iPedia Free Information Center

Information about Lead Acid Battery

Battery specifications
Energy/weight30-40 Wh/kg
Energy/size60-75 Wh/L
Power/weight180 W/kg
Charge/discharge efficiency70%-92%
Energy/consumer-price7(sld)-18(fld) Wh/US$ [1]
Self-discharge rate3%-20%/month [2]
Time durability
Cycle durability500-800 cycles
Nominal Cell Voltage2.0 V
Charge temperature interval


Enlarge picture
A valve-regulated, sometimes called "sealed", lead acid battery


Lead-acid batteries, invented in 1859 by French physicist Gaston Planté, are the oldest type of rechargeable 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. These features, along with their low cost, makes them attractive for use in cars, as they can 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. Large arrays of lead-acid cells are used as standby power sources for telecommunications facilities, generating stations, and computer data centers. They are also used to power the electric motors in diesel-electric (conventional) submarines.

Electrochemistry

Each cell contains (in the charged state) electrodes of lead metal (Pb) and lead (IV) oxide (PbO2) in an electrolyte of about 37% w/w (5.99 Molar) 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 decreases, the electrolyte is more likely to freeze.

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 explosive mix. This should be avoided. Caution must also be observed because of the extremely corrosive nature of sulfuric acid.

Practical cells are usually not made with pure lead but have small amounts of antimony, tin, or calcium alloyed in the plate material.

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: 13.8V for gelled electrolyte; 13.5V for AGM (Absorbed Glass Mat) and 13.4V for flooded
  1. All voltages are at 20C, and must be adjusted for temperature changes.
  2. Float voltage recommendations vary, according to the manufacturers' recommendation.
  3. Precise (+/- 0.05V) float voltage is critical to longevity; too low (sulfation) is almost as bad as too high (corrosion & electrolyte loss)
  • Typical (daily) charging: 14.2 - 14.5 V (depending on manufacturer's recommendation)
  • Equalization charging (for flooded lead acids): 15 - 16 V
  • threshold: 14.4 V
  • After full charge the terminal voltage will drop quickly to 13.2 V and then slowly to 12.6 V.
Because the electrolyte takes part in the charge/discharge reaction, this battery has one major advantage over other chemistries. It is relatively simple to determine the state of charge by merely measuring the specific gravity (S.G.) of the electrolyte, the S.G. falling as the battery discharges. Some battery designs, such as used in electronic flash, had a simple hydrometer built in using different density coloured floating balls. When used in diesel-electric submarines, the S.G. was regularly measured and written on a blackboard in the control room to appraise the commander as to how much underwater endurance the boat had remaining.

Construction of battery

Plates

The principle of the lead acid cell can be demonstrated with 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.

Gaston 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 and is still used in stationary applications.

The Faure pasted-plate construction is typical of automotive batteries. Each plate consists of a rectangular lead grid alloyed with antimony or calcium to improve the mechanical characteristics. The holes of the grid 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 porous paste allows the acid to react with the lead inside the plate, increasing the surface area many fold. At this stage the positive and negative plates are similar, however expanders and additives vary their internal chemistry to assist in operatrion when in use. Once dry the plates are then stacked together with suitable separators and inserted in the battery container. An odd number of plates is usually 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.

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 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, mostly through dendrites (‘treeing’), but also through shedding of the active material.

Separators obstruct the flow of ions between the plates and increase the internal resistance of the cell.

Various materials have been used to make separators:
  • wood
  • rubber
  • glass fiber mat
  • cellulose
  • sintered PVC
  • microporous PVC/polyethylene.
An effective separator must possess a number of mechanical properties; applicable considerations include 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. The area of the separator must be a little larger than the area of the plates to prevent material shorting between the plates. The separators must remain stable over the operating temperature range of the battery.

In the battery service condition the following reaction can be shown :
PbO2 + 2H+ + SO4-2 = PbSO4 + H2O + ½ O2
PbO2 + (oxidizable separator material) + H2SO4 = PbSO4 + (oxidized material)

Classification of lead acid batteries

By production technology

By application

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.
  • Gel batteries 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, with pressure relief valves in case of overcharging. In normal use they cannot spill liquid electrolyte.
  • Absorbed glass mat (AGM) cells are also sealed and used in battery electric vehicles, as well as applications where there is a fairly high risk of the battery being laid on its side or over-turned, such as motorcycles.
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.

Lead-acid batteries are generally used in emergency lighting in case of power failure.

Cycles

Starting batteries

Lead acid batteries designed for starting automotive engines 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 vehicles (forklift, golf cart, electric cars and other) and uninterruptible power supplies. These batteries have thicker plates that can deliver less peak current, but can withstand frequent discharging.[1]

Marine/Motorhome batteries, sometimes called "leisure 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.

Fast and slow charge and discharge

When a battery is charged or discharged, this initially affects only the reacting chemicals, which are at the interface between the electrodes and the electrolyte. With time, these chemicals at the interface, which we will call an "interface charge", spread by diffusion throughout the volume of the active material.

If a battery has been completely discharged (e.g. the car lights were left on overnight) and next is given a fast charge for only a few minutes, then during the short charging time it develops only a charge near the interface. After a few hours this interface charge will spread to the volume of the electrode and electrolyte, leading to an interface charge so low that it may be insufficient to start the car.[2]

On the other hand, if the battery is given a slow charge, which takes longer, then the battery will become more fully charged, since then the interface charge has time to redistribute to the volume of the electrodes and electrolyte, and yet is replenished by the charger.

Similarly, if a battery is subject to a fast discharge (such as starting a car, which is a draw of some 600 amps) for a few minutes, it will appear to go dead. Most likely it has only lost its interface charge; after a wait of a few minutes it should appear to be operative. On the other hand, if a battery is subject to a slow discharge (such as leaving the car lights on, which is a draw of some 6 amps), then when the battery appears to be dead it likely has been completely discharged.

Valve regulated lead acid batteries

Main article: VRLA
The Valve Regulated Lead Acid (VRLA) battery is one of many types of lead-acid batteries, also known as Maintenance Free (MF) battery. In a VRLA battery the hydrogen and oxygen produced in the cells recombine back into water. In this way there is no leakage and the battery is maintenance free.

It became popular on motorcycles because its acid is absorbed into the medium which separates the plates, so it cannot spill, and this medium also lends support to the plates which helps them better to withstand vibration.

The electrical characteristics of MF batteries differ somewhat from wet-cell lead-acid batteries, and caution should be exercised in charging and discharging them.

Exploding batteries

Maintenance-Free batteries (VRLA batteries) rely on valves fitted to each cell. Normally any hydrogen and oxygen produced in the cell will recombine into water, but malfunction or misuse may cause gas to build up inside the cell. If this happen (e.g. by overcharging the cell) the valve is designed to vent the gas and thereby normalize the pressure, resulting in a characteristic acid smell around the battery.

However, if the valve fails (e.g. blocked by dirt or debris) a dangerous pressure can build up inside the cell. A slight jolt can make a spark jump between the posts and ignite the gas causing an explosion. The force is sufficient to burst the plastic casing or blow the top off the battery, and can injure anyone in the vicinity and spray acid and casing shrapnel to the immediate environment. As a warning, swelling in the cell walls of the battery will occur when the internal pressure rises. The deformation of the walls varies from cell to cell, and is greater at the ends where the walls are unsupported by other cells. It is surprising how powerful an explosion can be caused in the small air space above the electrolyte. When one cell explodes, it sets off a chain reaction in the rest. Such overpressurized batteries should be isolated and discarded, taking great care using protective personal equipment (goggles, overalls, gloves etc) during the handling.

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. Newer technologies such as supercapacitors and barium-titanate battery/ultracapacitor hybrids are poised to make lead-acid batteries obsolete for many automotive applications.

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.[3] 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 follow all emission standards for lead smelters.

Additives

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.

Two compounds used for such purposes are Epsom salts and EDTA. Epsom salts reduce the internal resistance in a weak or damaged battery and may allow a small amount of extended life. EDTA can be used to dissolve the sulphate deposits of heavily discharged plates. However, the dissolved material is then no longer available to participate in the normal charge/discharge cycle, so a battery temporarily revived with EDTA should not be expected to have normal life expectancy. Residual EDTA in the lead-acid cell forms organic acids which will accelerate corrosion of the lead plates and internal connectors.

Active material (the positive plate lead peroxide and negative plate lead) changes physical form during discharge, resulting in plate growth, distortion of the active material, and shedding of active material. Once the active material has left the plates, it cannot be restored into position by any chemical treatment. Similarly, internal physical problems such as cracked plates, corroded connectors, or damaged separators cannot be restored chemically.

Maintenance precautions

One precaution in workshops that handle large lead-acid batteries is a supply of ammonia solution to squirt on any spilled battery acid, to neutralize it. Surplus ammonia, and water, evaporate off, leaving a deposit of ammonium sulphate.

See also

References

1. ^ "Battery FAQ" at Northern Arizona Wind & Sun, visited 2006-07-23
2. ^ #Saslow, Wayne M. (2002). Electricity, Magnetism, and Light. Toronto: Thomson Learning. ISBN 0-12-619455-6.  pp. 302-304.
3. ^ Battery Council International. Retrieved on 2006-06-01.

External links

watt-hour (symbol W·h or Wh) is a unit of energy. It is most commonly used on household electricity meters in the form of the kilowatt-hour (kW·h or kWh), which is 1,000 watt-hours.
..... Click the link for more information.
watt-hour (symbol W·h or Wh) is a unit of energy. It is most commonly used on household electricity meters in the form of the kilowatt-hour (kW·h or kWh), which is 1,000 watt-hours.
..... Click the link for more information.
The litre or liter (see spelling differences) is a unit of volume. There are two official symbols, namely the Latin letter L both in lower and upper case: l and L.
..... Click the link for more information.
WATT

City of license Cadillac, Michigan
Broadcast area [1]
Branding NewsTalk 1240
First air date 1945
Frequency 1240 kHz
Format News-Talk-Sports
Power 1,000 watts
Class C
Owner MacDonald Garber Broadcasting
..... Click the link for more information.
kilogram or kilogramme (symbol: kg) is the SI base unit of mass. The kilogram is defined as being equal to the mass of the International Prototype Kilogram (IPK), which is almost exactly equal to the mass of one liter of water.
..... Click the link for more information.
Democratic Left Alliance.
  • In British politics, the party currently known as the Liberal Democrats used to be called the SLD, which stood for Social and Liberal Democrats
  • In Geographic Information Systems, a Styled Layer Descriptor.
    ..... Click the link for more information.
    • The acronym FLD stands for
    • Fisher's linear discriminant
    • Free Lunch Design
    • Fitness Lifestyle Design, a high school P.E. course offered in Florida

    ..... Click the link for more information.
    watt-hour (symbol W·h or Wh) is a unit of energy. It is most commonly used on household electricity meters in the form of the kilowatt-hour (kW·h or kWh), which is 1,000 watt-hours.
    ..... Click the link for more information.
    For the Egyptian hawk-god, see .


    The month is a unit of time, used with calendars, which is approximately as extensive as some natural period related to the motion of the Moon.
    ..... Click the link for more information.
    volt (symbol: V) is the SI derived unit of electric potential difference or electromotive force.[1][2] It is named in honor of the Italian physicist Alessandro Volta (1745–1827), who invented the voltaic pile, the first modern chemical battery.
    ..... Click the link for more information.
    Motto
    Liberté, Égalité, Fraternité
    "Liberty, Equality, Fraternity"
    Anthem
    "La Marseillaise"


    ..... Click the link for more information.
    physicist is a scientist who studies or practices physics. Physicists study a wide range of physical phenomena spanning all length scales: from the sub-atomic particles from which all ordinary matter is made (particle physics) to the behavior of the material Universe as a whole
    ..... Click the link for more information.
    Gaston Planté (1834-1889) was a French physicist who invented the lead acid battery in 1859. The lead acid battery eventually became the first rechargeable electric battery marketed for commercial use.

    Planté was born on April 22, 1834 in Orthez, France.
    ..... Click the link for more information.
    rechargeable battery, also known as a storage battery, is a group of two or more secondary cells. These batteries can be restored to full charge by the application of electrical energy.
    ..... Click the link for more information.
    energy (from the Greek ενεργός, energos, "active, working")[1] is a scalar physical quantity that is a property of objects and systems of objects which is conserved by nature.
    ..... Click the link for more information.
    weight is a measurement of the gravitational force acting on an object. Near the surface of the Earth, the acceleration due to gravity is approximately constant; this means that an object's weight is roughly proportional to its mass.
    ..... Click the link for more information.
    $150-200/kWh[1]
    Self-discharge rate 20%-40%/month[1]
    Time durability 30[2] - 50 years[3][4]
    Cycle durability Repeated deep discharge does not reduce life significantly.[2]
    Nominal Cell Voltage 1.
    ..... Click the link for more information.
    The volume of a solid object is the three-dimensional concept of how much space it occupies, often quantified numerically. One-dimensional figures (such as lines) and two-dimensional shapes (such as squares) are assigned zero volume in the three-dimensional space.
    ..... Click the link for more information.
    A large electric current, many times the normal running current, which is drawn for a short duration, when power is first applied, by capacitive loads, motors, and temperature-dependent resistive loads such as incandescent lights, and resistive heating elements of nichrome, tungsten, or
    ..... Click the link for more information.
    Power-to-weight ratio (specific power) is a calculation commonly applied to engines and other mobile power plants to enable the comparison of one unit (design) to another. Power-to-weight ratio is a measurement of actual performance of any engine (power plant).
    ..... Click the link for more information.
    CARS is a four-letter acronym that can stand for:
    • Cable television relay service station
    • Canadian Aviation Regulations
    • Childhood Autism Rating Scale‎
    • Customer Access and Retrieval System
    • Citizens Against Road Slaughter

    ..... Click the link for more information.
    An automobile self-starter (commonly starter motor or simply starter) is an electric motor that initiates piston motion in a car's internal combustion engine before it can power itself.
    ..... Click the link for more information.
    forklift truck, a lift truck, a High/Low or a forklift and sideloader is a powered industrial truck used to lift and transport materials, normally by means of steel forks inserted under the load.
    ..... Click the link for more information.
    Note: Free Dictionary cites: The American Heritage® Dictionary of the English Language, Fourth Edition copyright ©2000 by Houghton Mifflin Company. Updated in 2003. Published by Houghton Mifflin Company.)
    2. ^ Basic Crane Design principles .
    ..... Click the link for more information.
    electric motor converts electrical energy into mechanical energy. The reverse process, that of converting mechanical energy into electrical energy, is accomplished by a generator or dynamo.
    ..... Click the link for more information.
    Diesel or diesel fuel (IPA: /ˈdiːzəl/; voiced "s" because of its eponym) is a specific fractional distillate of fuel oil (mostly petroleum) that is used as fuel in a diesel engine invented by German
    ..... Click the link for more information.
    submarine is a watercraft that can operate underwater. Military submarines were first widely used in World War I and are used by all major navies today. Civilian submarines and submersibles are used for scientific work at depths too great for human divers.
    ..... Click the link for more information.
    2
    (Amphoteric oxide)
    Electronegativity 2.33 (scale Pauling)
    Ionization energies
    (more) 1st: 715.6 kJmol−1
    2nd: 1450.5 kJmol−1
    3rd: 3081.
    ..... Click the link for more information.
    Lead (IV) oxide, PbO2, also plumbic oxide and lead dioxide, is an oxide of lead, with lead in oxidation state +4. It has a molar mass of 239.2 g/mol.
    ..... Click the link for more information.
    An electrolyte is a substance containing free ions that behaves as an electrically conductive medium. Because they generally consist of ions in solution, electrolytes are also known as ionic solutions, but molten electrolytes and solid electrolytes are also possible.
    ..... Click the link for more information.


    This article is copied from an article on Wikipedia.org - the free encyclopedia created and edited by online user community. The text was not checked or edited by anyone on our staff. Although the vast majority of the wikipedia encyclopedia articles provide accurate and timely information please do not assume the accuracy of any particular article. This article is distributed under the terms of GNU Free Documentation License.
    Herod_Archelaus


    page counter