Figure 1: Projected demand for batteries. Each incremental improvement of the battery opens the doors for new applications

Alkaline will dominate the primary battery market. Others primary batteries will be lithium and zinc-air. Primary batteries can be stored up to 10 years and have much higher energy densities than secondary batteries. Figure 2 compares the predicted use of primary alkaline with other chemistries.

Figure 2: Primary alkaline is leading the market. Other primary chemistries are expected to increase at a slower pace.

Lead-acid will account for half the demand of rechargeables. This battery is mainly used for automotive and stand-by applications. Because of low cost and dependable service in adverse environmental conditions, lead-acid will enjoy a steady increase through to the year 2012. Lithium-based batteries may start to take over some lead-acid applications if the price can be lowered and the service life prolonged.

The demand for lead acid batteries is governed by vehicle production. Battery replacements have decreased as new technologies have extended battery life by 6 months. With the switch to electronic braking and steering by wire in upscale cars, the 3kW capability of the single 12-volt battery will no longer be sufficient, ushering in the 42-volt system. Two 12-volt batteries may be the interim solution.

Hybrid vehicles require a high voltage battery of about 150V, which is currently provided by connecting nickel-metal-hydride cells in series. Battery manufacturers are asked to provide a 8-10-year warranty to ensure that the battery will last for the life of the car. A replacement of the main battery would cost as much as installing a new motor.

Figure 3: Lead-acid will be the most commonly used secondary battery. Among portable secondary batteries, lithium-ion shows the most promise.

Lithium-ion will lead the demand in powering portable devices. The market for nickel-cadmium, on the other hand, is shrinking. This chemistry will be replaced with nickel-metal-hydride. Nickel-cadmium still holds a major share for power tools, two-way radios and medical devices. This chemistry is preferred over nickel-metal-hydride for its high durability and reliable service but some countries will ban its use by 2006 for environmental reasons. Exceptions will be made if the substitute is unsuitable.

Little excitement is in store for alternative rechargeable batteries. If the predictions are correct, new chemistries will make up less than 7% of all secondary batteries.
With no major breakthrough, the fuel cell will play an insignificant role in providing power for future applications. Cost, size and performance are the main obstacles. Although continuous in operation by replacing fuel capsules, the fuel cell, as we know it today, still needs a backup battery to satisfy the power requirements of modern portable equipment.

By the look of things, the electro-chemical battery may keep its present position for some time to come. This puts the miracle battery to the back burner, a battery was supposed to power a laptop for days and enable heated clothing for North Pole expeditions.

Where will commercial batteries come from?

The battery industry is becoming consolidated; competition will remain intense. The top Japanese suppliers held 80% of the market last year, but new contenders from other countries in Asia are making strong in-roads. BYD Battery Co. Ltd. in China is an example of a major new global battery producer. LG Electronics Inc. and Samsung Electronics Co. Ltd. in South Korea are following. These companies are gaining ground due to low pricing and improving quality.

The price of lithium-ion batteries has dropped by 20-50% during the last few years. This prompts established battery manufacturers to shift production to lower-cost regions such as China. Nickel-cadmium and nickel-metal-hydride batteries are not immune to price declines. Prices have dropped by 10-20%.

The USA and Europe will continue to produce specialty batteries, mainly used for defense and industrial applications. In comparison to the mass-produced batteries from Asia, American and European packs will be more expensive.
Up-to-date statistical battery information

The following graphs are collected from various sources as compiled by BMZ, Germany,
www.bmz-gmbh.de. For more detailed statistical battery information, please contact
Frost & Sullivan, www.batteries.frost.com. Also contact Fredonia, the leading international
business research company www.freedoniagroup.com.



Figure 4: Battery world market



Figure 5: Custom made cells for world markets



Figure 6: Global battery manufacturers



Figure 7: Largest manufacturers of Li-ion cells



Figure 8: Li-ion pricing and energy density

References: The Freedonia Group, Inc. www.freedoniagroup.com
Barry Huret, president of battery consulting company Huret Associates Inc. in Yardley, Pa, USA (www.huret.com)
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Created: August 2003, Last edited: January 2004