Views: 239 Author: Lydia Publish Time: 2023-11-01 Origin: Site
With the rapid development of petroleum exploration and exploitation, electronic technology is widely used in petroleum instrument and equipment. Because the high temperature LiSOCL2 battery originally only has the United States, Canada and so on few countries to be possible to produce, our country mainly depends on the import. The import battery price is expensive, the supply cycle is long, occupies the capital to be many, already could not adapt the petroleum industry the rapid development. The high-temperature lithium battery produced by our company has been confirmed by the actual batch use of many units. All the technical indexes have basically reached the level of foreign products and can completely replace imported products.
In the realm of pipeline inspection or petroleum exploration, accuracy, reliability, and safety are paramount. Ensuring the smooth operation of pipeline inspection gauges is crucial to prevent potential hazards and costly downtime. One of the key components that contribute to the seamless functioning of these gauges is the battery pack. In this article, we will explore the importance of safe battery packs and the significance of employing the right connectors for pipeline inspection gauges, particularly in high-temperature environments.
The Safety Imperative:
Safety is of utmost importance when dealing with battery packs, especially in demanding conditions such as high-temperature environments. Battery packs that are not designed to withstand elevated temperatures can pose a serious risk, including overheating, leakage, or even explosion. To mitigate these risks, it is essential to utilize high-temperature ER (Extended Range) battery packs specifically engineered to operate safely and reliably in extreme temperature conditions.
High-Temperature ER Battery Packs:
High-temperature ER battery packs are specifically designed to withstand elevated temperatures while maintaining their performance and safety characteristics. These battery packs utilize advanced materials and construction techniques to ensure optimal functionality in demanding environments. The key features of high-temperature ER battery packs include: Working temperature range：-40℃--150℃,even 250℃; can be customzied to any size; high discharge current under high temperature.
High-temperature Lisocl2 battery packs employ innovative thermal management systems to dissipate heat effectively. This prevents overheating, ensuring the battery operates within safe temperature limits.
Enhanced Safety Measures:
Lisocl2 Battery packs designed for high-temperature environments incorporate safety features such as overcharge protection, short-circuit protection, and thermal runaway prevention. These measures minimize the risk of accidents and ensure the safety of personnel and equipment.
New applications for lithium batteries
With more and more people favoring green energy, the lithium battery market will become more and more diverse, with all types of lithium batteries in products becoming more and more commonly used. Several innovative applications have emerged in recent years that deserve our attention.
Over the last decade, urban transportation options have grown.
In response to drivers' carbon consciousness and government policies, manufacturers are bringing more phevs and bevs to market. As lithium-ion battery energy density rises, the issue for automakers is to handle longer range and more horsepower in a safe manner. So far, the lithium-ion battery 21700 and 32700 have demonstrated minimal space footprint in package design while also demonstrating remarkable performance in safety control. Based on the massive capacity of a single battery, the SER Power Battery has a discharge rate of more than 10C, providing tremendous power output in a short period of time to high-end sports cars and racing cars. This high level of strength also meets the needs of aerial vehicles, particularly the vertical take-off and landing (VTOL) segment. Furthermore, our power type lithium battery roadmap seeks to attain high charging rates of up to 3-4c, which will be another critical feature to assist EV manufacturers in improving charging times.
System for storing energy
The global energy system's pattern is rapidly altering. The move is from traditional fossil-fuel power generation to centralized distribution systems for renewable energy such as wind, solar, tidal, and thermal power. SER's battery energy storage system (Bess) converts everyday wind, solar, and tidal energy into electricity for storage, in order to use it when needed, the most common is to receive solar energy during the day, store it in a lithium-ion polymer battery storage system, and supply it at night with lithium-ion batteries, SER's lithium polymer b
One of the major trends in domestic appliance design is to make mobility the primary function of the user. While there are apparent advantages to switching from wired to cordless, product designers confront increasing hurdles due to restricted power supply and security concerns. The LiSOCL2 batteries from SER are ideal for this application. In the ER26500 and ER14250 batteries, the Power Battery family provides excellent power and discharge current, giving product designers with the finest choice for overall power and flexibility to switch between different function modes and usage times. The best proof of Ser LiSOCL2 battery is Intelligent Induction Lamp, Night Light.
Gardening and power tools
The lithium-ion battery market is dominated by plug-in power equipment and garden tools. Electric screwdrivers, electric wrenches, electric disinfecting sprayers, electric pruning shears, gardening scissors, and electric lawn mowers have entered thousands of households. Professional toolkits benefit greatly from SER's lithium-ion battery's concentration on large capacity and strong discharge current output. It has an ultra-high discharge rate of 10c-50c. The portable, safe, and high-power discharge properties of lithium-ion batteries and high-power Lipo batteries make them the most attractive.