Exploring the truth about high capacity lithium batteries

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1. What is a high capacity lithium battery

We have stepped into a world of electricity. Running out of power seems like the worst nightmare. With a high capacity lithium battery, you will almost never encounter such problems. You may wonder why high capacity lithium battery is high in demand nowadays. Let&#;s step into the world of high capacity lithium battery and unlock the secret behind their revolutionary technology:

Click on the picture for product details of Tycorun 12V 100Ah lithium high capacity batter

 

&#; Key features

 A high capacity lithium battery has multiple cutting-edge features that make it stand out among its counterparts and make it suitable for an array of electronic devices.

• Energy Storage: High capacity lithium batteries are known as one of the most energy-dense batteries as they can store high amounts of energy.

• Long-Lasting: High capacity lithium-ion batteries are long-lasting, all thanks to their ability to sustain multiple charge/discharge cycles while keeping the capacity intact. The batteries cycles are between and cycle. When maintained properly, they can last even longer.

• Lower self-discharge rate: One of the most helpful features of a high capacity lithium battery is its ability to retain charge for longer when unused. In other words, they have a lower

  self-discharge rate

  , about 3.5% per month, so they are suitable for the devices used at subsequent intervals.

• Light in Weight: High capacity lithium batteries are light in weight, which is due to the energy density that is much higher than other types of batteries. Therefore, they are often found in portable devices.

• Quick Charging: Because of the presence of intelligent BMS, some high capacity lithium-ion batteries have very fast charging speeds and can withstand large charging currents.

• Safe to Use: These batteries come equipped with in-built safety features that prevent overcharging, overheating, damage and short circuits.

• High-Voltage: Due to the higher cell voltage of lithium-ion batteries, high-capacity lithium batteries generally have higher voltage output compared to other types of batteries.

• Compatible: Lithium-ion batteries are compatible with a wide range of devices. Therefore, they are readily available and widely used in several applications and devices.

• Environment Friendly: Lithium-ion batteries are one of the most environment-friendly batteries as they are devoid of harmful minerals like lead, cadmium, etc. Moreover, they can be recycled, which makes them a sustainable choice.

&#; Design purpose

High capacity lithium batteries are high capacity, smart, compatible and light in weight, high density. All of which makes them suitable to be a part of various devices. Below are the five common design purposes of high capacity lithium batteries:

• Electronic Vehicles or E-bikes and Electric Boats.

• Portable Electric Devices include laptops, smartphones, cameras, tablets and many more.

• Medical Equipment includes defibrillators, insulin pumps, portable oxygen tanks, etc.

• Energy storage equipment and systems, etc.

• Aerospace tools such as satellites, spacecraft, etc.

&#; Role of high capacity lithium battery in energy storage

Lithium batteries have low self-discharge rates, so they hold the charge for longer, even when the connected devices aren&#;t in use.

A high capacity lithium battery helps with frequency and voltage fluctuations when integrated into an energy source. When connected with a renewable energy source, e.g. solar panels, they store excess energy that is used in times of need. This, in turn, saves electricity costs for the users, making high capacity lithium batteries a top choice among them for all the right reasons.

2. What cylindrical lithium batteries have the highest capacity

Refer to the table below to find out different cylindrical lithium batteries arranged in a descending order of capacities, their names and their uses:

Name

Capacity mAh

Use

-

UPS batteries, electric toys, windmills.

-

LED lights, Solar lights, E-bikes.

-

Laptops, vapes, LED lights, electric cars.

700-

Electric toys, digital cameras, home electronics

 

3. What are the factors that affect the capacity of the battery

The capacity of a battery is actually the quantity of electrical energy that can be stored in it. Have a look at them here:

&#; Size: It&#;s simple math. The larger the battery, the higher the capacity, as with a larger size, more electricity are accommodated and hence the ability of the battery to store electrical energy increases.

&#; Chemistry: Battery chemistry has a direct effect on the capacity because different types of batteries have different energy densities. For instance, under the same volume conditions a lithium-ion battery offers more capacity than a lead-acid battery.

&#; Depth of Discharge (DOD): Depth of discharge (DOD) refers to the maximum power that is from the battery while ensuring normal power supply. Usually expressed as a percentage of the total battery capacity.

Generally speaking, the DOD of a brand new battery is 100%, and the capacity continues to decrease during use. When the DOD drops to 80%, the battery can be considered scrapped. Therefore, the number of cycles of a battery is based on DOD. A new lithium-ion battery has a cycle life of up to 4,000 times, which means it can cycle 4,000 times before the DOD drops to 80%. If during actual use, the battery cannot be cycled 4,000 times before the DOD drops to 80%, it may be that the number of cycles of the ladder battery or the battery itself is low.

&#; Age: The age of the battery is directly linked with its capacity as the latter fades with age.

&#; Charging Patterns: Batteries, when charged beyond or less than the cut off voltage, lead to a loss in capacity over time.

&#; Environment: The environment in which a battery is kept also plays a crucial role in the capacity. Corrosive environments, humid weather or extreme temperatures affect the battery capacity in a great way.

&#; Electrodes: Electrodes are a  crucial part of any battery. The material which an electrode is made up of directly affects the battery's capacity. For instance, electrodes made up of silicon will add to the battery's capacity as silicon itself is a high-capacity anode mineral.

&#; Temperature: All batteries come with a recommended temperature range by the manufacturer. So, keeping them at their desired temperature will pave the way for a higher capacity.

4. Is the higher lithium battery capacity, the better

No, this isn&#;t correct. You cannot simply categorize a lithium battery with a higher capacity as a better appliance choice because every appliance is different and has individual battery demands. So, a better lithium battery is the one that&#;s best suited to the needs of the appliance it&#;s connected to. 

5. What are the benefits of using a high-capacity lithium battery

High capacity lithium battery comes with several benefits. Hence, they are widely used in an array of appliances in homes as well as businesses. Here are the three key benefits of using a high-capacity lithium battery:

&#; High Run Time: As the name suggests, a high capacity lithium battery provides a longer run time in one go reducing the need to recharge frequently.

&#; Energy Storing Capacity: A high capacity lithium battery has the ability to store excess energy generated from renewable sources, which is used in times of blackout and power outage.

&#; Reduce the difficulty of thermal management: For the battery pack, the use of large-capacity lithium-ion cells can reduce the number of parallel connections, increase the consistency and energy density of the battery pack, and reduce the difficulty of thermal management.

6. Application scenarios of high capacity lithium battery

Nowadays, it&#;s almost impossible to function without high capacity lithium batteries as they&#;re a part of a number of devices such as:

• Electric vehicles, boats and bicycles

• UPS

• Energy Storage Systems

• Medical equipment

• Drones, aircraft and satellites

7. What is the difference between a high-capacity lithium battery and a low-capacity lithium battery

As the names suggest, the differences between high and low capacity lithium batteries are quite clear. Have a look:

Property

High Capacity Lithium Battery

Low Capacity Lithium Battery

Capacity

Higher

Lower

Size

Larger

Smaller

Application

Device with high energy demand

Devices with lesser energy demand

Cost

Higher

Lower

 

8. How to choose high capacity lithium batteries

Choosing the right high-capacity lithium battery requires careful assessment and calculations. Here is how you can pick the best one for your home or business:

• Calculate the energy demand of all the devices you&#;re going to power and then find the right capacity demand.

• Pick the battery chemistry that best suits your demands.

• Check the battery&#;s voltage beforehand and ensure it matches your device&#;s requirements.

• You must have enough physical space for placing the battery.

• Always prioritize quality over price, as the right battery decides the user experience of the devices.

9. FAQs about high capacity lithium batteries

&#; Is 80% maximum battery capacity bad

Ans: Apparently, 80% maximum battery capacity is not ideal. If a battery is equivalent to 80% DoD and is generally considered scrapped.

&#; How do i get my high-capacity lithium battery 100% back

Ans: Getting the 100% capacity back for a high capacity lithium battery is impossible. However, it&#;s better to take appropriate steps beforehand to increase the lifespan of the battery.

&#; What is the highest capacity of lithium battery

Ans: The highest capacity lithium battery is mAh (NCRG).

&#; Which lithium battery has a higher capacity

Ans: The square ternary lithium ion batteries that are usually a part of electric vehicles have reportedly the highest capacity ranging upto hundred ampere hours.

 

Related articles: power battery charge, battery power, charging 24V lithium battery

Curious about lithium forklift batteries?

Then you&#;re in the right place.

Because in this post, we&#;re going to cover everything you need to know about them!

That includes:

• Key differences between lithium-ion and lead-acid
• The major features, advantages, and benefits of lithium-ion
• What you need to be aware of before considering a switch to Li-ion
• Major lithium-ion forklift battery manufacturers
• How much lithium-ion forklift batteries cost
• And lots more&#;

Let&#;s dive in!

Is It Worth It to Buy Lithium Forklift Batteries?

The short answer is: If you are a medium to large-size operation running multiple shifts, lithium-ion forklift batteries could be a very good option for you.

Why?

Because even though lithium forklift battery prices are currently higher compared to lead-acid batteries, they offer a lot of cost-saving benefits in the long run.

Lithium forklift battery&#;s ROI is also often achievable within 36 months.

Overall, lithium-ion forklift batteries are 40% more energy efficient than lead-acid. And they&#;re 88% more efficient than diesel.

Lithium-ion batteries are designed to last longer, making them a good choice for operations where changing the battery is inconvenient.

They can also withstand extremely low temperatures without failing, making them ideal for outdoor applications.

Lithium-Ion vs. Lead-Acid Forklift Batteries

There are 2 basic power types (forklift batteries) for electric forklifts: lead-acid and lithium-ion.

But what&#;s the actual difference between these 2 technologies?

Lead-Acid Battery Chemistry

Lead-acid batteries have been the most common type of battery for a long time. Their technology goes back to the mid-s. Also called &#;wet cell batteries,&#; lead-acid forklift batteries are relatively inexpensive.

Lead-acid batteries generate electricity through an electrochemical reaction between lead plates and a mixture of 30 to 50% sulfuric acid and distilled water (called an &#;electrolyte solution&#;).

The components of lead-acid batteries include:

• Cells
• Bars
• Plates of lead dioxide
• Cables
• Electrolyte

To generate electricity, an electrochemical reaction occurs between the lead plates and the electrolyte solution.

The electrical ions flow from the sulfuric acid to the negative plate, generating electricity.

Lead-Acid Battery Charging

It takes longer to charge lead-acid batteries than it does lithium-ion. It&#;s mostly done through conventional charging, usually after a shift, using a low current for about 8 to 10 hours until it&#;s charged 100%. This longer charging is followed by 6 to 8 hours of cooling before using the battery again.

Conventional charging is mostly done overnight and is best for single-shift operations.

This also means lead-acid batteries don&#;t usually undergo opportunity charging. It can damage the battery quickly, wear it out quicker, and reduce its cycles.

Overall, lead-acid forklift batteries have a shorter lifespan: typically, 3 to 5 years (or between 1,000 and 1,500 charging cycles) under normal 40-hour week operations).

Lithium-Ion Battery Chemistry

Lithium-ion batteries have become more widespread in consumer electronics in the past few decades. Now, lithium-ion is becoming an increasingly popular forklift motive technology.

Lithium-ion forklift batteries are composed of the following:

• a cathode,
• electrolyte (lithium),
• anode,
• separator, and
• 2 current collectors (positive and negative).

To generate electric energy, different chemistries occur in lithium-ion batteries, with the most popular one for forklifts being lithium iron phosphate.

The anode and cathode store the lithium. When a lithium-ion battery is discharging, the electrolyte moves from the anode to the cathode through the separator carrying positively charged lithium-ions from the anode to the cathode.

When the battery is charging, the electrolyte liquid moves from the cathode to the anode through the separator, carrying negatively charged lithium-ions.

Lithium-ion batteries are easily charged through opportunity charging because they&#;re fast charging. This charging uses a specialized charger with a high current to charge the battery quickly.

Opportunity charging can be done on a need basis or when it&#;s most convenient, making lithium-ion batteries more efficient.

If maintained well, a lithium-ion forklift battery will last between 2,000 and 3,000 cycles or about 7 to 10 years of 300 workdays per year.

Lithium-Ion Forklift Battery Pros

Lithium-ion batteries can offer your operations increased efficiency.

The company is the world’s best High power output low voltage lithium battery wholesaler supplier. We are your one-stop shop for all needs. Our staff are highly-specialized and will help you find the product you need.

If the conditions are right for the investment, there is available space for charging, and your budget allows, several key factors may lead you to adopt this energy solution.

Increased Productivity

Lithium-ion forklift batteries take less time to charge than lead-acid batteries, which also need time to rest before they can be used again.

A lithium-ion battery can get fully charged in less than 2 hours and does not require a cooling-off period like lead-acid batteries.

Lithium-ion batteries can be charged in 15-30-minute spurts, called opportunity charging, allowing you to charge them during lunch, breaks, or anytime the forklift is idle for a few minutes. This allows multi-shift operations.

In addition, lithium-ion batteries can last longer on a single charge than lead-acid batteries.

Compared to lead-acid batteries&#; linear discharge curve, the lithium-forklift battery discharge curve is much flatter. This means that over a wide operating range, the voltage at the battery terminals changes very slightly, allowing the battery to hold more power even when almost fully discharged.

It can be used up to beyond 80% state-of-charge (SoC) but not to zero. When the SoC reaches zero, there may be a charge remaining in the battery, and further discharge may damage it.

With Li-ion, your fleet will benefit from lower downtime and increased productivity and throughput.

Opportunity Charging

Forklift battery charging is an important factor to consider.

You can top up lithium-ion forklift batteries during 15-30-minute breaks within the day (known as opportunity charging). While you can opportunity charge a lead-acid battery, it shortens the battery life.

Furthermore, lithium-ion batteries can fully charge in as little as 1 hour or a maximum of 2 hours. That&#;s 8 times quicker than a lead-acid battery, without the need for cooling down time.

This is why it&#;s possible for 1 lithium-ion battery to power three shifts. They store 4X more energy and are 30% more energy efficient.

Less Maintenance

Like forklift maintenance, forklift batteries also require maintenance.

If lead-acid batteries aren&#;t maintained properly, they undergo a chemical process called battery sulfation. This can cause them to break down. Thus, you must maintain their level of water and electrolyte, topping up the battery with distilled water regularly to maintain its health. Maintenance can be time-consuming and costly.

This is different in lithium-ion batteries, which require little to no maintenance.

Lithium-ion batteries don&#;t need to be topped with water and do not require any such frequent maintenance procedures, such as equalizing charging and cleaning.

They come equipped with sealed cells that you don&#;t have to wash or add water to keep the batteries operational. This also reduces maintenance labor and costs.

Also, depending on your operation you don&#;t have to remove or swap batteries within your workday because a Li-ion battery can remain inside the forklift longer.

No watering, removing the battery, or other maintenance also means no watering areas or maintenance areas, which saves facility and storage space.

Energy Efficient

Lead-acid batteries bleed energy while discharging, charging, or sitting idle, leaving only about 80% of the energy used for charging the battery available as the output. This makes lead-acid batteries energy inefficient and adds up electricity costs.

On the other hand, lithium-ion batteries are more energy efficient because they have minimal losses, leaving most of the energy used for charging available as an output, sometimes up to 99%.

So, lithium-ion batteries can help you reduce electricity costs because they provide more output owing to minimal energy losses.

Supports Multi-Shift Operations

If your operations last 16 or 24 hours a day, battery charging times are crucial for smooth operations.

Why?

A typical battery discharges in about 6 to 8 hours.

This is where there&#;s a key difference between lead-acid forklift batteries and lithium-ion forklift batteries.

A typical lead-acid battery requires about 8 hours to charge, followed by 8 hours of cooling. This is about 16 hours before the battery can be used again.

So, you may need 2 to 3 lead-acid batteries per forklift for a multi-shift operation or you&#;ll experience downtimes.

A lithium-ion forklift battery gets fully charged in 2 hours or less and does not require a cooling-off period. Plus, you can charge your Li-ion battery in 15-30-minute spurts, called opportunity charging.

This allows charging top-ups during breaks or anytime the forklift is idle and supports multi-shift operations with just 1 battery per forklift.

Better Safety

Forklift battery safety is an important factor in forklift operation. OSHA data shows that most battery-related incidents occur during battery moving or watering.

Since lead-acid batteries are composed of 2 high-risk chemicals- sulfuric acid and lead &#; they pose a safety hazard to operators and the environment. Sulfuric acid can contact and burn the skin or eyes of workers requiring PPE like splash-proof goggles, acid-resistant aprons, face-shield, and rubber gloves.

Lead-acid batteries are also highly explosive and risk explosion while being charged, especially if the charging room isn&#;t well-ventilated. Among other measures, you also need to install hydrogen sensors in your lead-acid battery storage and charging room(s).

Lithium-ion forklift batteries are different.

Lithium-ion batteries are much safer than lead-acid batteries because they don&#;t pose as many health risks/hazards.

They&#;re completely sealed and operators don&#;t have to open the battery compartment for watering, reducing the danger of electrolyte spills, toxic fumes, or sulfation like in lead-acid batteries.

This also means no PPE is required, reducing the cost of operation and warehouse safety.

In addition, there&#;s no getting hot with Li-ion batteries because they don&#;t overheat. Maybe their heat reaches 5 to 6 degrees warmer only.

Less Charging Equipment Required

If you&#;re using lead-acid batteries, you may need multiple of them per forklift during operations. This may also require you to save their additional storage space.

Additionally, you&#;ll need to ensure a safe storage environment, away from hot air ducts and other heat sources, away from direct sunlight, and well-ventilated. You must also follow a safe charging process to avoid acid spills or leaks that can cause burns, corrosion, and other hazards.

All these guidelines require trained personnel and resources. But lithium-ion batteries are easy to charge and require little to no maintenance. You don&#;t need additional storage infrastructure as you don&#;t need multiple batteries per forklift.

Higher Return on Investment

Lithium-ion forklift batteries last longer than lead-acid batteries.

Whereas a lead-acid battery might last 1,500 cycles under good maintenance, a lithium forklift battery lifespan can last between 2,000 and 3,000 cycles.

Intermittent charging of a few minutes (for instance, 15 to 3 minutes) reduces the lifespan of lead-acid batteries but does not reduce the lifespan of a Li-ion battery.

And, if running lithium-ion batteries in a forklift for 3,000 hours per year, you could achieve an ROI in less than 36 months.

How?

• You don&#;t need to buy extra batteries (for changeovers) because they charge quickly (allow opportunity charging. This also saves facility space.
• You don&#;t need more charging stations. Lithium-ion chargers are very small compared to lead-acid, saving on facility space.
• Opportunity charging and fast-charging without damage. You can top up lithium-ion batteries during 15-30-minute breaks (known as opportunity charging). While you can charge a lead-acid battery, it can burn it up and shorten the battery life.
• Less downtime. Opportunity charging helps reduce downtime and increase your fleet&#;s performance. Also, lithium-ion forklift batteries last 4X longer than lead-acid batteries, increasing your efficiency.

Lithium-Ion Forklift Battery Cons

There aren&#;t many downsides to lithium-ion forklift batteries. But, no solution is 100% perfect. So, here are the top drawbacks of lithium-ion forklift batteries.

Higher Cost of Acquisition

To be frank, the key con to lithium-ion batteries is the price.

To purchase a lithium-ion forklift battery, you&#;ll pay $17,000-$20,000 per battery (on average).

The upfront cost of acquiring a lead-acid battery is lower than a lithium-ion forklift battery. The initial investment for a lithium-ion forklift battery may be as much as twice that for a lead-acid battery.

Greater Demand on Electrical Infrastructure

Since Li-ion battery charging is faster, they also require higher input current.

You may need to undertake an energy audit on your facility to understand if you need to revamp your electrical infrastructure to efficiently charge Li-ion forklift batteries.

This will also be a large one-time cost of adopting the Li-ion batteries to power your forklifts.

Hazardous Disposal

Lithium-ion batteries can present various risks or hazards when not handled properly.

This is why the U.S. Department of Transportation monitors the handling, transferring, documenting, and lithium forklift battery disposal.

To safely recycle a lithium-ion forklift battery, it must first undergo a range of safety measures. You can work with your local forklift dealers like Conger to determine where to take your lithium-ion forklift battery for proper disposal.

How to Determine if Lithium-Ion Is the Right Fit

In material handling operations, efficiency and productivity are 2 important keys to success.

Why?

There is only so much time in the day. So, whenever you can find a way to do more in less time, you&#;ll gain a competitive advantage.

Can a lithium forklift battery offer you that? Here&#;s what to consider.

Do You Run a Multi-Shift Operation?

Multi-shift applications such as manufacturing, 3PL, food processing, and other 24/7 material handling operations benefit most from lithium-ion batteries. They can use just 1 lithium-ion battery per truck.

Busy, multi-shift operations gain the biggest benefits of switching to lithium-ion forklift batteries

Their only complaint is: we should have switched sooner.

For these multi-shift operations: lithium-ion batteries may be able to pay for themselves in as little as 36 months. For single-shift operations, lithium-ion forklift batteries the ROI timeframe can be longer &#; 5 years or more.

Do You Have a Freezer/Cold Storage Environment?

Lead-acid batteries don&#;t handle cold or freezing conditions well. Their capacity can decrease up to 35%.

Lithium-ion forklift batteries maintain their capacity in cold temperatures much better than lead-acid batteries and can be fast-charged in cold temperatures, even inside freezers.

So, operations, where forklifts operate in cold/freezing environments, can quickly benefit from lithium-ion forklift batteries.

Do You Operate On Tight Margins?

If you&#;re operating in tight margins, you&#;ll benefit from switching to lithium-ion forklift batteries. Why?

When you switch to lithium forklift batteries, you can reduce energy bills, reclaim real estate and improve productivity. These changes are immediate.

Lithium-ion forklift batteries can be 40% more energy efficient than lead-acid batteries, and 88% more efficient than diesel.

So, lead-acid forklift batteries might be cheaper upfront but are more expensive to own and maintain.

Increased productivity and lower energy bills are just 2 key money-saving reasons to start using lithium-ion forklift batteries.

How to Convert Your Forklifts to Lithium-Ion Batteries

There isn&#;t anything special required to switch from lead-acid to lithium-ion batteries.

The only retrofit requirement for installing a new Li-ion battery onto the forklift and adding the charge meter to your charging area.

But you need to consider some things before, during, or after the lithium forklift battery installation:

Consider the Weight

Most counterbalanced forklifts comprise the battery&#;s weight as a component for determining load capacity. With a lighter-weight lithium-ion battery, you may need to add counterweights to maintain a forklift&#;s nameplate capacity.

You can also consider changing the specified lifting capacity to accommodate the weight of your new light Li-ion battery. Read more about forklifts in this Toyota Forklift Models: The Complete Guide [FREE Model List].

Consider the Voltage

You need to check, and possibly change the forklift&#;s battery bank&#;s charge voltage. Where a low charge voltage will result in incompletely charged forklift batteries, an overly high charge voltage will potentially push the lithium-ion battery outside its permitted operating conditions.

Also, use shunt based, battery monitoring, not voltage based. What does this mean?

Some battery monitoring products use voltage measurement for measuring battery status. In the case of lithium-ion batteries, this can lead to unreliable readings, potentially resulting in deep discharges. So, use only shunt-based (ah counting) monitoring devices that contain a Lithium battery type setting.

Consider the Amp-Hours

Amp-hours measure how much electrical output a battery has.

Not every battery has the same amp-hour capacity. And, not every forklift model requires the same amount of amp-hours. So, it&#;s key to ensure a match between the lithium-ion and forklift amp-hours.

Consider Culture Change

To get the most out of your Li-ion forklift battery, train your operators to rigorously employ opportunity charging. Whenever the forklift is scheduled to be idled for some amount of time, they should remember to plug it in!

Lithium Forklift Batteries: Everything Else You Should Know

The Top Lithium Forklift Battery Manufacturers

1. DEKA: Manufactures lithium-ion batteries backed by East Penn Manufacturing.
2. Flux Power: Flux Power specializes in the design, manufacture, distribution, and support of lithium-ion battery packs.
3. Exide: The largest battery manufacturer in the world, especially lead-acid batteries. It also manufactures Li-Ion batteries through subsidiaries like Exide Leclanche Energy Private Ltd.
4. SBS (Storage Battery Systems):  Renowned for providing DC power solutions for a wide range of applications. Its product line includes lithium-ion batteries, sealed VRLA strings, flooded battery cells, Ni-Cad jars, and more.
5. JB BATTERY: Offers a wide range of lithium iron phosphate (LiFePO4) batteries for electric forklift trucks, each engineered to deliver a high cycle life.
6. Crown Battery. Based in Fremont, Ohio, Crown Battery produces Li-ion batteries alongside other products like deep cycle, starter, and lead-acid batteries, for various industries.
7. Green Cubes Technology. Founded in and headquartered in Kokomo, Indiana, this manufacturer designs and manufactures lithium-ion battery systems for motive, medical, industrial, and ground support equipment.
8. SAFT: Specializes in advanced technology battery design for transport, sea, industry, and defense. Today SAFT offers a wide range of more than 20 types of industrial batteries, including lithium-ion batteries, compact nickel batteries, and lead-acid batteries.
9. OneCharge: Manufactures lithium-ion forklift batteries, chargers, and accessories for Class I, II, and III lift trucks since . The company has over 600 types of lithium-ion batteries for different types of electric forklifts and other industrial trucks.
10. BSLBATT. Headquartered in Huizhou, China, this is the first lithium-ion forklift battery manufacturer in China for lift trucks, ground support equipment, aerial lifts, and other equipment.

The Main Lithium Forklift Battery Types

There are multiple types of lithium forklift battery types available in the market.

They depend on the type of cathode material used in them. The common lithium forklift battery options include:

• Lithium cobalt oxide
• Lithium manganese oxide
• Lithium iron phosphate (LFP)

Lithium iron phosphate (LFP) is the most popular lithium forklift battery type in the modern material handling industry. It offers higher safety, and current and has a lower environmental impact than other types of lithium-ion batteries.

Lithium Forklift Battery Sizes

Selecting the right battery size is essential to ensure that your forklift can perform at its peak.

There are many different forklift battery sizes, depending on your lift truck&#;s size, brand, make, and model. In general, the larger the forklift you operate, the larger the battery size.

Often, you can find the size displayed on the battery&#;s nameplate. If it&#;s missing here, check the cell connectors nearest to the positive terminal, where you&#;ll find the model number, serial number, and weight.

When selecting the battery, consider the lithium forklift battery weight against the forklift model.

Overall, forklift batteries can weigh 600 lbs. to 5,000 lbs.+ for the biggest electric lift trucks.

Important Lithium Forklift Battery Specs

There are some important battery specs you may want to look out for when shopping for a lithium-ion forklift battery:

• Type of forklift truck it will be used on (different classes of forklift types)
• Charging duration
• Charger type
• Amp-hours (Ah) and output or capacity
• Battery voltage
• Battery compartment size
• Weight and counterweight
• Operating conditions (e.g. freezing, high-intensity environments, etc.)
• Rated power
• Manufacturer
• Support, service, and warranty

Lithium Forklift Battery Charging

Fully charging a lithium-ion forklift battery from zero to 100% takes just under 2 hours.

The charge and use cycle for a lithium forklift battery is a 1 to 1.2-hour full battery charge, 8 hours of use, and another 1 to 2-hour full battery charge.

Also, the Li-ion forklift battery should always be left on charge (or charged) when not in use. It won&#;t overcharge because of the onboard computer controllers that monitor charging and will shut it down once it&#;s charged.

Required Lithium-Ion Forklift Battery Charging Equipment

The key aspects of Li-ion forklift battery charging are:

• Check whether you&#;re using the right charger with the right power output. Lithium forklift battery chargers are specialized.
• Some lithium forklift battery chargers are the size of a shoe box and can weigh as little as 20 lbs. This allows them to be placed wherever an operation runs power and is most convenient.
• The small size of stand-alone or wall-mounted lithium battery chargers means a smaller footprint and easy relocation.
• Check the voltage range (12V, 24V, 36V, 48V, 72V, and 80V).
• Make sure the lithium battery charger is programmed to provide the recommended Ah output corresponding to the battery capacity and charging rate.
• If the lithium battery has a dual plug, it can be charged in half the time but this requires special charger models.
• Check and ensure that the facility&#;s electric infrastructure can safely supply enough power to support the forklift charging.
• Check charger cables are in good working order. Also, check if the connectors are damaged or cracked. If so, they&#;ll need to be replaced.
• Lithium-ion batteries don&#;t require water checking.
• Clean the battery once a month as chemical build-up can corrode the tray and void the warranty
• Lithium forklift batteries don&#;t need cooling after charging.

The Charging Process for Lithium-Ion Forklift Batteries

1. Park the forklift truck in a designated place.
2. Set the parking brake.
3. Turn off the forklift.
4. Wear the right PPE.
5. Check and make sure the charger is turned off.
6. Plug the charger into the forklift, and turn it on (you can plug it in with 2 hands).

For a full charge, let the battery charge for up to 1 ½ to 2 hours until it&#;s fully charged.

For opportunity, charge and remove the charger once your break is finished (after 10 to 45 minutes). Opportunity charge is the quick charge during breaks, shift changes, or determined by the shift schedule (but doesn&#;t have to be scheduled).

Lithium forklift batteries have a battery management system (BMS) that controls their every aspect: amperage, voltage, and temperature. So, once the battery is plugged into the charging system, the BMS ensures that it charges safely.

Lithium Forklift Battery Maintenance Requirements

Lithium forklift batteries are virtually maintenance-free. They don&#;t require constant watering, equalization charging, or cleaning.

But they&#;re not completely &#;set and forget&#; either.

Here&#;s a simple lithium forklift battery maintenance checklist:

• Do not leave Li-ion batteries unused for extended periods, either in the forklift or in storage.
• When a Li-ion forklift battery has been unused for 6 months or more, check the charge status and then charge or dispose of the battery as appropriate.
• When using the Li-ion forklift battery, routinely check its charge status.
• Always follow the appropriate charging instructions provided by the Li-ion forklift battery manufacturer as contained in its product&#;s user manual.
• You will not need to perform a lithium forklift battery equalization charge.
• You will not need to install a lithium forklift battery watering system because it&#;s sealed.
• Never recharge or use a battery that&#;s been damaged, and don&#;t expose one to high heat.
• Closely monitor your lithium forklift battery nearing its end of estimated life to avoid attempts of charging damaged batteries.
• Consider replacing the lithium battery if you note that its run time drops below about 80% of the original one or that its charge time increases significantly.

Lithium-ion batteries have no serviceable parts inside, so don&#;t try to tinker with one. If you think your lithium forklift battery needs replacement, contact a reputable vendor like Conger Industries for help.

Lithium Forklift Battery Storage

Here are some important considerations for lithium forklift battery storage:

• Never store lithium-ion forklift batteries when they&#;re fully charged or fully discharged. Instead, discharge or charge the battery to approx. 50% capacity before storage.
• If stored for a long time, charge the lithium-ion forklift battery to about 50% capacity at least once every 6 months.
• Store a forklift battery separately from the forklift (remove and store separately).
• Store the lithium-ion battery at mild, dry temperatures between 41 °F and 68 °F (5 °C and 20 °C), not at high temperatures.
• Store lithium batteries away from sunlight, heat, and humidity.
• Keep the storage area well-ventilated and dry, and maintain the temperature relatively steady.
• When stored, keep the lithium battery&#;s terminals from touching and not in contact with any metals or other battery terminals. Use battery terminal covers where applicable.
• Separate batteries by age and type. This helps prevent the ends from touching and keeps those near their end of life away from new ones.
• For maximum safety of your lithium battery, use a battery storage cabinet. It provides the needed environment for battery storage as well as insulation and fire suppression to prevent hazardous lithium-ion battery fires.

Frequently Asked Lithium Forklift Battery Questions

Do Forklifts Use Lithium Batteries?

More operations are using lithium-ion batteries to power their electric forklifts. Multi-shift applications such as food processing, manufacturing, 3PL, and other 24/7 material handling operations benefit most from lithium-ion industrial forklift batteries.

Operations where forklifts work in cold environments also quickly benefit from lithium-ion batteries. They can be fast-charged in cold temperatures (even freezers) and maintain their capacity in cold temperatures.

Although lithium batteries have a high initial cost, in the long run, you can save on the following in the long run:

• Longevity: A lithium-ion battery can last 2 to 4X longer than a lead-acid battery
• Energy bills: Lithium forklift batteries are 30% more energy-efficient and charge 8X faster than lead-acid batteries.
• Downtime: Lithium batteries can be opportunity-charged during operator breaks and don&#;t need to be swapped, saving downtime and longer run times.
• Labor costs: These batteries don&#;t require maintenance, watering, or equalizing.
• Productivity: Longer run times result in better efficiency and productivity.
• Real estate: With lithium forklift batteries, you can reclaim the charging area and use it for additional storage.

How Much Does a Lithium Forklift Battery Cost?

A lithium forklift battery can cost $25,000+ per battery. The costs range between $17,000 and $25,000 per forklift battery, more expensive than lead-acid batteries &#; about 2 to 2 1/2.5X more.

What Is the Biggest Advantage of a Lithium-Ion Forklift Battery?

Increased runtime and more productivity. This is because Li-ion batteries don&#;t lose power like lead-acid and since they can charge quicker (opportunity charge). But lithium-ion batteries are also cost-effective and return the RIO in the long run because of increased efficiency, reduced costs (electricity and labor), and improved productivity.

What Is the Biggest Disadvantage of a Lithium-Ion Forklift Battery?

The cost is the biggest downside of lithium-ion forklift batteries. And it may not make sense financially yet for smaller operations to switch to them. After all, a lithium-ion battery costs about $17,000 to $25,000 depending on manufacturer or use.

How Long Does It Take to Charge a Lithium-Ion Forklift Battery?

A lithium-ion forklift battery can charge up to 80% in an hour. But Li-ion batteries can also charge throughout the day in 15- or 30-min spurts or fully charge in 1 to 2-hour continuous sessions. Compared to the 8-hour charge time plus an additional 8-hour cooldown time for a lead-acid battery, lithium-ion batteries are more efficient.

Is It Okay to Leave a Lithium-Ion Battery on the Charger?

Leaving a lithium-ion battery on a charger is okay. The batteries generally have onboard computer controllers that monitor charging and will shut down once they&#;re charged. This helps stop overcharging.

Can a Lithium Forklift Battery Be Overcharged?

It&#;s possible for a lithium forklift battery to be overcharged, though it rarely happens. Lithium forklift battery charges to full charge in between 1 to 2 hours. Once plugged in, it won&#;t overcharge because of the onboard computer controllers that monitor charging and will shut it down once it&#;s charged.

Can a Lithium Forklift Battery Be Over-Discharged?

Most lithium-ion forklift batteries have a depth of discharge ranging from 80% to 100%. Avoid over-discharging a lithium battery because doing so can potentially cause individual cells to discharge at different states, resulting in the battery&#;s permanent damage.

What Is the Average Lithium Forklift Battery Operating Temperature?

Lithium batteries can operate in nearly any environment, with temperatures ranging from -4° F to 130° F. That said, the optimal operating temperature range is between 50° F and 110° F.

This allows the Li-ion forklift battery to operate at peak performance while preserving its longevity and function at the highest capacity for even up to 6,000 cycles. Because when you operate in extreme conditions &#; very cold or very hot &#; the battery starts to wear, shortening its life span.

Do Lithium Batteries Get Worse Over Time?

Lithium-ion batteries have a limited life span of about 2,000 to 3,000 charging cycles, while some go up to 6,000 cycles. They will gradually lose their capacity to hold a charge due to aging, and this is irreversible. As the Li-ion battery ages and loses capacity, the run time also decreases.

Can a Lithium Battery Last 20 Years?

Some lithium battery manufacturers are claiming that lithium-ion batteries can last 20 years. But given their limited adoption and use, the jury is still out.

What Kills a Lithium Battery?

Lithium batteries are naturally degrading. But they can sometimes die instantly. Heat is the leading killer of lithium batteries. High or low temperatures can kill lithium batteries. The effects of too much increased or reduced temperature can kill the battery&#;s cells and result in killing it entirely.

How Do You Prolong the Life of a Lithium Battery?

Here are some top tips for prolonging the life of your lithium forklift battery:

• Minimize exposure to high temperatures during use or storage
• Minimize exposure to low temperatures, especially when charging
• Use the correct battery charger when charging
• Avoid physical tampering or damage

Conclusion

That&#;s it: You now know everything you need to know about lithium forklift batteries.

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