Automotive

Why is LiFePO4 Battery the future of all vehicles?

A lithium iron phosphate (LFP) battery is a type of lithium-ion battery that charges and discharges at a faster rate. It is a rechargeable battery with a cathode of LiFePO4 and an anode of graphitic carbon with a metallic backing.

LiFePO4 batteries have a lower energy density and operate at lower voltages than lithium-ion batteries. They have a lower discharge rate and flat curves and are safer than Li-ion batteries. Lithium Ferro-phosphate batteries are another name for these batteries.

The history of LiFePO4 batteries

John B. Goodenough and Arumugam Manthiram invented LiFePO4 batteries. They were among the first to identify lithium-ion battery materials. Because of their proclivity for early short-circuiting, anode materials are unsuitable for lithium-ion batteries.

Scientists discovered that cathode materials are superior to lithium-ion battery cathodes. This is most noticeable in LiFePO4 battery variants. They improve stability and conductivity, as well as a variety of other aspects.

LiFePO4 batteries are now ubiquitous and have numerous applications, including use in boats, solar systems, and vehicles. LiFePO4 batteries do not contain cobalt and are less expensive than most alternatives. It has a longer shelf life and is non-toxic.

LiFePO4 batteries are made up of more than just connected cells. They also have a system that keeps the battery within safe limits. A battery management system (BMS) protects, controls, and monitors the battery while in use to ensure safety and extend battery life.

Despite being more tolerable, lithium iron phosphate cells are prone to overvoltage during charging, which reduces performance. The cathode material could potentially deteriorate and lose its stability. The BMS regulates each cell’s output and ensures that the battery’s maximum voltage is maintained.

Undervoltage becomes a serious issue as the electrode materials deteriorate. If the voltage of any cell falls below a certain threshold, the BMS disconnects the battery from the circuit. It also acts as a backstop in the event of an overcurrent condition and will shut down its operation if it is short-circuited.

LiFePO4 batteries are incompatible with wearable devices such as watches. They have the lowest energy density of any lithium battery. They are, however, best suited for solar energy systems, RVs, golf carts, bass boats, and electric motorcycles.

The advantages of LiFePO4 batteries

Low Cost 

LFP batteries are made from iron and phosphorus, mined on a massive scale and cheaply. LiFePO4 batteries are estimated to cost up to 70% less per kg than nickel-rich NMC batteries. Because of its chemical composition, it is less expensive. In 2020, the lowest reported cell prices for LFP batteries fell below $100/kWh for the first time.

Environmental Impact Is Minimal

LiFePO4 batteries do not contain nickel or cobalt, both of which are costly and have a significant environmental impact. These batteries are rechargeable, demonstrating their environmental friendliness.

Increased Productivity and Performance

Because of their long lifecycle, LiFePO4 batteries are a popular choice for applications that require consistent and reliable power output over time. These batteries lose capacity at a slower rate than other lithium-ion batteries, which helps to preserve their performance over time. They also have a lower operating voltage, which means less internal resistance and faster charge/discharge speeds.

Increased Security and Stability

LiFePO4 batteries are thermally and chemically stable, making them less prone to exploding or catching fire. LFP has one-sixth the heat output of nickel-rich NMC. Because the Co-O bond in LiFePO4 batteries is stronger, oxygen atoms are released more slowly if the battery is short-circuited or overheated. Furthermore, because fully charged cells contain no lithium, they are highly resistant to oxygen loss compared to the exothermic reactions seen in other lithium cells.

LiFePO4 batteries are approximately 50% lighter than lithium manganese oxide batteries. They weigh up to 70% less than lead-acid batteries. When a LiFePO4 battery is used in a vehicle, it consumes less gas and allows for greater maneuverability. They’re also small and compact, which means they’ll take up less space on your scooter, boat, RV, or industrial application.

Non-Lithium Batteries vs. LiFePO4 Batteries

Non-lithium batteries have several advantages, but they are likely to be phased out in the mid-term due to the potential of new LiFePo4 batteries, as older technology is more expensive and inefficient.

Batteries Made of Lead Acid

Lead-acid batteries may appear less expensive at first glance, but they are more costly in the long run. This is because they require more frequent maintenance and replacement. A LiFePO4 battery will last 2-4 times longer and requires no maintenance.

Batteries in Gel

Gel batteries, like LiFePO4 batteries, do not need to be recharged frequently and do not lose charge when stored. Gel batteries, on the other hand, charge at a slower rate. To avoid destruction, they must be disconnected as soon as they are fully charged.

AGM Battery

While AGM batteries are highly susceptible to damage when discharged below 50% capacity, LiFePO4 batteries can be completely discharged without risk of damage. It is also difficult to keep them going.

LiFePO4 Battery Applications

LiFePO4 batteries have a wide range of applications, including:

Fishing boats and kayaks: You can spend more time on the water with less charging time and longer runtime. In high-stakes fishing competitions, less weight provides easier handling and a speed bump.

There is no dead weight to slow you down on mobility scooters and mopeds. For spontaneous trips, charge your battery to less than full capacity to avoid damaging it.

Solar configurations

Take lightweight LiFePO4 batteries with you wherever you go (even up a mountain or off the grid) to harness the power of the sun.

Commercial applications

Because these are the safest and toughest lithium batteries available, they are ideal for industrial applications such as floor machines, liftgates, and more.

In addition, lithium iron phosphate batteries power various other devices, including flashlights, electronic cigarettes, radio equipment, emergency lighting, and other items.

Wide-Scale LiFePO4 Implementation Possibilities

While LFP batteries are less expensive and more stable than alternatives, a significant barrier to widespread adoption has been energy density. The energy density of LFP batteries ranges between 15 and 25%. This is changing with the use of thicker electrodes, such as those used in the Shanghai-made Model 3, which has an energy density of 359Wh/liter.

LFP batteries have more capacity than Li-ion batteries of comparable weight due to their long lifecycle. This means that the energy density of these batteries will gradually become more similar.

Automakers such as Ford, Volkswagen, and Tesla are increasingly using LiFePO4 technology to replace nickel or cobalt formulations. Tesla’s recent announcement in its quarterly update is just the beginning. Tesla also briefly updated the 4680-battery pack, which will have increased energy density and range. Tesla may also use “cell-to-pack” construction to condense more cells and accommodate lower energy density.

Despite its age, LiFePO4 battery cost reductions may be critical in accelerating mass EV adoption. Lithium-ion prices are expected to be close to $100/kWh by 2023. LFPs may allow automakers to emphasize factors other than prices, such as convenience or recharge time.

These batteries can outlast others by more than four times. They are safer and can reach up to 100% depth of discharge, allowing them to be used for a more extended period.

An Indian start-up is at the forefront of the LiFePO4 revolution

 

Indian start-up Su-svastika Solar has launched ESS Energy Storage Systems of variable capacities ranging from 10 KVA to 250 KVA, which can be put in series to increase the capacity size, say 5 units of 100 KVA can produce 500 KVA size ESS and the same way 4 no of 250 KVA capacity can produce 1MW of power.  

Since these units are run on Lithium batteries, the backup time can be increased through the sizing of the battery bank. If we need more back in time, we can increase the battery bank size accordingly. 

Since the battery bank is liFePo4 technology which has seen results in more than the last decade very successfully, it is safe and can be expected of a life cycle that no other battery technology has proven for more than a decade of usage.  

As the power cuts have reduced in Indian cities drastically over the last 5 years, the general usage requires 2 hours of continuous backup time. As the ESS gets charged quickly, it can keep giving you backup and charging, so it can give 4 to 6 hours of backup in case of power failure at different periods.  

Adriaan Brits

Adriaan Brits is a multi-sector analyst and business consultant with notable commentary on the S&P500. He loves to evaluate fast-movers and to be ahead of the trend.

Share
Published by
Adriaan Brits

Recent Posts

Air Ambulance Market 2023: Trends and Questions to Consider

As per the report published by The Brainy Insights, the global air ambulance market is…

2 hours ago

All You Need to Know About LEI Numbers: What Are They and How Can You Get One?

Every business, regardless of size, needs a Legal Entity Identifier (LEI) number. This number is…

8 hours ago

The Mnembar Atoll Tour Not Just For Water Sports Enthusiasts: It Includes A Visit To Nungwi

The Mnembar Atoll Tour is a secluded getaway that’s perfect for water sports enthusiasts. It…

8 hours ago

Giant Reign E+2 VS Magicycle Ebike SUV

Full-suspension electric mountain bikes are perfect for all ages, and no matter if you’re an…

8 hours ago

What are QuickBooks Support

QuickBooks is a popular accounting software designed for small and medium-sized businesses. It offers a…

9 hours ago

What is the concept of Coinbase Transactions on cryptocurrencies?

Transaction means dealing your assets on a particular value from one end to another. Similarly,…

9 hours ago