Wholesale 3.1V 10Ah NaCR 32140 Sodium Ion Battery Cells

Author: Janey

Aug. 26, 2024

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Wholesale 3.1V 10Ah NaCR Sodium Ion Battery Cells

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Introducing our high-performance 3.1V 10Ah NaCR sodium ion battery cells, ideal for a wide range of energy storage applications.

As a leading manufacturer of sodium ion batteries, we offer top-quality products at competitive prices. Our NaCR cells excel in energy density, cycle life, and safety, making them the perfect choice for demanding applications.

Please visit our website for more information on this topic.

Key Features:

  • High Energy Density: Delivering exceptional power output and long runtime.

  • Excellent Cycle Life: Ensuring long-term performance and reduced replacement costs.

  • Superior Safety: Built with advanced safety features for reliable operation.

  • Fast Charging: Minimize downtime and maximize efficiency.

  • Wide Temperature Range: Operates reliably in various environmental conditions.

Applications:

  • Energy Storage Systems (ESS): Store excess renewable energy for later use, optimizing grid efficiency.

  • Uninterruptible Power Supplies (UPS): Provide reliable backup power for critical systems and equipment.

  • Grid-Scale Energy Storage: Contribute to grid stability and peak load shaving.

  • Industrial Applications: Power various industrial processes and machinery.


The rapid proliferation of portable electronic devices and electric vehicles has propelled the production of lithium-ion batteries to unprecedented levels. Major manufacturers are expanding their capacity to keep pace with the soaring demand. However, this surge in demand is accompanied by concerns over the depletion of lithium resources and subsequent price escalations.

Lithium, though vital for battery production, is a scarce element, constituting a mere 0.% of the earth's crust. Furthermore, its distribution is highly concentrated, with approximately 70% located in South America. This concentration poses significant challenges for the sustainable supply of lithium, especially considering the exponential growth in battery applications. In the foreseeable future, the reliance on lithium may become severely restricted, particularly if lithium-ion batteries are adopted for grid-scale energy storage.

In contrast, sodium offers a promising alternative. Abundant and widely distributed, sodium ranks sixth in abundance in the earth's crust. Its availability is not constrained by geographical limitations, presenting a distinct advantage over lithium. Na-ion batteries, leveraging sodium's ample availability, emerge as a compelling solution to address the looming resource constraints associated with lithium.

Beyond resource availability, sodium's affordability further enhances the appeal of Na-ion batteries. With sodium prices significantly lower than lithium, Na-ion batteries hold potential cost advantages, making them particularly suitable for applications in low-speed electric vehicles and large-scale energy storage systems.

In summary, Na-ion batteries represent a promising pathway to mitigate the resource constraints and cost challenges associated with lithium-ion batteries. Leveraging sodium's abundance and affordability, Na-ion batteries offer a sustainable and economically viable alternative for powering the future of portable electronics and electric vehicles, as well as facilitating large-scale energy storage solutions.

Application


1. Energy Storage Systems (ESS): Sodium-ion batteries can be used to store excess electricity generated by the grid, releasing it when demand is high to balance fluctuations in power supply and demand. This contributes to grid stability and reliability.


2. Integration of Renewable Energy: With the increasing deployment of renewable energy sources like solar and wind, the

intermittency of energy supply becomes a challenge. Sodium-ion batteries can store surplus renewable energy for use during periods of low generation, ensuring a steady energy supply.

intermittency of energy supply becomes a challenge. Sodium-ion batteries can store surplus renewable energy for use during periods of low generation, ensuring a steady energy supply.


3. Industrial Applications: Sodium-ion batteries can be utilized for energy storage in industrial equipment and processes,

especially in applications that require large energy reserves and frequent charge-discharge cycles.

especially in applications that require large energy reserves and frequent charge-discharge cycles.


4. Electric Vehicles: Although lithium-ion batteries dominate the electric vehicle market, sodium-ion batteries could offer a

cost-effective and sustainable alternatives, especially in certain developing countries.

cost-effective and sustainable alternatives, especially in certain developing countries.


5. Mobile Devices: Similar to lithium-ion batteries in mobile devices, sodium-ion batteries can power smartphones, tablets, and other portable electronics.


6. Microgrids and Remote Area Power: In remote areas lacking stable grid access, sodium-ion batteries can serve as part of microgrid systems, providing reliable power supply.


7. Emergency Backup Power: Sodium-ion batteries can act as backup power sources for critical facilities such as hospitals,laboratories, and communication facilities, ensuring continued operation during power outages.


8. Research and Development of Energy Storage Systems: Advancements in sodium-ion battery research and development can drive innovations for more efficient and durable energy storage technologies, fostering growth in the energy storage sector.

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Project

Technical Indicators

Dimensions

Diameter

33.2±0.2mm

High

140±0.3mm

Battery Weight

269±5.0g

Nominal Capacity

10.0Ah

Nominal Energy

31 Wh

Rated Voltage

3.1V

Operating Voltage

2.0-4.0V

Standard Charging Mode

0.2C constant current and constant voltage charging to 4.0V/0.05C cut-off

Standard Discharge Mode

0.2C constant current discharge to 2.0V cut-off

BOL_ACR

ACR&#;3mΩ

Energy Density

&#;120Wh/kg

Charging working temperature

-10~55&#;

Discharge working temperature

-30~55&#;

cycle life

25&#; 1.0C/1.0C cycle life

&#;cycles

25&#; 2.0C/2.0C cycle life

&#;cycles

45&#; 1.0C/1.0C cycle life

&#;800cycles


Sodium ion Battery

Sodium-ion batteries (Na-ion batteries) are a type of rechargeable battery that uses sodium ions as the charge carriers. Similar to lithium-ion batteries, Na-ion batteries store and release electrical energy through the reversible movement of ions between the positive and negative electrodes. Here is a brief overview of Na-ion batteries and their performance advantages:

 

For more Sodium-Ion Battery Cellsinformation, please contact us. We will provide professional answers.

  1. Abundance of Sodium: Sodium is more abundant and less expensive than lithium, which makes sodium-ion batteries a cost-effective alternative. This can contribute to lower manufacturing costs and greater accessibility of materials.
  2. Safety: Sodium-ion batteries are considered safer than lithium-ion batteries. Sodium is less reactive and poses fewer safety concerns, making Na-ion batteries potentially more suitable for certain applications, especially where safety is a critical factor.
  3. Similar Electrochemical Properties: Sodium shares similar electrochemical properties with lithium, allowing for the use of existing lithium-ion battery infrastructure and manufacturing processes. This makes it easier to adapt and integrate sodium-ion technology into existing battery technologies.
  4. Environmental Impact: Sodium-ion batteries are considered more environmentally friendly than some other battery technologies due to the abundance of sodium and reduced environmental impact during production and disposal.
  5. Performance: While sodium-ion batteries may not match the energy density of lithium-ion batteries, recent research and development efforts have made significant progress in improving their performance. Advancements in electrode materials and overall battery design aim to enhance energy density, cycle life, and overall efficiency.
  6. Applications: Sodium-ion batteries are being explored for various applications, including grid energy storage, electric vehicles, and portable electronic devices. Their cost-effectiveness and safety features make them attractive for large-scale energy storage solutions, where the abundance of sodium can be a significant advantage.

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