Chemistry Matters: Safety in the Age of Choice
It's no secret that solar battery storage is important in today's world. Solar energy and wind farms are growing at unprecedented rates. The energy that's produced must be able to be stored for later use. Battery technology is often the answer. Whether needed for commercial, industrial, or even military purposes, batteries have become an integral part of the modern world. Fortunately, batteries are still being developed and designed in innovative and impressive ways.
Given how reliant modern technology is on batteries, it's not surprising that safety has become an issue of primary importance. Computers are everywhere, even in your pocket. As a result, batteries are too. You've probably heard horror stories about batteries catching fire or even exploding. Both Samsung and Tesla have faced these problems. Luckily, contemporary chemistry and battery technology have solutions. With the combination of cutting-edge battery systems and creative chemistry solutions, the battery has continued to advance and evolve in terms of both its safety and dependability.
Lithium Ferro Phosphate (LFP)
Unlike its lithium-ion counterpart, LFP batteries are non-toxic and feature excellent thermal stability. What does thermal stability mean? Simply, better thermal stability indicates a reduced tendency to overheat or catch fire. This is why you'll see LFP batteries used in hospitals and research facilities. They're significantly safer and more reliable.
LFP storage has become a staple for backup power. Because the batteries have long-term stability and can easily remain intact and functional. For over ten years, they're an ideal choice for backup systems. Of course, having the chemistry in place is essential, but every storage system needs to have an effective process for delivering that power and preserving integrity. This is where a batter management system comes into play.
Battery Management System (BMS)
A BMS can be challenging to engineer, but the basic concept is rather straightforward. First and foremost, they must be durable and dependable. This directly impacts their safety and dependability. You may have noticed that poorly constructed batteries are prone to corrosion. Additionally, they tend to be rather easy to ding or damage. This produces a less reliable storage option, and the result is often purchasing new batteries or worse. In some cases, the equipment that depends on the electrical storage may be harmed. This isn't something anyone wants to experience.
With corrosion-resistant materials and a tough construction, a BMS can provide reliable power for many years. Rechargeable batteries have become a much-needed part of modern industries. Schools, hospitals, and government buildings depend on backup power. Commercial and industrial facilities use battery-powered technology for their daily tasks. It's understandable that battery construction and the chemistry of energy storage have become common topics for articles and lecture series. It's a hot topic, and the field is only becoming more competitive.
No two industries are ever exactly alike. You've probably noticed that cellphones and laptops don't all have interchangeable batteries, as convenient as that would probably be. Electrical demands and specific energy needs vary a great deal. Naturally, this means storage systems must meet those requirements.
It's wise to look at your options carefully. Not all storage systems are created equally. Military, commercial, industrial, and residential specifications vary a great deal. Yet, whether you're on or off the grid, safety and dependability are still key factors.
If you're like to learn more about SimpliPhi and the innovations that are ongoing in today's energy storage solutions, you should speak with the experienced professionals at The PowerStore.