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Lithium-ion batteries are widely used in electronic devices due to their high

Mar 29, 2023   Pageview:315

It's crucial to understand how temperature can impact the safety and functionality of lithium-ion batteries. Li-ion batteries are used to power a variety of tools, including machinery, vehicles, and cutting-edge technologies. Low temperatures have a direct impact on the lithium-ion battery's internal temperature, which has an effect on the battery's performance and safety.

Low temperatures cause their internal resistance to rise and their usable capacity to decrease. Even at -20°C, Li-ion batteries function well despite having a limited capacity and the possibility of suffering permanent damage. Long-term battery damage and a significant reduction in capacity can result from use in cold temperatures.

What temperature is too low for Lithium-ion batteries' prospects and challenges?

Although lithium batteries can usually function in a wide temperature range, the precise operating temperature range may vary based on the battery's chemistry and design. A lithium battery can typically function at temperatures as low as -20°C (-4°F). Below this point, the electrolyte in the battery may freeze, causing harm that could result in the battery losing capacity or failing entirely.

Even though a lithium battery is capable of functioning at low temperatures technically, its efficiency and capacity might be affected. The chemical reactions inside the battery could be sluggish at cold temperatures, resulting in a drop in voltage and capacity. Runtime and power output may be reduced as a consequence.

Additionally, Lithium batteries can also sustain permanent damage at very high temperatures. Depending on the chemistry and design of the battery, a lithium battery's maximum operating temperature can vary from 60 to 80 °C (140 to 176 °F). The battery can become unstable and even combust or explode when temps rise above this range.

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How to increase lithium battery Efficiency in Low Temperatures.

Several techniques can be employed to increase a lithium-ion battery's efficiency at low temperatures, including:

Keep the battery warm: Keeping the battery warm is one of the best methods to maintain battery performance in cold weather. This can be accomplished by using a battery case with an integrated heater or keeping the battery in a warm location, such as a pocket near your body. 

Charge the battery at a greater temperature: The charging rate should be slowed down to prevent battery damage when charging a battery at low temperatures. However, charging the battery at a slightly greater temperature than the surrounding air temperature can speed up the process and enhance battery performance.

Regularly use the battery: Lithium-ion batteries can deteriorate over time, particularly if they are left sitting idle for long periods of time. Even in cold conditions, using the battery frequently can help keep it active and increase its lifespan.

Carefully preserve the battery: Lithium-ion batteries should be kept out of the sun and other sources of heat when not in use. This may lessen cell deterioration and increase battery life.

Lithium-ion battery thermal runaway temperature

Electric vehicles (EVs), electronics, and large energy storage systems have all seen an increase in the use of lithium-ion (Li-ion) batteries in recent years due to their extended lifespan, high energy density, and high power density, among other characteristics. However, internal or external faults such as thermal runaway that affect battery performance have the potential to cause severe safety issues. Due to its uncontrollable and irrevocable nature, thermal runaway poses a significant challenge to the Li-ion battery industry and poses a risk to public safety.

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When the battery cell's heat dissipation capacity is exceeded, thermal runaway begins. High temperatures often result in thermal runaway because they can cause exothermic cell reactions. The battery may be destroyed as a result of the reactions' increased production of heat, which can also cause worksite fires and explosions. 

If your company keeps a lot of lithium-ion batteries, you should be conscious of the problem of cascading thermal runaway. This happens when nearby battery cells that aren't directly connected to the damaged battery also perish from the high temps. This cascading effect of thermal runaway adds to the significant fire and detonation risks that the impacted battery cell already poses.

Cycles of thermal runaway process in Li-ion Batteries.

●Onset

The Joule heat is essentially consistent under thermal and electrical abuse, such as overcharging, up until the battery temperature exceeds a point known as the onset temperature (T-onset). 

●Acceleration 

The reactive part of the anode is first made susceptible to exothermic interactions with the electrolyte as a result of solid-electrolyte interface decomposition. Due to the declining SEI, the electrolytes are concurrently oxidized and reduced at the anode. At this point, self-heating starts to become noticeable and increases almost linearly as the temperature rises. 

●Runaway 

The cells reach Stage 3, also known as Thermal Runaway, as a result of continued heating. The rate of cathode and anode reactions increase, and this self-propagating process causes the temperature of the cell to rise quickly. Internal arcing, flame, or a quick decomposition of the components could happen.

●Damage

The battery will inevitably be destroyed due to thermal runaway.

Battery operating temperature range

Any lithium battery will stop charging immediately when the temperature drops below zero. However, batteries do not freeze and will continue to drain in such conditions. Before charging, the battery needs to be warmed up to a more comfortable temperature.

Heat is by far the worst enemy of battery life, second only to the harm that cold temperatures can do to batteries, and it's not just about limited to lithium cells. Any battery operating at a high temperature will experience power loss more quickly than one operating at room temperature. This is why lithium battery chargers stop working around 115° F, just like they do at incredibly low temperatures.

To claim that there is a precise temperature that is too high or too low for Li-ion batteries to operate is merely unscientific. The battery can perform at its best while maintaining its longevity and ability to operate at its maximum capacity for 3,000 cycles in a range from 50° F to a high end of 110° F.

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