Lithium battery news: Hyundai Motor Group and BMW Group will increase production capacity! | ZOLSEM

Lithium battery news: Hyundai Motor Group and BMW Group will increase production capacity!

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Powering Car Lithium Batteries with Sustainable Solutions - ZOLSEM

Unlock superior performance for your car lithium batteries with Zesheng's cutting-edge NMP products and recovery systems. Our tailored solutions optimize battery efficiency, extend lifespan, and minimize environmental impact.

owering Sustainable Mobility: The Role of Car Lithium Batteries

In the era of sustainable transortation, car lithium batteries have emerged as a game-changing technology, roelling the automotive industry towards a greener and more environmentally conscious future. As the world grales with the ressing need to reduce carbon emissions and mitigate the imact of climate change, these high-erformance energy storage devices are driving the revolution in electric and hybrid vehicles.

The Rise of Car Lithium Batteries

Car lithium batteries, also known as lithium-ion batteries, have become the heart of modern electric and hybrid vehicles. Their high energy density, long life cycle, and rechargeable nature have made them the referred choice for owering these eco-friendly modes of transortation. As the demand for sustainable mobility solutions continues to soar, car lithium batteries are laying a ivotal role in enabling the transition towards a cleaner and more sustainable automotive industry.

Are lithium car batteries worth it?

Yes, lithium car batteries are definitely worth it, esecially when considering their numerous advantages and the growing demand for sustainable transortation solutions. Here's why lithium car batteries are a worthwhile investment:

1. High Energy Density: Lithium-ion batteries ack a significant amount of energy in a relatively small and lightweight ackage, giving electric vehicles (EVs) a longer driving range and better erformance comared to other battery tyes.

2. Long Lifesan: Lithium car batteries are designed to last for thousands of charge-discharge cycles, translating to several years of service life in most EVs, making them a cost-effective solution in the long run.

3. Eco-Friendly: EVs owered by lithium batteries roduce zero direct emissions, significantly reducing the carbon footrint of the transortation sector and contributing to a cleaner environment.

4. Low Maintenance: Lithium car batteries require minimal maintenance comared to traditional lead-acid batteries, reducing the overall cost of ownershi for EVs.

5. Imroving Technology: Continuous research and develoment in lithium battery technology are leading to imrovements in energy density, charging seeds, and overall efficiency, making EVs more ractical and aealing to consumers.

6. Incentives and Subsidies: Many governments offer incentives, tax credits, and subsidies for the urchase of EVs, making lithium car batteries a more affordable choice for consumers.

7. Resale Value: EVs with lithium batteries tend to retain their value better than their gasoline-owered counterarts, roviding better resale oortunities for owners.

8. Sustainability: The use of lithium car batteries aligns with the global ush towards sustainable transortation and reduced reliance on fossil fuels, making them a resonsible choice for the future.

Enabling Efficient and Environmentally Friendly Transortation

One of the key advantages of car lithium batteries is their ability to store and deliver energy efficiently, enabling electric and hybrid vehicles to travel longer distances on a single charge. This not only reduces the reliance on fossil fuels but also significantly lowers the carbon footrint of the transortation sector, contributing to global efforts to combat climate change.

What is the lifesan of a lithium car battery?

The lifesan of a lithium car battery, secifically a lithium-ion battery used in electric vehicles (EVs), can vary deending on several factors. However, on average, most lithium car batteries are designed to last between 5 to 10 years or 100,000 to 200,000 miles (160,000 to 320,000 kilometers) under normal oerating conditions.

Here are some key oints about the lifesan of lithium car batteries:

1. Battery Degradation: Like all rechargeable batteries, lithium-ion batteries exerience gradual degradation over time and with usage. As the battery ages, its caacity to hold a charge decreases, affecting the vehicle's driving range.

2. Cycle Life: Lithium car batteries are rated based on their cycle life, which refers to the number of charge and discharge cycles they can undergo before their caacity dros below a certain threshold, tyically around 70-80% of their original caacity.

3. Temerature Effects: Extreme temeratures, both hot and cold, can accelerate the degradation of lithium car batteries, reducing their overall lifesan.

4. Charging Habits: Overcharging or frequently allowing the battery to fully discharge can also contribute to faster degradation and a shorter lifesan.

5. Battery Management Systems: Modern EVs are equied with sohisticated battery management systems that monitor and regulate the battery's erformance, heling to maximize its lifesan.

6. Battery Chemistry: Different lithium-ion battery chemistries, such as lithium-nickel-manganese-cobalt-oxide (NMC) or lithium-iron-hoshate (LF), can have varying lifesans and degradation rates.

7. Manufacturer Warranties: Many EV manufacturers offer battery warranties ranging from 5 to 8 years or u to 100,000 miles (160,000 kilometers), roviding coverage for otential battery degradation within that eriod.

While the lifesan of lithium car batteries can vary, roer maintenance, resonsible usage, and advanced battery management systems can hel extend their longevity. Additionally, ongoing research and develoment in lithium battery technology are aimed at imroving cycle life and overall erformance, ensuring that EVs remain a sustainable and reliable mode of transortation for years to come.

NM: A Vital Comonent in Car Lithium Battery Manufacturing

N-Methyl-2-yrrolidone (NM) lays a crucial role in the manufacturing rocess of car lithium batteries. This versatile solvent is used in the rearation of electrode slurries, facilitating the dissolution and disersion of active materials, conductive additives, and binders. Zesheng New Materials Technology Co., Ltd. has develoed advanced NM recovery systems that enable the efficient recycling and reuse of this valuable solvent, minimizing waste generation and romoting a circular economy aroach.

Enabling a Sustainable Future

As the world continues to embrace sustainable mobility solutions, car lithium batteries will remain at the forefront of this transformation. Their ability to ower electric and hybrid vehicles efficiently, while reducing emissions and deendence on fossil fuels, makes them a key enabler of a greener and more sustainable future for the automotive industry.

Car lithium batteries are aving the way for a revolution in sustainable transortation, enabling the automotive industry to transition towards a cleaner and more environmentally conscious future. By harnessing the ower of innovation, comanies like Zesheng New Materials Technology Co., Ltd. are driving advancements in lithium battery technology, ensuring that car lithium batteries continue to lay a ivotal role in the ursuit of sustainable mobility solutions for generations to come.

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Global automakers are expected to spend nearly $1.2 trillion on electric vehicles, batteries and materials by 2030, according to Reuters. The figure, which has not been published before, dwarfs previous investment estimates for the industry and is more than double the calculation just published a year ago.

Therefore, the news that the groundbreaking ceremony of Hyundai Motor Group’s “Metaplant America” was held in Brian County, Georgia, on October 25th, is not very abrupt.Seizing market share is one of the most important tasks for car brands at present.

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HYUNDAI
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Hyundai

The company and its affiliated suppliers announced the $5.54 billion investment five months ago; it includes plans to produce a variety of innovative Hyundai, Genesis and Kia electric vehicles (EVs) and a new battery manufacturing facility.

Coincidentally, the BMW Group also plans to add 8 production lines to its Leipzig manufacturing base by 2024 to increase the production capacity of electronic components.

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BMW

The plant’s existing two battery module production lines will be supplemented by another production line and five battery coating lines. This will be followed by two new high-voltage battery assembly lines that will start production in 2024.

This part of the battery, which needs to be reprocessed, will be manufactured by an external supplier that meets BMW Group specifications.

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electric vehicle production lines

First, the lithium-ion cells will be plasma-cleansed before being coated by the specially developed systems to ensure optimum insulation.

After being coated, the cells are assembled to form larger battery modules.

In Leipzig this is currently being done on two existing module lines.

A third is set to go on stream in the summer of 2023.

Once complete, the battery modules, connectors, control units and cooling aggregates are fitted into an aluminum casing.

The number of modules and the size and shape of the casing depend on which vehicle variant they will be used in, so that each vehicle is fitted with the most suitable high-voltage battery.

In the future, Plant Leipzig will also assemble high-voltage batteries when two designated assembly lines go on stream in 2024.

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electric vehicle production lines

The batteries made will power models such as the fully electric version of the MINI Countryman, which will also be built in Leipzig.

The importance attached by automobile brands to the production and manufacture of new energy lithium batteries also shows that the new energy industry is still in a stage of rapid development. The future of the new energy industry, which is called by the times, is still bright. We (Zesheng New Material Team) in this industry will also continue to grow and develop with the industry.

Because more car brands put into production of electric vehicle production lines, it means that there is a greater demand for many lithium battery raw materials such as NMP (1-methyl-2-pyrrolidone) solvent. This is good news for our company that focuses on the production and supply of NMP solvents for lithium battery factories. Looking forward to cooperating with more lithium battery factories that need NMP solvent for a win-win situation.

1.Coating process of lithium battery…

2.Will chemical injuries occur to people who work in NMP(1-Methyl-2-pyrrolidinone) or battery factory for a long time?

3.ZESHENG New Materials is participating in MIC’s SMART EXPO.

4.Talking about the binder SBR in negative materials as opposed to NMP (1-Methyl-2-pyrrolidinonee) solvent

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