Product Features
▶ Excellent low-temperature performance, capable of operating normally even at -40°C;
▶ Extra-long lifespan, with up to 3,000 cycles and at least 100,000 start-stop cycles;
▶ Fast charge and discharge capabilities;
▶ Good stability and high safety;
▶ Environmentally friendly, with a smaller ecological footprint compared to lithium batteries.
Technical Description
Model No. |
BIO-ETX3 |
||
Voltage |
12V |
Capacity: |
2.6Ah |
CCA |
78A |
Self Discharge: |
< 3% per month |
Lifespan |
3000 cycles |
Start-stop Cycles: |
>100K times |
Ingress Protection |
IP65 |
Working Temp.: |
-40 ~ 70℃ |
Dimension |
70×113×87 mm |
Weight: |
1.11KG |
Tips About Sodium Battery
Introduction to Sodium-Ion Batteries as a Replacement for Traditional Powersports Batteries
Sodium-ion (Na-ion) batteries are emerging as a promising alternative to traditional batteries used in various powersports vehicles, including motorcycles, lawn mowers, lawn tractors, Jet-Skis, quads, scooters, UTVs, and snowmobiles. These vehicles demand reliable power sources that can handle tough conditions, and sodium-ion technology offers key advantages that may position it as a future solution in the powersports battery market.
Advantages of Sodium-Ion Batteries
Abundance and Affordability: Sodium is widely available, making sodium-ion batteries cheaper to produce compared to lithium-ion options. As demand rises for batteries in powersports applications like motorcycle batteries and lawn tractor batteries, sodium's abundance reduces material costs, making this technology a cost-effective alternative.
Environmentally Friendly: Sodium-ion batteries offer a greener solution compared to traditional lithium-ion batteries. They do not rely on scarce and ethically problematic materials like cobalt. This makes sodium-ion technology an environmentally sustainable choice for powering recreational vehicles such as Jet-Ski batteries and scooter batteries.
Safety and Durability: Sodium-ion batteries are generally safer, as they are less prone to overheating and thermal runaway, which are risks associated with lithium-ion technology. For vehicles like snowmobile batteries and quad batteries that are exposed to extreme environments, this improved safety is a key advantage, ensuring reliable performance in harsh conditions.
Performance in Extreme Temperatures: Powersports vehicles often operate in environments with fluctuating or extreme temperatures. Sodium-ion batteries perform better in cold or hot climates, making them suitable for vehicles like UTV batteries and lawn mower batteries that must endure diverse weather conditions.
Future Outlook for Sodium-Ion Batteries
The future of sodium-ion batteries in powersports applications is bright, though challenges remain. Currently, sodium-ion batteries have a lower energy density than lithium-ion batteries, meaning they hold less energy for their size. This could be a drawback for motorcycle batteries and other compact powersports applications where space is limited. However, researchers are working on improving this aspect of sodium-ion technology.
As sodium-ion battery technology advances, it has the potential to revolutionize the powersports battery market by offering an affordable, sustainable, and safe alternative to traditional options. In the future, Jet-Ski batteries, quad batteries, and UTV batteries powered by sodium-ion technology could provide an optimal balance of cost-efficiency, safety, and performance, supporting the industry's shift toward greener energy solutions.
Sodium-ion batteries offer significant advantages for powersports applications, including cost savings, environmental benefits, and enhanced safety. Though their lower energy density presents a current limitation, ongoing research and development in sodium-ion technology could soon make them a viable option for motorcycle batteries, lawn mower batteries, and other powersports vehicles. With their potential to drive both economic and environmental improvements, sodium-ion batteries could become a leading alternative in the industry.
Sodium-ion (Na-ion) batteries are emerging as a promising alternative to traditional batteries used in various powersports vehicles, including motorcycles, lawn mowers, lawn tractors, Jet-Skis, quads, scooters, UTVs, and snowmobiles. These vehicles demand reliable power sources that can handle tough conditions, and sodium-ion technology offers key advantages that may position it as a future solution in the powersports battery market.
Advantages of Sodium-Ion Batteries
Abundance and Affordability: Sodium is widely available, making sodium-ion batteries cheaper to produce compared to lithium-ion options. As demand rises for batteries in powersports applications like motorcycle batteries and lawn tractor batteries, sodium's abundance reduces material costs, making this technology a cost-effective alternative.
Environmentally Friendly: Sodium-ion batteries offer a greener solution compared to traditional lithium-ion batteries. They do not rely on scarce and ethically problematic materials like cobalt. This makes sodium-ion technology an environmentally sustainable choice for powering recreational vehicles such as Jet-Ski batteries and scooter batteries.
Safety and Durability: Sodium-ion batteries are generally safer, as they are less prone to overheating and thermal runaway, which are risks associated with lithium-ion technology. For vehicles like snowmobile batteries and quad batteries that are exposed to extreme environments, this improved safety is a key advantage, ensuring reliable performance in harsh conditions.
Performance in Extreme Temperatures: Powersports vehicles often operate in environments with fluctuating or extreme temperatures. Sodium-ion batteries perform better in cold or hot climates, making them suitable for vehicles like UTV batteries and lawn mower batteries that must endure diverse weather conditions.
Future Outlook for Sodium-Ion Batteries
The future of sodium-ion batteries in powersports applications is bright, though challenges remain. Currently, sodium-ion batteries have a lower energy density than lithium-ion batteries, meaning they hold less energy for their size. This could be a drawback for motorcycle batteries and other compact powersports applications where space is limited. However, researchers are working on improving this aspect of sodium-ion technology.
As sodium-ion battery technology advances, it has the potential to revolutionize the powersports battery market by offering an affordable, sustainable, and safe alternative to traditional options. In the future, Jet-Ski batteries, quad batteries, and UTV batteries powered by sodium-ion technology could provide an optimal balance of cost-efficiency, safety, and performance, supporting the industry's shift toward greener energy solutions.
Sodium-ion batteries offer significant advantages for powersports applications, including cost savings, environmental benefits, and enhanced safety. Though their lower energy density presents a current limitation, ongoing research and development in sodium-ion technology could soon make them a viable option for motorcycle batteries, lawn mower batteries, and other powersports vehicles. With their potential to drive both economic and environmental improvements, sodium-ion batteries could become a leading alternative in the industry.
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