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The Chemistry Of Batteries Essay Research Paper

The Chemistry Of Batteries Essay, Research Paper


The Chemistry Of Batteries


People use batteries in their everyday life without thinking of their


impact. Batteries help us get around, keep in touch, have fun, and tell the


time. They do this by powering our cars, cell phones, pagers, portable CD


players, watches and many other useful tools. They can even save our lives


by powering things like smoke detectors, carbon dioxide detectors and


glucose meters. In this term paper I will discuss how batteries function,


what types of batteries exist, what gives them their power and many other


topics related to batteries.


The battery, also known as an electric cell, is a device that converts


the energy from chemicals into electricity. Chemical reactions that are able


to produce electrons are called Electro-chemical reactions. A battery


basically consists of two or more cells that are connected in a series or


parallel. All cells are made of a liquid, paste, or solid electrolyte and a


positive electrode, as well as a negative electrode. The electrolyte works as


an ionic conductor, this causes one of the electrodes to react. This reaction


produces electrons while the other electrode accepts the electrons. Every


battery has two terminals, one positive and the other negative. Electrons


collect on the negative terminal of the battery. If the negative and positive


terminal are connected together, then connected to whatever device that


needs to be powered, also called a load, the electrical current will flow freely


into the device.


The speed of the electron production by the chemical reaction is called


the battery s internal resistance. This controls how many electrons can flow


between the two terminals. Because electrons must flow from the battery


into a wire, and then must travel from the negative to the positive terminals


in order for the chemical reaction to take place. This is why batteries can go


unused for a year and still have plenty of power.


There are two general types of batteries. Batteries that have chemicals


that cannot be reconstituted into their original form after the energy has been


used are called primary cells or voltaic cells. Batteries that contain


chemicals which can be reconstituted when an electric current is passed


through them in an opposite direction of normal cell operation are called


rechargeable cells, storage cells, secondary cells, or accumulators.


Primary cells or dry cell batteries are the most common type of battery


used today. Primary cells were invented by the French chemist Georges


Leclanche in the late 1860 s. During that period this invention was very


important and helped the start of the industrial revolution. It is commonly


know as a dry cell or flashlight battery. The Leclanche cell is very similar to


the dry cell that is used today. The electrolyte is made of zinc, on the


outside shell of the cell, the positive electrode is made of carbon and is


surrounded by a mixture of carbon and manganese dioxide. zinc-carbon


chemistry is used in all AA, C and D dry cell batteries. When the cell is in


use, atoms of the zinc in the outer cases are oxidized, giving up electrons and


forming zinc ions.


Another type of primary cell is a mercury cell. This cell uses zinc as


the negative electrode, mercuric oxide as the positive electrode and an


electrolyte made of a solution of potassium hydroxide. This cell can be


made in the shape of a very small flat disk and is used in electric


wristwatches, hearing aids, and photoelectric cells.


The lead acid cell, also called commercial secondary or storage cell


was invented in 1859 by French physicist Gaston Plante. As mentioned


before, this cell can be recharged by reversing the chemical reaction.


Plante s original cell was a lead acid battery, which is still widely used


today. Just as with Leclanches s cell, it has been vastly improved on over


time. It consists of a lead negative electrode, a sulfuric acid electrolyte, a


porous polymer or glass separator and a lead dioxide positive electrode. As


the cell is used, lead sulfate forms at both electrodes and the sulfuric acid is


consumed. When it is recharged, the lead and lead oxide are remade and


more sulfuric acid is formed. This secondary cell produces 2V, a number of


these cells are typically combined in series to make up 6 or 12V batteries.


Advances in technology have recently made it possible for lead batteries to


have useful lives of 50 to 70 years. Le

ad acid batteries are commonly used


in automobiles for starting, lighting, and ignition. Another very important


use is for uninterruptable power supply systems for computer and telephones


systems.


The lead acid battery is known to be the lowest costing of secondary


batteries. When it is used in a way where it is never fully discharged, like


starting an automobile, it can last for up to 20 years and for many recharging


cycles. It has a much shorter lifetime when it is used for other applications,


for example powering a golf cart, when it is greatly discharged. If the


battery is overcharged it will quickly wear out due to internal corrosion and


loss of water. During these times when environmental pollution is such a


problem, over 95 percent of lead acid batteries are recycled into new


batteries.


An improvement on the nickel iron battery that was developed by


inventor Thomas Edison in the 1900 s, is the nickel cadmium battery. The


nickle cadmium battery has a cadmium negative electrode, a potassium


hydroxide electrolyte, a nonwoven fabric separator, and a nickel positive


electrode. It produces 12V and endures many more full discharges cycles


than the lead acid battery ( up to 1000). It s a small cell that is commonly


used in portable tools like telephone, electric toothbrushes and shavers.


Interestingly enough it is also used in air planes where long life is truly


important.


An improvement of the nickle-cadmium cell is the nickel metal


hydride cell, the cadmium negative electrode is replaced with a complex


metal alloy that, absorbs hydrogen gas as it is charged and sends it to the


electrolyte as it discharges. This solves the problem of the hydrogen


potentially causing an explosion. The nickel metal hydride cell has 50


percent more power then the nickel cadmium cell. It has mostly replaced the


nickel cadmium cells in notebook computers and cellular phones


Batteries are a vital tool to our everyday lives. With technology


rapidly expanding by the day, researchers in battery technology are


continually exploring different ways to make batteries. There is now more


then ever, an expanding array of technologies that need batteries to power


them. There are numerous types of batteries that have been developed for


electric cars and more powerful portable devices. Size, short range,


environmental issues and high expense are all problems to be solved for


these new endeavors. Cutting edge batteries that show promise for electric


vehicles are sodium sulfur, lithium ion sulfide, zinc chlorine, and nickel


metal hydride all seem to show promise. Solar batteries are another kind of


cell technology. They produce electricity by a photoelectric conversion


process. Electricity is made from a photo sensitive semiconducting


substance like silicon crystal. It s functions by light hitting the crystal


causing electrons to be dislodged from the surface of the crystal. These


electrons then move to an opposite surface. They are then collected as a


currant of electricity. Solar batteries have the advantages of long lifetimes.


They are used in space to provide electricity for operation of equipment


abord spacecraft s.


Research is currently being done on the possible use of organic


polymers and solid inorganic conductors as electrolytes. New materials for


the use of both positive and negative electrodes is also being researched.


Batteries play a very important role in our everyday lives. Many different


devices we have come to reply upon require batteries to supply them with


the power they need. Advancement in battery technology are working to


reduce environmental hazards caused by batteries and to make them more


compact.


The battery is a true universal source of energy that is used around the


world. Learning about how batteries function and about the many different


types of batteries has helped me to appreciate them a lot more. Batteries are


a valuable source of power that people use everyday but also take for


granted. Batteries will continue improving the quality of our lives.


Bibliography


Battery Funk & Wagnalls New Encyclopedia. 1987, Volume 3, pp.


346-347


Funk and Wagnalls. (on line) Available http://www.funkandwagnalls.com/


May 3, 2000


Marshall, Brian How batteries work (online). Available


http://www.hotstuffworks.com/ April 25, 2000


Microsoft Encarta 97 Encyclopedia. On CD-Rom. 1993-1996 Microsoft


Corporation.

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