BU-705a: Battery Recycling as a Business

Consider a new business but find out the return



Batteries are expensive and have a relatively short life span. As discarded batteries grow by the tonnage, entrepreneurs are enticed to start a business in recycling. With an annual world market (2015) of $33 billion, lead acid is the most common battery in use. This is followed by Li-ion at $16.6 billion, NiMH at $2 billion and NiCd at $1 billion. All other chemistries only make up $1 billion. Table 1 lists the material cost per ton to build these batteries.



Battery Chemistry Metal value (per ton)* Recycling Table 1: Metal value per ton of battery. Lead acid remains the most suitable battery to recycle; 70% of its weight contains reusable lead.



* 2017 Reference prices only; purity and supply govern value. Lithium cobalt oxide $25,000 Subsidy needed Cobalt $50,000 Relevant, subsidy Lithium iron phosphate $400 Subsidy needed Lead acid $1,500 Profitable Nickel $10,000–$17,000 Subsidy needed Cadmium $2,200 Subsidy needed



Lithium-ion batteries are expensive to manufacture and this is in part due to the high material cost and complex preparation processes. The most expensive metal of most Li-ion is cobalt, a hard lustrous gray material that is also used to manufacture magnets and high-strength alloys.



Knowing that billions of Li-ion batteries are discarded every year and given the high cost of lithium cobalt oxide, salvaging precious metals should make economic sense and one wonders why so few companies recycle these batteries.



The reason becomes clear when examining the complexity and low yield of recycling. The retrieved raw material barely pays for labor, which includes collection, transport, sorting into batteries chemistries, shredding, separation of metallic and non-metallic materials, neutralizing hazardous substances, smelting, and purification of the recovered metals.



Lead Acid

Recycling programs for lead acid are said to have started soon after Cadillac introduced the cranking motor in 1912 as a for-profit business rather than protecting the environment. Recycling can be harmful, especially with lead acid batteries. Lead can enter the body by inhaling or ingestion when touching the mouth with lead-contaminated hands. This puts workers and residents of the surrounding areas at risk of lead poisoning. ( See BU-703: Health Concerns with Batteries )



The EPA (Environmental Protection Agency) has imposed strict guidelines in recycling of lead acid batteries in the USA. The recycling plants must be sealed and the smokestacks fitted with scrubbers. To check for possible escape of lead particles, the plant perimeter must be surrounded with lead-monitoring devices. Rules are bound to be broken and batteries soon end up in Mexico and other developing countries with relaxed regulations. China, a leader in lead acid battery production, also took action to protect the environment by introducing strict guidelines that only reputable companies can meet.



Nickel

Nickel-based batteries can also be recycled and the retrieved materials are iron and nickel, which are used in stainless steel production. Nickel-metal-hydride (NiMH) yields the highest return in nickel, and with ample supply recycling is said to make money. Low demand for cadmium has reduced the profitability from recycling NiCd batteries. The growth in batteries is with Li-ion but valuable materials are difficult to retrieve. This makes Li-ion less attractive for recycling and a financial breakeven may not be possible without subsidies.





Li-ion

The true cost to manufacture Li-ion is not so much in the raw materials, as is the case with lead acid and NiMH, but in lengthy processing and purification processes of the raw materials to reach battery grade. Retrieving lithium at only 3 percent of the cell mix may never reach break-even levels. If the purity of lithium is below 99.5 percent, then it is not suitable as raw material for batteries. Recycling brings the metal to ground zero, from which costly preparations begin anew. It is often cheaper to mine raw material than to retrieve it from recycling. Lithium from recycled batteries is commonly used for non-battery applications, such as lubricating greases that are found in WD-40 and other products, rather than batteries. ( See BU-308: Availability of Lithium )



Direct recycling technologies for lithium-ion batteries my offer a solution in refining used Li-ion into high value cathode and anode materials. Direct recycling may become profitable if the technology can be developed to large-scale processing made possible with high volume EV batteries reaching end-of-life. Direct recycling is said to be cleaner than older methods that melt the material.

Alkaline

Although alkaline and zinc-carbon account for over 90 percent of batteries consumed in the United States, they contain few precious metals and the toxicity is low. Organizations are seeking ways to recycle these batteries as well for the basic metal content and with high volume such a venture should become viable. Table 2 lists the typical metals content of commonly recycled batteries.



Fe

Iron Mn Manganese Ni

Nickel Zn

Zinc Li

Lithium Cd

Cadmium Co

Cobalt Al

Aluminum Pb

Lead Lead acid 65% NiCd 35% 22% 15% NiMH 20% 1% 35 1% 4% Li-ion 22% 3% 18% 5% Alkaline 24% 22% 15%

Table 2: Metals in commonly recycled batteries as a percentage of the overall content. The metal content may vary with battery type. With the exception of lead acid, most recycling requires a subsidy.



Facts about Battery Production and Recycling

Environmental issues and the ability to recycle play an important role when choosing a battery system. If the UPS operates mostly in standby and can provide longevity of 10 years, then lead acid is a strong contender. The preference of lead acid over Li-ion and nickel-based systems is manifested in moderate pricing, superior safety, dependable operation, and the ability to recycle. Table 3 compares the cost to manufacture and recycle batteries.



Estimated cost of disposal Production process Carbon dioxide emission Lead acid Profitable; lead has intrinsic value 30 mega joules; 8.3kW* 3kg per kg* Lithium-ion $4,000–5,000 per ton 170 mega joules; 47kW* 12kg per kg* NiCd, NiMH Can be cost neutral N/A N/A

Table 3: Costs of battery manufacturing and disposal.

* Quoted figures from Argonne National Laboratory



Summary

The primary objective of building a good battery is long life, safety and low price. Recycling is an afterthought and manufacturers do little to simplify the retrieving of precious metals. The recycling business is small compared to the vast battery industry, and to this day, only lead acid can be recycled profitably.



Nickel-based batteries might make money with good logistics, but Li-ion and most other chemistries yield too little in precious metals to make recycling a viable business without subsidies. The major expense with modern batteries is not so much the raw materials, as with lead acid, but lengthy preparations, purifications and processing down to micro- and nano-levels. Nevertheless, batteries contain valuable material that can be re-used for new products.



To make recycling feasible in the meantime, subsidies are created by adding a tax to each pack sold. The goal goes beyond retrieving metals for re-use to preventing toxic batteries from entering landfills. Combining the environmental benefit with making a profit is the ultimate goal, and this might become feasible with innovative new recycling processes in development.



Another model is to sort batteries into functional and non-functional groups and give those with capacities of 80 percent or more a second life. Cells and modules of larger battery systems can be tested individually and reassembled in a new pack. ( See BU-803: Can Batteries be Restored? )



Last updated 2019-06-21



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