Il futuro dell'auto (elettrica)

[4200blu]

 

Brussels, 6 July 2021 – Strong national variations in EU sales of electric cars are clearly correlated to a country’s standard of living, according to new research by the European Automobile Manufacturers’ Association (ACEA).

Battery electric and plug-in hybrid cars made up 10.5% of all new cars sold in the EU last year. However, 10 member states still had a market share of lower than 3%.

The analysis demonstrates that consumer uptake of electric cars is directly linked to a country’s GDP per capita, indicating that affordability remains a major issue.

“As is the case with the distribution of charging infrastructure, there is a clear split in the affordability of electric cars between Central-Eastern Europe and Western Europe, as well as a pronounced North-South divide,” stated Eric-Mark Huitema, ACEA Director General.

Countries with a total electric car market share of less than 3% have an average GDP of below €17,000. This is the case for instance in Central and Eastern European countries as well as in Greece. What is more, the five countries with the lowest market uptake of electric cars also have very few charging points – under 1% of the EU total each.

On the other hand, a market share of more than 15% for electric cars is only found in richer countries in Northern Europe with an average GDP of over €46,000.

Almost three-quarters of all EU electric car sales are concentrated in four Western European countries with some of the highest GDPs (Sweden, the Netherlands, Finland and Denmark). The remaining quarter of sales is spread across 23 member states.

As recent figures from the European Environment Agency show, the auto industry’s heavy investments in low-emission vehicles are paying off. With sales of electric cars trebling between 2019 and 2020, average CO2 emissions were down a record 12% last year.

Huitema: “To continue this progress on the road to zero, the European Commission must now urgently ensure that all the right conditions are in place – and that no countries or citizens are left behind. Zero-emissions vehicles must be affordable and convenient for everyone.”

Europe’s auto makers are therefore calling for appropriate incentives to stimulate sales of such vehicles in the long run, and binding infrastructure targets for each EU member state.

ACEA is publishing this data ahead of next week’s proposals for new EU-wide car CO2 targets and a review of the Alternative Fuel Infrastructure Directive – both of which will form part of the European Commission’s ‘Fit for 55’ climate package.

 

 

(fonte - ACEA)

 

[Damynavy]

7 minuti fa, 4200blu scrive:

 

Brussels, 6 July 2021 – Strong national variations in EU sales of electric cars are clearly correlated to a country’s standard of living, according to new research by the European Automobile Manufacturers’ Association (ACEA).

Battery electric and plug-in hybrid cars made up 10.5% of all new cars sold in the EU last year. However, 10 member states still had a market share of lower than 3%.

The analysis demonstrates that consumer uptake of electric cars is directly linked to a country’s GDP per capita, indicating that affordability remains a major issue.

“As is the case with the distribution of charging infrastructure, there is a clear split in the affordability of electric cars between Central-Eastern Europe and Western Europe, as well as a pronounced North-South divide,” stated Eric-Mark Huitema, ACEA Director General.

Countries with a total electric car market share of less than 3% have an average GDP of below €17,000. This is the case for instance in Central and Eastern European countries as well as in Greece. What is more, the five countries with the lowest market uptake of electric cars also have very few charging points – under 1% of the EU total each.

On the other hand, a market share of more than 15% for electric cars is only found in richer countries in Northern Europe with an average GDP of over €46,000.

Almost three-quarters of all EU electric car sales are concentrated in four Western European countries with some of the highest GDPs (Sweden, the Netherlands, Finland and Denmark). The remaining quarter of sales is spread across 23 member states.

As recent figures from the European Environment Agency show, the auto industry’s heavy investments in low-emission vehicles are paying off. With sales of electric cars trebling between 2019 and 2020, average CO2 emissions were down a record 12% last year.

Huitema: “To continue this progress on the road to zero, the European Commission must now urgently ensure that all the right conditions are in place – and that no countries or citizens are left behind. Zero-emissions vehicles must be affordable and convenient for everyone.”

Europe’s auto makers are therefore calling for appropriate incentives to stimulate sales of such vehicles in the long run, and binding infrastructure targets for each EU member state.

ACEA is publishing this data ahead of next week’s proposals for new EU-wide car CO2 targets and a review of the Alternative Fuel Infrastructure Directive – both of which will form part of the European Commission’s ‘Fit for 55’ climate package.

 

 

(fonte - ACEA)

 

Ci stanno dando dei "morti di fame?"😂

[xtom]

2 minuti fa, Damynavy scrive:

Ci stanno dando dei "morti di fame?"😂

Lo siamo, potevano fare la stessa statistica guardando il numero di auto diesel e a gas immatricolate, siamo sicuramente i primi.

[4200blu]

VW, Stellantis, Renault enter new battlefields in EV race

Competing battery chemistries, standardized cells, increased insourcing on key e-components will be game-changing aspects of the shift

 

The battery cell "is tomorrow's combustion chamber," Porsche CEO Oliver Blume declared at parent Volkswagen Group's recent Power Day.

The VW event, which came not long after Tesla's Battery Day in September 2020, marked the first of a series of announcements from European automakers that laid out their plans to replace internal combustion engines with battery-driven propulsion.

They included: VW's Power Day in March; Renault's eWays ElectroPop event in June; Stellantis' EV Day in July; and Daimler's EV strategy announcement in July.

The automakers used the events to expand on how they were going meet the 468 gigawatt-hours of battery cell capacity IHS Markit estimates is needed in Europe to meet the EU's proposed 55 percent CO2 reduction target by 2030.

The promise of new gigafactories, mostly with cell partners, was the concrete results of 2.9 billion euros ($3.5 billion) of investments from European Union countries promised under the European Battery Innovation Project, which aimed to create 18,000 new jobs and help replace those lost in the shift away from internal combustion engines.

The online events went beyond investment announcements.

Europe's automakers also laid out in a series of PowerPoint slides with varying degrees of detail outlining how they would offer different battery chemistries and unify battery pack design to balance customer demands for increased range and lower cost.

At the same time, executives such as Porsche's Blume introduced the idea that, far from being just a commodity, battery cells are as much a differentiator for automakers as the combustion engine ever was.

'The game has changed'

The events signified a profound shift in recent thinking among automakers.

"Even two years ago they were saying ‘We are carmakers, not chemical players', but the game has changed," said Jakob Fleischmann, associate partner at consultancy McKinsey & Co. "The future uptake of EVs requires battery manufacturing to gigafactory scale."

The relationship with cell suppliers is changing. Rather than inking supply deals with Tier 1s such as LG Chem or Samsung, the automakers are entering into partnerships.

Renault, for example, announced it would buy 20 percent of French startup Verkor to co-develop and build "a high-performance battery" for higher-end vehicles.

VW, meanwhile, has partnered with Chinese battery maker Gotion, in which the German company has a stake, to build cells at VW's plant in Salzgitter, Germany, to complement its existing partnership with Northvolt there.

"Cell production is further away from automakers' traditional strategies, but that is where the value sits so they want to get involved," Fleischmann said.

The desire to control more of the value chain has prompted a look at investments not normally associated with vehicle production such as raw materials.

Vertical integration

VW spoke about "a second wave of industrialization" to help reduce costs.

"Vertical integration is the key to this," VW Group Chief Procurement Officer Joerg Teichmann said in March. "A third of the cost of the battery is manufacturing, engineering and integration into the vehicle. Two-thirds are the components, the raw materials and raw materials processing."

VW head of components Thomas Schmall didn't rule out following Tesla and investing in the mining of battery raw materials.

"We are looking at the entire process chain from the mine to recycling. We have to get actively involved in the raw materials business," he told German business daily Handelsblatt in June.

Competing chemistries

Questions around cost, supply and ethical sourcing of raw materials needed for the cathode in most lithium ion batteries have prompted European automakers to invest in different chemistries.

The metals typically used in the cathode in today's batteries -- nickel, manganese and cobalt (or NMC) -- are expensive. To tackle this, VW has announced it will use three different chemistries, all of which reduce or remove the pricey cobalt.

During its Power Day presentations, VW said its three new cathode chemistries will be:

Lithium iron phosphate (LFP) for the "cost-sensible entry segment"

High manganese for "the main volume segment"

High nickel "for premium and high-performance solutions."

Meanwhile, Stellantis announced two new cobalt-free cell chemistries:

Iron manganese for entry-level cars

Nickel manganese for more energy-dense applications.

LFP, which is popular in China, is considered a key to unlocking cheaper EV motoring in Europe.

"In the past, European automakers were very dismissive of LFP, seeing it as a poor quality solution for EVs," said James T. Frith, head of energy storage for Bloomberg NEF. "But they are now coming to realize that if you want an EV to cost less than 20,000 pounds [$27,800], you have to offer a low-cost chemistry that sacrifices some range."

Stellantis has promised its iron-manganese pack will come in 2024.

China's lead in industrializing LFP will mean that European automakers are more likely to turn to Chinese automakers for raw materials and partnerships, Frith said.

Gotion, for example, is expected to make LFP cells for VW in Salzgitter, while Stellantis will most likely leverage its new agreement with Svolt, a spinoff of Great Wall Motors, to supply LFP-style cells from a planned factory in Saarlouis, Germany, with production slated to begin in 2023.

Daimler will also "vary chemistries depending on customer needs in different markets" Chief Technology Officer Sajjad Khan said at the company's July EV strategy presentation, without going into more detail.

One European automaker sticking with its current NMC chemistry is Renault. It said NMC "will cover 100 percent of the future BEV [battery-electric vehicle] launches across all segments" during its June presentation, citing 20 percent longer range "compared to other chemistry solutions" and "a much better recycling performance."

One drawback of LFP is that its low valuable-metal content makes it less appealing to recyclers, meaning automakers might have to shoulder that cost.

Cell-to-pack

Removing cost from the battery pack is central to European automakers' drive to push down battery prices.

VW, for example, says it will standardize its cell starting in 2023 to a prismatic design for what it calls the "unified cell."

This cell will be designed to contain the different chemistries VW plans and will cover 80 percent of VW's batteries by 2030, Schmall said in March.

Stellantis is also working on a unified design, in which its cobalt-free, longer-range, high-nickel formulas would use the same cell production process, separator, electrolyte and metal foils, electrified powertrain engineering boss Jean Personnaz said last month.

Stellantis is developing a so-called "cell-to-pack" design that does away with modules common to today's battery packs with the aim of reducing pack costs by 40 percent by 2024.

That's the date when the company will debut its cell-to-pack low-cost battery chemistry, while higher-range nickel-rich batteries will drop modules by 2026.

Renault also wants to use cell-to-pack solutions, which it believes will reduce pack cost by 60 percent by 2030 and help it hit a battery cost of $80 per kilowatt hour by the same date, down from $170 kWh in 2019.

Daimler also plans "highly standardized batteries" with only chemistry and cell height differences between packs, Daimler research boss Markus Schafer said last month.

The step beyond cell-to-pack is called cell-to-car, which VW has promised. The solution integrates the pack into the structure of the car.

Tesla has also said it will do this starting with the Model Y build near Berlin.

"The battery for the first time will have dual use … as an energy device and as structure," Tesla CEO Elon Musk at the company's battery day event last September.

High hopes for solid state

"Solid state will be the game changer" VW's Schmall said last month. "It cuts charging time in half and improves range by 30 percent."

VW is planning a pilot line to make solid-state batteries in Germany with its partner, Quantum Scape, as it tries to industrialize a technology that all European automakers see as their ultimate goal for e-mobility.

The battery uses a solid electrolyte that improves on the performance provided by lithium ion batteries across almost every parameter. The technology remains experimental, but Europe's big players have announced definite timelines (see box, below).

Early versions will be luxury applications, but Bloomberg NEF expects the cost to be closer to that of lithium ion batteries by 2030.

Once that level of energy density is possible Daimler "would have the opportunity to rethink the design of the battery system" CTO Khan said.

Insourcing surge

Automakers are looking at far more than just the battery as they seek to reduce the cost of the electric drivetrain and stand apart from rivals.

Daimler will "insource e-drive technology that will allow us to build truly differentiate products with unmatched performance," Schafer said.

For example, it recently bought YASA, a UK maker of high-performance radial permanent magnet motors that also supplies the technology to Ferrari for its SP90 plug-in hybrid supercar.

Stellantis is developing three electric drive modules that include the electric motor, transmission and inverter to use across EVs on its four planned architectures, with 800-volt capability on the top-spec variants.

Renault plans to make 500,000 e-motors a year at its powertrain factory in Cleon, France, by 2024 as it tries to convert from combustion engines toward e-mobility.

About 70 percent of e-motors will be made in-house by 2030, IHS Markit predicts, compared to 33 percent now.

"We do expect integration of e-motors/e-axles will be increasingly in automakers' hands as economies of scale kick in," Matteo Fini, IHS' head of supply chain, technology and aftermarket, said. "Insourcing makes more sense with higher volumes per part."

This increased vertical integration for EVs, however, is unlikely to result in like-for-like job replacement, Fini warned.

"Major EV components lend themselves to comparatively more automation and less labor intensity than combustion engines," he said.

The flurry of announcement for battery industrialization in 2021 means the supply will be in place to match the demand for the 54 percent EV sales scenario for Europe in 2030 required under the European Union's Fit for 55 proposals, McKinsey believes.

Now, McKinsey's Fleischmann warns, automakers and their partners face "an extreme execution challenge" to deliver on their cell production promises.

 

(ANE)

 

[shadow_line]

3 ore fa, 4200blu scrive:

Now, McKinsey's Fleischmann warns, automakers and their partners face "an extreme execution challenge" to deliver on their cell production promises.

 

infatti, come già ho detto tempo fa, ormai gli pseudo-manager di tutte le grandi aziende si sono lanciati, come si dice, a vendere la pelle dell'orso prima di averlo catturato

 

avevo anche detto: credevano di fare una blitzkrieg e si ritroveranno in un vietnam (o in un afghanistan visti i tempi...) 🙄

[4200blu]

Cities push ahead with hydrogen energy plans

China's cities are gearing up for the development of hydrogen fuel cell energy, another green energy solution for vehicles, and have released specific plans for the industry over the next decade.

As a widely available and clean energy, hydrogen is seen by many as a potential substitute for fossil fuels, and the promotion of hydrogen is in line with China's targets of reaching carbon dioxide emissions peak by 2030 and carbon neutrality by 2060.

More than 10 provinces and cities have released plans for the development of hydrogen fuel cell vehicles. The latest is China's capital city, Beijing, that announced last week the target of having 3,000 hydrogen vehicles on the road and building 37 hydrogen filling stations by the end of 2023. It expects the number of hydrogen vehicles on the roads to exceed 10,000 by 2025.

The city government said it will support the development of the industrial system and infrastructure for hydrogen energy; cultivate 10-15 leading enterprises; form an industrial cluster for key components and equipment manufacturing; and build three or four world-class industrial research, development and innovation platforms by 2025, according to a hydrogen energy industry development blueprint released by the Beijing Municipal Bureau of Economy and Information Technology.

Statistics show there were around 150 hydrogen-related companies and institutions in Beijing by the end of 2020. The industry achieved output value of 3 billion yuan ($462 million) last year.

Beijing is one of the first cities to develop the hydrogen energy and fuel cell industry. With 20 years of research and development, the city has built an industrial chain in the Beijing-Tianjin-Hebei region.

The scale of the hydrogen energy industry chain in the Beijing-Tianjin-Hebei region will surpass 100 billion yuan by 2030, and it is expected to reduce carbon emissions by 2 million metric tons.

Since hydrogen energy has been listed among China's Long-Range Objectives Through the Year 2035 and become one of the national six future industries this year, it has received unprecedented attention.

According to the Hydrogen Industrial Technology Innovation Alliance of China, the country's hydrogen energy industry output value will reach 1 trillion yuan by 2025.

Demand for hydrogen will approach 60 million tons and a carbon dioxide emissions reduction of 700 million tons will be achieved by 2050.

The alliance expects hydrogen will account for more than 10 percent of the country's terminal energy mix and become a new growth pillar in the economy with annual output value exceeding 12 trillion yuan by 2050.

Shanghai has also designated hydrogen energy as one of the six industrial development focuses in its 14th Five-Year Plan (2021-25).

According to the Shanghai government, the city has nearly 1,500 hydrogen cars and nine hydrogen fueling stations in use. It plans to have more than 70 hydrogen stations covering the five newly planned satellite cities and Hongqiao and Pudong airports by 2025.

Guangzhou in South China's Guangdong province is intensifying efforts to develop a sophisticated hydrogen energy industrial system with the target of achieving an industry valued at 200 billion yuan by 2030.

Guangzhou plans to build a hydrogen energy industrial chain with a production value of over 60 billion yuan by 2025, and an industrial system that consists of production, storage, transaction and application with an output value of 200 billion yuan by 2030.

More than 20 hydrogen energy projects with investment totaling over 4 billion yuan have been introduced in Guangzhou.

The cities of Rugao and Zhangjiagang in Jiangsu province, Jiaxing and Ningbo in Zhejiang province and others are all making efforts to promote the industrialization of hydrogen fuel cell vehicles.

A pilot city for the application of hydrogen energy buses, Jiaxing has introduced 104 hydrogen fuel cell buses and built four hydrogen filling stations.

Sales of hydrogen vehicles in China have grown from 10 in 2015 to more than 7,000 in 2020. Commercial hydrogen fuel cell vehicles have been used in logistics, public transportation and other sectors, according to Ma Lincong, director of National Technical Committee of Hydrogen Energy.

Zhang Jiujun, director of College of Sciences under Shanghai University, said at the 2021 Jiaxing Hydrogen Industry Development Summit held last month, the industry needs to focus on two challenges, which are reducing the production cost of fuel cells and building more hydrogen filling stations.

Although China faces challenges in hydrogen fuel cell technologies, storage and transportation, Zhang said he is confident in China's high-quality development of hydrogen energy.

( China Daily, August 23, 2021 )

 

[dbing]

On 24/8/2021 at 09:59, 4200blu scrive:

......

Daimler will "insource e-drive technology that will allow us to build truly differentiate products with unmatched performance," Schafer said.

For example, it recently bought YASA, a UK maker of high-performance radial permanent magnet motors that also supplies the technology to Ferrari for its SP90 plug-in hybrid supercar.

.........

 

Faccio notare questo passo... 
La Società YASA è entrata nell'orbita Daimler .
Si tratta del costruttore di motori radiali sviluppati su specifica Ferrari per essere inseriti fra motore termico e cambio nella SF-90 Stradale .. pochi cm di ingombro assiale per un motore elettrico molto performante ed accoppiato direttamente al motore endotermico

 

https://www.ft.com/content/4dd01709-cf31-4e13-8876-f8f7ab148149

 

https://www.macitynet.it/mercedes-benz-ha-comprato-yasa-specialista-in-motori-elettrici/

 

https://www.formulapassion.it/automoto/mondoauto/mercedes-compra-un-fornitore-di-ferrari-yasa-motori-elettrici-576668.html

 

https://www.formulapassion.it/automoto/mondoauto/ferrari-mercedes-possibili-alleate-sullelettrico-motori-yasa-daimler-578365.html

Modificato 25 Agosto 2021 da dbing

[ISO-8707]

 

[nucarote]

Cerchiamo di utilizzare questo topic per raccogliere e discutere di informazioni oggettive, e lasciamo fuori tutti dibattiti soggettivi e sui massimi sistemi.  

Modificato 30 Agosto 2021 da nucarote

[4200blu]

Nuova concept per una piattaforma skateboard con motori piazzati all'interno dei mozzi delle ruote- senza freni meccanichi. Presentazione alla IIA di Monaco.

 

 

https://insideevs.it/news/529649/auto-elettrica-motori-ruote-deepdrive/