Lithium-ion (li-ion) batteries are increasingly common tools used in electrically powered devices across the globe. Li-ion batteries rapidly charge, last a long time and are capable of providing a tremendous amount of power. Everything from smart phones to power drills to electric cars depends on li-ion technology.
Li-ion batteries first rose to prominence in the late 1990s. The batteries are compact and easy to use, which is one reason that li-ion technology is one of the most popular types of industrial batteries in Jefferson, WI.
All batteries consist of three primary components: a positive electrode, an electrolyte and a negative electrode. Li-ion batteries advance these three components to create a dependable, easily rechargeable power source that routinely delivers high-quality energy results.
If you use li-ion battery technology on a daily basis to make your industrial operations run smoothly, you may be wondering how these amazing batteries are created, and what makes them tick. Li-ion batteries are actually deceptively simple in their construction and their operations.
What they’re made of
Li-ion batteries use lithium salt as an electrolyte. Lithium salt is a naturally occurring compound found most commonly in the deserts of Chile. Lithium salt is an extremely valuable substance that boasts a number of significant uses, including as an effective treatment for bipolar disorder.
Because they rely on organic salts as their electrolyte, li-ion batteries are much less environmentally damaging than traditionally constructed chemical batteries.
Graphite typically composes the negative electrode of most li-ion batteries. Commonly found in pencils, graphite is a highly conductive organic substance related to charcoal.
Positive electrodes are often composed of one of three substances: a layered oxide, a spinel or a polyanion. The type of material that’s used to create a li-ion battery’s positive electrode ultimately depends on the battery’s final application.
How they work
When a li-ion battery is being charged, electrical energy is transported from the positive electrode through the electrolyte to the negative electrode. While the battery is in use, that stored energy moves back through the lithium electrolyte to the positive electrode, where it discharges to the appliance using the battery.
This process only completely stops if the battery runs out of energy to transfer from one way to the other. Even if you switch off the appliance using the battery, the negative electrode will continue pushing electrical charge through the electrolyte, albeit at a much slower rate.
Since 1980, Remis Power Systems Inc. has been a premier provider of industrial batteries in Jefferson, WI. We are proud to provide each and every one of our clients with high-quality power solutions designed to meet their specific needs. Regardless of the type of energy system you need to make your desired industrial operations a reality, you can count on us to provide you with batteries specially designed to meet your needs. We sell both used and new industrial batteries. To learn more about our extensive inventory of commercial power systems, contact one of our friendly representatives today—we look forward to working with you soon!
Categorised in: Industrial Batteries
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