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BYD Unveils World’s First High-Performance Sodium-Ion BESS with Long Blade Battery！ Following the launch of CATL's new-generation sodium-ion batteries, another EV giant, BYD, has now unveiled its high-performance sodium-ion BESS featuring the Long Blade Battery. This groundbreaking product, the MC Cube-SIB ESS, marks a significant milestone in energy storage, offering ultra-high energy density, exceptional safety, and a flexible module design. With an energy storage capacity of 2.3MWh and a voltage range from 800V to 1400V, BYD's innovative solution further strengthens the global push towards more sustainable and efficient energy storage technologies. The race to revolutionize energy storage continues! #EnergyStorage #SodiumIon #BYD #LongBladeBattery #Innovation #BIWATT

𝐒𝐨𝐝𝐢𝐮𝐦-𝐈𝐨𝐧 𝐁𝐚𝐭𝐭𝐞𝐫𝐲: 𝐌𝐚𝐫𝐤𝐞𝐭 𝐂𝐡𝐚𝐥𝐥𝐞𝐧𝐠𝐞𝐬 𝐚𝐧𝐝 𝐊𝐞𝐲 𝐈𝐧𝐝𝐮𝐬𝐭𝐫𝐲 𝐏𝐥𝐚𝐲𝐞𝐫𝐬 ➡️𝑪𝒍𝒊𝒄𝒌 𝒉𝒆𝒓𝒆 𝒕𝒐 𝒓𝒆𝒂𝒅 𝒕𝒉𝒆 𝒂𝒓𝒕𝒊𝒄𝒍𝒆: ➡️ https://lnkd.in/gZwnPXVy As the electric vehicle (EV) landscape evolves, the spotlight is increasingly turning toward alternative battery technologies. Sodium-ion batteries are emerging as a potential game-changer, offering a more cost-effective and abundant alternative to lithium-ion batteries. However, the journey isn't without its hurdles. From technological limitations to production scale-up challenges, this article dives deep into the current state of the sodium-ion battery market, highlighting the key players leading the charge and the obstacles they face in bringing this promising technology to the mainstream. Read more to understand how sodium-ion batteries could reshape the future of EVs. 🚗⚡ Contemporary Amperex Technology Co., Limited Faradion Limited HiNa Battery Technology Co., Ltd. Natron Energy BYD Sodion Energy #ElectricVehicles #SodiumIonBatteries #BatteryTechnology #EVInnovation #RenewableEnergy #Sustainability

 Exploring the #Solid-#State #Battery Market 🔍 The solid-state battery market is poised for significant growth, promising to revolutionize energy storage #technology. 🌐 Unlike traditional lithium-ion batteries, solid-state batteries offer higher energy density, improved safety, and longer lifespan. Key trends driving the market include: Technological Advancements: Innovations in materials and manufacturing processes are enhancing battery performance and efficiency. Electric Vehicle Revolution: Demand from the EV sector is accelerating adoption, as solid-state batteries offer longer range and faster charging capabilities. Environmental Impact: Sustainability concerns are driving investments in eco-friendly battery technologies, reducing reliance on rare earth materials. As the market expands, staying abreast of these developments is crucial for industry players and investors alike. #SolidStateBattery #EnergyStorage #ElectricVehicles #TechnologyInnovation #MarketTrendsTo access more details regarding this research, visit the following webpage:https://bit.ly/3seH2Nd

Order your Global Electric Traction Motor Market - Forecasts to 2029' FREE Sample Report via https://lnkd.in/eKsFMzq Exciting times ahead in the world of electronics, semiconductors, and ICT! Let's talk about the electrifying potential of global electrification initiatives and how they're set to supercharge the Electric Traction Motor market through 2029. As someone who's been immersed in this dynamic industry, we've witnessed firsthand the monumental shift towards electrification. From electric vehicles to renewable energy solutions, the demand for efficient and sustainable technologies is skyrocketing. And at the heart of this transformation lies the Electric Traction Motor, powering everything from cars to trains with eco-friendly gusto. With countries worldwide committing to ambitious carbon reduction targets, the momentum behind electrification is unstoppable. Initiatives like the Paris Agreement and national mandates are driving the rapid adoption of electric vehicles and renewable energy sources, creating a ripple effect across industries. In response, the Electric Traction Motor market is primed for exponential growth. By 2029, analysts project a surge in demand as electrification initiatives gain traction, paving the way for innovative advancements and market expansion. But it's not just about meeting environmental goals; it's also about unlocking new opportunities for innovation and investment. As companies race to develop cutting-edge technologies and infrastructure to support electrification, the potential for collaboration and disruption is immense. However, challenges remain, from supply chain constraints to regulatory hurdles. Yet, these obstacles are spurring creativity and resilience within the industry, fueling a spirit of innovation like never before. #GlobalElectricTractionMotorMarket #GlobalMarketEstimates #GME #Electrification #RenewableEnergy #Innovation #FutureTech #ICT #Semiconductors #ElectricVehicles #Sustainability

StoreDot has introduced its #XFCbatterytechnology wherein global players don’t need to compromise on energy density to achieve extreme-fast #chargingspeeds on near-future #EV models. Dan Corfas #solarenergy #renewableenergy #electricvehicles #sustainabletransport #EnergeticaIndia

BYD launches sodium-ion grid-scale BESS product Chinese EV giant BYD has launched what an executive claimed is the ‘world’s first high-performance’ sodium-ion BESS product, using its proprietary form factor Long Blade Battery cell. Posting on business networking site LinkedIn, BYD Energy Storage’s UK and Ireland head Kai Wang announced the launch of the company’s ‘MC Cube-SIB ESS’ product. He said it uses the company’s Long Blade Battery, has a ‘CTS super integrated design’, and is the world’s first high-performance sodium-ion battery energy storage system (BESS). He claimed it has ultra high energy density, exceptional safety standards and flexible module design. #BYD #EnergyStorage #SodiumIonBattery #BESS #CleanEnergyInnovation #LongBladeBattery #SustainableEnergy #GreenTechnology #FutureOfEnergy #HighPerformanceBatteries #EnergyDensity #BatteryInnovation #GridScaleStorage #RenewableEnergySolutions

The article explores the potential of sodium-ion, aluminum-ion, and iron-air batteries for electric vehicles. Sodium-ion batteries are gaining attention for their low cost, safety, and abundant resources, making them ideal for stationary energy storage. Aluminum-ion batteries promise higher energy density and faster charging through the use of aluminum but face challenges in electrolyte and cathode development. Iron-air batteries offer high energy density and cost-effectiveness, particularly for grid storage applications, but are still experimental. These emerging battery technologies provide a sustainable path away from reliance on rare metals, despite needing solutions for stability and scalability. #EnergyStorage #SustainableEnergy #BatteryTech #SodiumIon #ElectricVehicles #GreenEnergy

Did you know that a Lithium-Ion battery still has ~80% of its usable energy capacity remaining at the end of its life in electric vehicles (EV)? When an EV battery reaches the end of its first life, it can take three possible paths. 1️⃣ Repurposing - selecting and combining batteries for another application based on their residual state or capacity. 2️⃣ Refurbishing - disassembling batteries and repacking their single cells in new battery modules. 3️⃣ Recycling - extracting valuable metals in the battery and re-using them to make new batteries. Enter Second Life battery, an example of repurposing. It refers to a new, non-automotive use of an EV battery after its initial use in a vehicle. These are mostly stationary use cases like storage services in homes, businesses, or electricity grids. An interesting application is its usage in electricity vehicle charging stations. This approach has multiple benefits. ➡️ Reduction of carbon footprint by maximizing the utility of existing batteries before recycling. ➡️ Lowers the total cost of EV ownership by creating residual value from used batteries. ➡️ Provides affordable energy storage solutions for renewable energy systems. Repurposing requires accurately assessing the health of used battery packs which is technically complex. This gets further complicated due to a lack of standardization in EV battery designs, sizes, and chemistries (remember the industry lacks interoperability). Despite these challenges, this market is growing at 43.9% CAGR and is estimated to reach USD 28.17Bn by 2030. Some of the interesting companies in this domain are B2U Storage Solutions and Refurb Battery - we will talk about them in future posts. Data sources - US Department of Energy, PR Newswire Do you think this will drive the adoption of EVs further? Please share your thoughts in the comments. 💭 I write about emerging technologies and trends in the climate space, with an aim to create urgency around climate change. Follow me if you like the topic. #ClimateTech #Sustainability #ElectricVehicles #Innovation #TechTidbits

Breakthrough Cathode Could Transform Electric Vehicles and Energy Storage Can a low-cost material reshape the future of EVs and energy storage? Researchers at Georgia Tech have unveiled a groundbreaking iron chloride (FeCl3) cathode for all-solid-state lithium-ion batteries. This innovation reduces cathode costs to a fraction—just 1-2% of conventional materials—while preserving performance. By pairing iron chloride with a solid electrolyte, the team created a battery system that enhances efficiency, safety, and energy capacity. This development could cut battery costs by 30-40%, making electric vehicles more affordable and revolutionizing large-scale energy storage. This breakthrough not only promises cheaper, more sustainable batteries but also strengthens supply chain stability, positioning the EV and energy storage markets for major advancements in the near future with 🔋 Affordable Batteries ♻️ Sustainable Energy 🚗 Driving EV Affordability Read more: https://lnkd.in/gVW3NxM3 Follow iRasus Technologies for more such Energy innovations happening across the world for a sustainable future. #BatteryTech #ElectricVehicles #EnergyStorage #Innovation #Sustainability #GeorgiaTech #sustainability #energy #CleanTech #batteryTech

🚀 Revolutionizing Two-Wheeler EV Batteries with Sodium-Ion Technology! 🚀 Introducing the latest advancements in sodium-ion batteries, a game-changer for sustainable and efficient energy storage! 🔋💡 Here’s a quick comparison of our cutting-edge sodium-ion batteries designed for two-wheeler EVs: Type: 26700/2600mAh/ 3C Charge rate/ 20C discharge rate Type: 32140/10Ah/ 3C Charge rate/ 20C discharge rate Type: 40140/15Ah/ 3C Charge rate/ 5C discharge rate Cycle Life: 3000 Why Choose Sodium-Ion Batteries? 🌟 Cost-Effective: Sodium is abundantly available, leading to lower production costs compared to lithium-ion batteries. Eco-Friendly: Sodium-ion batteries reduce reliance on scarce resources, making them a greener alternative. Safety: They offer improved safety characteristics, with lower risk of overheating and thermal runaway. Temperature Resilience: They perform excellently across a wide temperature range, ideal for diverse climates and applications. In Real-World Applications 🌍 For two-wheeler electric vehicles, these batteries provide remarkable benefits: High Discharge Rates: With discharge rates of up to 20C, sodium-ion batteries can deliver high bursts of power, perfect for acceleration and handling varying loads. Wide Temperature Range: These batteries function smoothly from -40℃ to as low as -20℃ to -10℃ for charging, ensuring reliability in both extreme cold and heat. Extended Lifespan: Cycle life of up to 3000 cycles means more mileage and fewer replacements, translating to long-term savings and reduced maintenance. With sodium-ion batteries, your two-wheeler EV can achieve exceptional performance and sustainability. Ready to power up your ride? Let’s embrace the future of green mobility together! 🌿🏍️ #SodiumIonBatteries #EVBatteries #TwoWheelerEVs #SustainableEnergy #GreenTech #Exliporc