondingly different cell formats, cell
chemistry and also cell modules in the current development phase. A
key goal is to create truly green, low-carbon and recyclable batteries.
Solid-state battery for serial use – demonstrator vehicle well
before 2025
However, the BMW Group is already planning
further into the future beyond this next generation: By the end of the
decade, the energy density of battery cells is expected to increase by
at least a mid-double-digit percentage range – from an already high
level today.
Frank Weber, Member of the Board of Management of BMW AG,
Development: "The greenest electric car in the world will be a
BMW – sustainable from the initial idea to recycling after its use
phase. We are developing the battery cell of the future: it will be
powerful, safe, cost-effective, and recyclable - from material
selection to recyclability after the use in the vehicle. All of this
will be created in a European value chain." Weber continues:
"We are doing intensive research on solid-state battery
technology. By the end of the decade, we will be implementing an
automotive-compatible solid-state battery for series production. We
plan to show a first demonstrator vehicle featuring this technology
well before 2025."
The BMW Group has had extensive in-house expertise in the
complete value chain of electric drive for years and has optimized its
battery cell technology from generation to generation. Cell chemistry
has also been consistently further developed: for example, the
proportion of cobalt in cathode material in the transition from Gen3
from the BMW i3 to Gen5, which was introduced in 2020 with the BMW
iX3, was significantly reduced from 33 percent to 10 percent – at the
same time, the nickel content rose to around 80 percent. In order to
minimize the consumption of primary resources, up to 50 percent
recycled nickel is already used in the high-voltage battery pack of
the new BMW iX.
Electric offensive in full swing
Thanks to
intelligent vehicle architectures and a highly flexible production
network, the BMW Group will have around a dozen all-electric models on
the road as early as 2023. In addition to the BMW i3, MINI Cooper SE
and BMW iX3, which are already on the market, two key innovation
drivers, the BMW i4 and the BMW iX will be put on the road this year–
the BMW i4 even three months earlier than originally planned.
In the coming years, all-electric versions of the high-volume
BMW 5 Series and the BMW X1 will follow. In addition, there will be an
all-electric BMW 7 Series as well as the successor to the MINI
Countryman and other models. As early as 2023, the BMW Group will have
at least one all-electric model on the road in around 90 percent of
its current market segments.
By 2025, the BMW Group will increase sales of all-electric
models by an average of significantly more than 50 percent per year –
more than ten times more than in 2020. In total, the company will have
delivered around two million all-electric vehicles to customers by the
end of 2025.
Based on current market expectations, the BMW Group is planning
that by 2030 at least 50 percent of its global sales will consist of
all-electric vehicles. In total, the company will bring about ten
million all-electric vehicles onto the road over the approximately
next ten years. This also means that the BMW Group is strategically on
target of achieving the EU's ambitious CO2 reduction targets in 2025
and 2030.
The BMW Group commitment to IPCEI.
Within the
framework of the two battery IPCEI (Important Projects of Common
European Interest), the BMW Group is developing highly innovative,
sustainable, function-optimized and cost-effective battery cells as a
key element of a European cell and battery value chain.
The Federal Ministry of Economics and the Bavarian State
Ministry for Economic Affairs, Regional Development and Energy,
support the project within the framework of the European funding
process IPCEI.
Federal Minister Altmaier: "With the joint European
projects, we have successfully built up the battery value chain in
Germany and Europe and secured sustainable jobs. We support BMW in two
concrete projects in the field of battery technology. Both projects
are central to the further expansion of electromobility in Germany."
Bavaria's Minister of Economic Affairs Hubert Aiwanger:
"The development of battery cells is an ideal fit for Bavaria's
automotive industry and tech-industry as a whole. Bavaria is
supporting this IPCEI project from BMW with co-financing in order to
secure added value in a central high-tech field with great future
potential. Because electromobility is becoming increasingly important,
we have to produce the battery cells needed here in Germany,
preferably in Bavaria. Our aim must be to participate economically in
this climate-friendly technology and to make Europe more independent
of suppliers from third countries."
Following the development of a next generation of lithium-ion
cells as well as an innovative battery module and battery system
concept in the first IPCEI, the focus of BMW's work in the second
IPCEI is on the development of the next generation of lithium-ion
cells, the development and optimization of process technologies as
well as the construction of a prototype production plant for
innovative battery modules and systems.
The BMW Group is also focusing on the recycling and the
recyclability of battery materials, with the main aim of achieving a
fully cyclable battery.
Through the research and validation of future technologies such
as solid-state batteries (so-called
"All-Solid-State-Battery", ASSB), the company not only
strengthens its own competence, but also the industrial location
Germany. The BMW Group sees ASSB technology as a game changer in the
automotive field.
Following the holistic approach of a closed innovation and
development cycle, BMW will develop innovative products from the areas
of battery cell as well as battery modules and systems with a focus on
improved functionality and a significantly improved cost structure.
The recycling and the usability of the batteries after their
automotive use are also taken into account.
The BMW Group is more involved in the research, development and
industrialization of battery value chains in Germany than any other
vehicle manufacturer. The research results achieved by the BMW Group
and the partners involved in the IPCEI project strengthen the
development of an integrated European battery value chain. In
addition, various concepts for solid-state batteries are being
researched together with European R&D partners and the most
promising prototype is being implemented. In doing so, the company is
paving the way for successful battery cell development and production
in Europe.