Lead-Acid Batteries

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Lead-acid batteries are the most common type of battery used in generator systems.

They are also used in cars and trucks. Lead-acid batteries have some advantages and disadvantages.

They are typically less expensive than other types of batteries and have a lifespan. of about 2-3 years. However, lead-acid batteries require more maintenance during that time than other types of batteries, and are not as efficient as nickel-cadmium batteries.

How Do Lead-Acid Batteries Work?

Lead-acid batteries are the oldest type of rechargeable battery. Lead-acid batteries were invented in by French physicist Gaston Planté and are the forerunners of the modern automobile battery and are still primarily used in vehicles.

Lead-acid batteries contain lead and sulfuric acid. The lead serves as a positive electrode, and sulfuric acid is used as an electrolyte. When lead and sulfuric acid are combined, they create a chemical reaction that produces electricity.

Advantages

Lead-acid batteries have several advantages over nickel-cadmium batteries:

&#; They are less expensive than nickel-cadmium batteries. However, due to the shorter lifespan, the cost can be higher than a nickel-cadmium battery.

&#; They are less likely to suffer from self-discharge, meaning they can hold their charge for extended periods (about 3-4% per month).

&#; They can provide a large amount of power when needed.

&#; They are easier to dispose of and recycle than nickel-cadmium batteries.

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Disadvantages

Lead-acid batteries have some disadvantages when compared to nickel-cadmium batteries. This includes:

&#; They are heavier than nickel-cadmium batteries.

&#; They have a shorter life cycle.

&#; They are more likely to leak acid, which can damage the device.

&#; They also require regular maintenance, such as topping up the water level and cleaning the terminals.

&#; They are more sensitive to temperature changes, which can shorten their lifespan.

&#; They can produce hydrogen gas when charging, which can be explosive if it builds up in a confined space.

&#; They are not suitable for fast charging.

Whats the difference between Nickel Cadmium (Nicad), Nickel-metal hydride (NiMH), and Lithium Ion (Li-Ion)?

 
The three most popular battery chemistries have very special qualities each. I'll start with the oldest first. 
 
 
Nickel Cadmium
 
Nicad batteries are very robust. They are good for working in extreme environments, such as cold or hot weather. They also have a longer life cycle than NiMH or Li-ion, with about 700- life cycles. They are very robust for high output deep discharge applications. On the downside, they have a charging problem called the "memory effect". That is, if they don't get completely charged after each use, they will potentially only charge up to the last highest charge. This can shorten the lifespan of the battery. They can be reconditioned but at the cost of at least 3 life cycles.
 
The benefits of using a Nicad battery are extreme temperature tolerance, deep discharge capabilities, 
 
Nicad cell availability. Since Panasonic has bought Sanyo, the availability of quality cells has gone down. Panasonic has discontinued manufacturing several sizes of Nicad batteries. As a result, the sizes that have been discontinued are now only available by Chinese manufacturers. This is an inferior battery.
 
 
Nickel Metal Hydride
 
NiMH batteries offer a higher capacity than Nicad batteries, and less capacity than Li-Ion. They are nearly twice as heavy as Nicad batteries. They also don't have a memory effect. They are a good medium temperature battery. You can operate with them usually in -5 to 95 degrees farenheit with no adverse problems. They have good deep-discharge qualities and can store nearly twice the capacity of nicad cells. Their life-cycle is generally lower than nicad, at 500-800 life cycles. They are very similar to nicad when it comes to charge and discharge characteristics, and are safer than Lithium ion with thermal runaway.
 
NiMH batteries have more of a tendency to have weak-cell syndrome. That is, when you charge a battery pack all the way, then you go to use, it it dies right away. When you test it, it will say that its fully charged. This is because some or all of the cells can no longer hold power. NiMH batteries have a tendency to do this more than any other battery type.
 
NiMH cells are better protected from thermal runaway than Lithium Ion, however not as good as nicad. They have similar safety characteristics as nicad and are better for the environment than nicad.
 
The availability of NiMH cells is very good. Several manufacturers produce them in many countries.
 

Lithium Ion (Li-Ion)
 
Lithium Ion battery cells are known for their enormous energy density. They are able to store more energy per pound than any of the traditional battery packs. That makes them very popular for portable electronics, vehicles, etc. They don't have the memory effect that nicad does, and they perform the best at deep discharge applications compared to nicad or nimh. Environmentally they are safer to dispose than nicad as they don't taint water supplies, and from a mining point of view, there is no benefit or negative aspect either way.
 
Li-Ion is not a good battery chemistry for extreme temperatures. According to Nasa, the maximum capacity of lithium ion cells at -40 degrees C is 12% of its room temperature capacity. We've had customers who have had li-ion radio batteries stop working at -5 degrees farenheit.
 
Safety is another issue with lithium Ion. All lithium ion batteries have to be controlled with an integrated circuit to control input and output voltage. If the circuit is not present, the cell could have thermal runaway. I'm sure you've all heard of laptop batteries catching fire. That is an instance of thermal runaway. Another safety issue is water. In the presence of H2o, li-ion will oxidize extremely rapidly (hint explode).
 
The life cycle of li-ion is approximately 700 to 950. This is ever changing with the testing of different lithium salts but as of November , when you purchase batteries for your consumer electronics, this will be the approximate range.
 
The charge and discharge curve of li-ion is extraordinary. It can handle heavy input and output voltage, making it ideal for use in power tools, electric vehicles, mobility devices, and the like. 
 
The availability of lithium Ion is very good. There are several areas of the world that mine it, and pricing should be stable for the foreseeable future. Efforts from Wall Street to commoditize it would have negative effects on its price and availability.

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