A sealed lead acid battery.

Battery specifications Energy/weight 30-40 Wh/kg Energy/size 60-75 Wh/L Power/weight 180 W/kg Charge/discharge efficiency 70%-92% Energy/consumer-price 7(sld)-18(fld) Wh/US$ [1] Self-discharge rate 3%-20%/month [2] Time durability 6 months Cycle durability 500-800 cycles Nominal Cell Voltage 2.0 V

Image File history File links Lead_acid_cell. ... Image File history File links Lead_acid_cell. ... The watt-hour (symbol W·h) is a unit of energy. ... The watt-hour (symbol W·h) is a unit of energy. ... The liter (spelled liter in American English and litre in Commonwealth English) is a unit of volume. ... Watts may refer to: Watt, the SI derived unit of power Watts and Co. ... KG, Kg or kg may indicate: A Kampfgeschwader, a bomber squadron of the former German Luftwaffe Basketball Player Kevin Garnett An abbreviation for kilogram (always kg) Knight of the Garter, a British decoration Kommanditgesellschaft, German version of a limited partnership Kongo language (ISO 639 alpha-2) An abbreviation for konig... The watt-hour (symbol W·h) is a unit of energy. ... The United States dollar is the official currency of the United States. ... Look up Month in Wiktionary, the free dictionary. ... In Egyptian mythology, Month is an alternate spelling for Menthu. ... A cycle (Latin cyclus, from Greek kuklos meaning circle) is anything round, in the physical sense (e. ... The volt is the SI derived unit for electric potential and voltage (derived from the ampere and watt). ...

Overview

Lead-acid batteries, invented in 1859 by French physicist Gaston Planté, are the oldest type of galvanic cell battery. Despite having the second lowest energy-to-weight ratio (next to the nickel-iron battery) and a correspondingly low energy-to-volume ratio, their ability to supply high surge currents means that the cells maintain a relatively large power-to-weight ratio. This, along with their low cost, makes them ideal for use in cars, as they aptly provide the high current required by automobile starter motors. They are also used in vehicles such as forklifts, in which the low energy-to-weight ratio may in fact be considered a benefit since the battery can be used as a counterweight. Physicists working in a government lab A physicist is a scientist who studies or practices physics. ... Gaston Planté (1834-1889) was a French physicist who invented a rechargeable electric battery in 1859. ... The Galvanic cell, named after Luigi Galvani, consists of two metals connected by an electrolyte which forms a salt bridge between the metals. ... In the physical sciences, weight is a measurement of the gravitational force acting on an object. ... The nickel-iron battery is a storage battery having a nickel oxide cathode and an iron anode, with an electrolyte of potassium hydroxide. ... Volume is a quantification of how much space a certain region occupies. ... A current of short duration that occurs when power is first applied to capacitive loads or temperature dependent resistive loads such as tungsten or molybdenum heaters-usually lasting no more than several cycles. ... Power-to-weight ratio is a measure commonly used when comparing various vehicles (or engines), including automobiles, motorcycles and aircraft. ... Look up cars in Wiktionary, the free dictionary. ... An automobile self-starter is an electric motor that initiates pistons motion in a cars internal combustion engine before it can power itself. ... US airman operates forklift at a truck A forklift is a powered industrial truck used to hoist and transport materials by means of steel forks inserted under the load. ... This article or section does not cite its references or sources. ...

Battery chemistry

Lead-acid car batteries for a 12 volt system consist of six cells of 2.1 V nominal voltage. Each cell contains (in the charged state) electrodes of lead metal (Pb) and lead (IV) oxide (PbO₂) in an electrolyte of about 37% (or 6-12M) w/w sulfuric acid (H₂SO₄). In the discharged state both electrodes turn into lead(II) sulfate (PbSO₄) and the electrolyte loses its dissolved sulfuric acid and becomes primarily water. Due to the freezing-point depression of water, as the battery discharges and the concentration of sulfuric acid deceases, the electrolyte (including the more modern gellified electrolyte of the gel battery) is more likely to freeze . General Name, Symbol, Number lead, Pb, 82 Chemical series poor metals Group, Period, Block 14, 6, p Appearance bluish white Atomic mass 207. ... Sample of lead dioxide Lead dioxide, PbO2, also plumbic oxide, lead peroxide, is an oxide of lead, with lead in oxidation state +4. ... An electrolyte is a substance that dissociates into free ions when dissolved (or molten), to produce an electrically conductive medium. ... Sulfuric acid (British English: sulphuric acid), H2SO4, is a strong mineral acid. ... Lead (II) sulfate (PbSO4) is a white crystal or powder. ... Water is a tasteless, odourless substance that is essential to all known forms of life and is known as the universal solvent. ... Freezing-point depression is the difference between the freezing points of a pure solvent and a solution mixed with a solute. ... A gel (from the lat. ... A gel battery is a lead-acid battery with gelified electrolyte. ...

Many vendors sell chemical additives (solid compounds as well as liquid solutions) that supposedly reduce sulfate build up and improve battery condition when added to the electrolyte of a vented lead-acid battery. Such treatments are rarely, if ever, effective. ^{[citation needed]}

The following are general voltage ranges for six-cell lead-acid batteries:

• Open-circuit (quiescent) at full charge: 12.6 - 12.8 V
• Open-circuit at full discharge: 11.8 - 12.0 V
• Loaded at full discharge: 10.5 V
• Continuous-preservation (float) charging: 13 - 13.2 V
• Typical (daily) charging: 13.2 - 14.4 V
• Equalization charging (for flooded lead acids): 15 - 16 V
• Gassing threshold: 14.4 V
• After full charge the terminal voltage will drop quickly to 13.2 V and then slowly to 12.6 V.

The chemical reactions are (charged to discharged):

Anode (oxidation):

Cathode (reduction):

Because of the open cells with liquid electrolyte in most lead-acid batteries, overcharging with excessive charging voltages will generate oxygen and hydrogen gas by electrolysis of water, forming an extremely explosive mix. This should be avoided. Caution must also be observed because of the extremely corrosive nature of sulfuric acid. General Name, Symbol, Number oxygen, O, 8 Chemical series Nonmetals, chalcogens Group, Period, Block 16, 2, p Appearance colorless (gas) very pale blue (liquid) Atomic mass 15. ... General Name, Symbol, Number hydrogen, H, 1 Chemical series nonmetals Group, Period, Block 1, 1, s Appearance colorless Atomic mass 1. ... Hoffman voltameter used to electrolyze water. ... The explosive limit of a gas or a vapour, is the limiting concentration (in air) that is needed for the gas to ignite and explode. ...

Construction of battery

Plates

It would be perfectly feasible to use simple sheet lead plates for the two electrodes. However such a construction would only produce around an amp for roughly postcard sized plates, and it would not produce such a current for more than a few minutes.

Planté realised that a plate construction was required that gave a much larger effective surface area. Planté's method of producing the plates has been largely unchanged.

A plate consists of a rectangular lead plate alloyed with a little antimony to improve the mechanical characteristics. The plate is in fact a grid with rectangular holes in it, the lead forming thin walls to the holes. The holes are filled with a mixture of red lead and 33% dilute sulphuric acid (Different manufacturers have modified the mixture). The paste is pressed into the holes in the plates which are slightly tapered on both sides to assist in retention of the paste. This paste remains porous and allows the acid to react with the lead inside the plate increasing the surface area many fold. It should be noted that at this stage the positive and negative plates are identical. Once dry the plates are then stacked together with suitable separators and inserted in the battery container. An odd number of plates is always used, with one more negative plate than positive. Each alternate plate is connected together. After the acid has been added to the cell, the cell is given its first forming charge. The positive plates gradually turn the chocolate brown colour of Lead Dioxide, and the negative turn the slate gray of 'spongy' lead. Such a cell is ready to be used.

Many modern manufacturers use pastes in the plates made directly from Lead Dioxide and Lead, thus avoiding the necessity to form the plates. Once acid is added, the cell is ready for use.

One of the problems with the plates in a lead-acid battery is that the plates change size as the battery charges and discharges, the plates increasing in size as the active material absorbs sulphate from the acid during discharge, and decreasing as they give up the sulphate during charging. This causes the plates to gradually shed the paste during their life. It is important that there is plenty of room underneath the plates to catch this shed material. If this material reaches the plates a shorted cell will occur

Separators

Separators are used between the positive and negative plates of a lead acid battery to prevent short circuit through physical contact, Dendrites ( ‘ treeing ’) most and shredded active material. Separators cause some obstructions for the flow of ions i.e. electricity between the electrodes. Separators therefore must have the following characteristics:

1. They must be porous—high porosity gives a high rate of flow of ions.
2. Pore size must be small enough to restrict the flow of colloid particles but not restrict the ions.
3. They must be as thin as possible.
4. Electrical resistance must be very high.
5. They are a little larger than the plates to prevent material shorting the plates.

To balance these criteria, the choice of separator shifted from wood to rubber to glass mat to cellulose based separators to sintered PVC separator to microporous PVC/polyethylene separator. An effective separator must meet a number of mechanical properties. Permeability, porosity, pore size distribution, specific surface area, mechanical design and strength, Electrical resistance, ionic conductivity, and chemical compatibility with the electrolyte. In service the separator must have good resistance to acid and oxidation.

In the battery service condition the following reaction can be shown :

PbO₂ + 2H + SO₄ = PbSO₄ + H₂O + ½ O₂

PbO₂ + (oxidisable separator material) + H₂SO₄ = PbSO₄ + (oxidized material)

Moreover, the battery service temperature can be as high as 70 to 80 degrees Celsius. The separator must be capable of resisting thermal degradation as far as possible.

Classification of lead acid batteries

By production technology

• Flooded/Wet cell batteries
• VRLA: Valve Regulated Lead Acid batteries
• AGM: Absorbed Glass Mat batteries
• Gel cell batteries

By application

• Starter batteries
• Stand-by/stationary batteries
• Traction/tractionary batteries

Other applications

Wet cells designed for deep discharge are commonly used in golf carts and other battery electric vehicles, large backup power supplies for telephone and computer centers and off-grid household electric power systems. Golf carts A golf cart, also known as a golf car, is a small vehicle designed originally to carry two golfers and their golf clubs around a golf course faster and with less effort than walking. ... The Toyota RAV4 EV is powered by twenty-four 12 volt batteries, with an operational cost equivalent of over 165 miles per gallon at 2005 US gasoline prices. ...

Gel cells are used in back-up power supplies for alarm and smaller computer systems (particularly in uninterruptible power supplies) and for electric scooters, electrified bicycles and marine applications. Unlike wet cells, gel cells are sealed, so they are less prone to spilling and do not require maintenance of electrolyte levels.

Absorbed glass mat (AGM) cells are also sealed and used in battery electric vehicles. Absorbed glass mat Absorbed glass mat (AGM) is a class of lead-acid battery in which the electrolyte is absorbed into a fibreglass mat. ...

Historically, lead-acid batteries were used to supply the filament (heater) voltage (usually between 2 and 12 volts with 6 V being most common) in vacuum tube (valve) radio receivers in areas where no mains electricity supply was available. Such radios typically used two batteries: a lead-acid "A" battery for the filament voltage and a higher voltage (45 V–120 V) "dry" non-rechargeable "B" battery for the plate (anode) voltage. A few sets also used a third (3 V–9 V with several taps) "dry" non-rechargeable "C" battery for grid bias. In electronics, a vacuum tube (U.S. and Canadian English) or (thermionic) valve (outside North America) is a device generally used to amplify, or otherwise modify, a signal by controlling the movement of electrons in an evacuated space. ... In electronics, an A battery is any battery used to provide power to the filament of a vacuum tube. ... In electronics, a B battery is any battery used to provide the plate voltage of a vacuum tube. ... In electronics, a C battery is any battery used to provide bias to the control grid of a vacuum tube. ...

Starting batteries decay with deep discharges

Lead acid batteries designed for starting service, such as those used in most automobiles, are not designed for deep discharge. They have a large number of thin plates designed for maximum surface area, and therefore maximum current output, but which can easily be damaged by deep discharge. Repeated deep discharges will result in capacity loss and ultimately in premature failure, as the electrodes disintegrate due to mechanical stresses that arise from cycling. A common misconception is that starting batteries should always be kept on float charge. In reality, this practice will encourage corrosion in the electrodes and result in premature failure. Starting batteries should be kept open-circuit but charged regularly (at least once every two weeks) to prevent sulfation.

Deep cycle batteries

Specially designed deep-cycle cells are much less susceptible to degradation due to cycling, and are required for applications where the batteries are regularly discharged, such as photovoltaic systems, electric vehicle (forklift, golf cart and other) and uninterruptible power supplies. These batteries have thicker plates that can deliver less peak current, but can withstand frequent discharging. ^[1] A solar cell, a form of photovoltaic cell, is a device that uses the photoelectric effect to generate electricity from light, thus generating solar power (energy). ... An uninterruptible power supply (UPS), sometimes called an uninterruptible power source, is a device which maintains a continuous supply of electric power to connected equipment by supplying power from a separate source when utility power is not available. ...

Marine batteries are something of a compromise between the two, able to be discharged to a greater degree than automotive batteries, but less so than deep cycle batteries.

Environmental concerns

Currently attempts are being made to develop alternatives to the lead-acid battery (particularly for automotive use) because of concerns about the environmental consequences of improper disposal of old batteries. Lead-acid battery recycling is one of the most successful recycling programs in the world, with over 97% of all battery lead recycled between 1997 and 2001.^[2] Effective Lead pollution control system is a necessity for sustainable environment. There is a continuous improvement in battery recycling plants and furnace designs for greater efficiencies. These recycling plants are ecology friendly as they follow all emission standards for lead smelters, but new methods should be devised or alternatives developed to the lead-acid battery so that lead pollution can be reduced to an essentially negligible amount. The international recycling symbol. ... The international recycling symbol. ... The word emission generally means sending something out. ...

Lead-acid batteries react less violently to fire exposure than nickel-cadmium batteries, and so they are used in emergency lighting in case of power failure. The nickel-cadmium battery (commonly abbreviated NiCd or NiCad) is a popular type of rechargeable battery for portable electronics and toys using the metals nickel (Ni) and cadmium (Cd) as the active chemicals. ... A power outage is the loss of the electricity supply to an area. ...

See also

• Car battery
• Gel battery
• Absorbed glass mat (AGM)
• VRLA
• Rechargeable battery

Lead-acid car battery A car battery is a type of electric battery that supplies electric energy to the starter motor and the ignition system of a vehicle’s engine. ... A gel battery is a lead-acid battery with gelified electrolyte. ... Absorbed glass mat Absorbed glass mat (AGM) is a class of lead-acid battery in which the electrolyte is absorbed into a fibreglass mat. ... VRLA stands for valve regulated lead acid and is the designation for maintenance-free lead-acid batteries. ... Rechargeable batteries (also known as Secondary cells) are batteries that can be restored to full charge by the application of electrical energy. ...

References

• U.S. Department of Energy, Primer On Lead-Acid Storage Batteries (pdf)
• Environment Friendly Battery Recycling

2006 (MMVI) is a common year starting on Sunday of the Gregorian calendar. ... June 1 is the 152nd day of the year in the Gregorian calendar (153rd in leap years), with 213 days remaining. ...

External links

• BatteryUniversity.com
• Case Studies in Environmental Medicine - Lead Toxicity
• National Pollutant Inventory - Lead and Lead Compounds Fact Sheet
• ToxFAQs™: Lead