A key advantage of colloidal solid electrolyte batteries is their exceptional quality, which is evident in their long service life. By forming a solid protective layer on the electrode plate, colloidal electrolyte prevents corrosion and reduces bending and short-circuits, especially under heavy loads. This protection also minimizes the possibility of active material from the electrode plate softening and falling off. The physical and chemical protection it offers ensures it can last 1.5 to 2 times longer than traditional lead-acid batteries, according to national testing standards. The specific gravity of the colloidal electrolyte is scientifically designed to prevent plate vulcanization. Furthermore, with over 550+ cycles under normal use, they demonstrate exceptional performance and longevity.
The use of this battery is not only safe but also beneficial to the environment. It does not emit any harmful acid mist gas, nor does it cause any electrolyte overflow or combustion, explosion or corrosion to the vehicle body. Moreover, it does not cause any pollution to the environment. This is because the electrolyte used in this battery is solid. Even if the battery's shell is accidentally damaged during use, there will be no leakage of liquid sulfuric acid. The battery will still function normally, making it a reliable and eco-friendly option.
A colloidal battery is an excellent option if your concern is efficiency and performance. It has a small self-discharge rate, which is beneficial for long-term storage. Additionally, it boasts high deep-discharge performance, which helps in improving the utilization rate of active substances and discharge capacity. Furthermore, it possesses a strong recovery ability from deep discharge and over-discharge, with charging capability exceeding the national standard by more than 50%.
Using the product is both rapid and convenient, and requires minimal maintenance. Its surface is spotless and free of any dirt. The electrolyte only requires filling once, and unlike acid solutions, it will not need to be maintained, leading to significant cost and energy savings.
The oxygen circulation design of the battery allows for easy diffusion of oxygen, which reduces the amount of gas precipitated during the charge and discharge process. This design promotes the reaction of the precipitated oxygen with the negative material, resulting in minimal water loss. In summary, the battery's oxygen circulation system helps prevent gas precipitation and reduces water loss during operation, making it a highly efficient and effective energy storage solution.
A major advantage of this product is its long shelf life. It has been designed with the ability to resist plate sulfation and minimize grid corrosion, which extends its storage life significantly. This heightened durability means that it can remain in storage for long periods of time, without compromising its performance when it eventually needs to be utilized.
The battery has a reduced self-discharge rate due to its ability to prevent the diffusion of water created during cathodic reduction and hinder the spontaneous reduction reaction of PbO. This lack of self-discharge leads to a longer lifespan for the battery.
One of the notable advantages of colloidal electrolyte is its excellent low temperature starting performance. Although sulfuric acid electrolyte is present in colloid, its internal resistance is only slightly larger. Moreover, the internal resistance of colloidal electrolyte remains relatively stable even at low temperatures. Thus, this feature ensures that colloidal electrolytes are highly suited to low-temperature starting applications.
One of the advantages of this battery is its high charging efficiency. This is due to special charging methods that fully activate the active substances within the battery, enhancing its capacity in the process.
The colloidal battery is an ideal choice for regions with extreme temperatures, especially the chilly weather of Northeast China. Its superior performance within a broad temperature range of -40 ~ 65 eliminates the difficult startup issues associated with conventional lead-acid batteries in areas with high or low temperatures in northern China, rendering it an excellent solution for cold or hot weather environments.