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What Is Sealed Lead Acid Battery Technology
What is sealed lead acid battery. Description of Sealed Lead Acid Battery Technology

Source of This Technology Information is Wikapedia

A VRLA battery (valve-regulated lead–acid battery) is a type of low-maintenance lead–acid rechargeable battery. Because of their construction, VRLA batteries do not require regular addition of water to the cells. VRLA )(Gel Cell) batteries are commonly further classified as:
Absorbed glass mat (AGM) battery

Gel battery ("gel cell")
These batteries are often colloquially called sealed lead–acid batteries, but they always include a safety pressure relief valve. As opposed to vented (also called flooded) batteries, a VRLA (Gel Cell) cannot spill its electrolyte if it is inverted. Because AGM VRLA batteries use much less electrolyte (battery acid) than traditional lead–acid batteries, they are also occasionally referred to as an "acid-starved" design.
The name "valve regulated" does not wholly describe the technology; these are really "recombinant" batteries, which means that the oxygen evolved at the positive plates will largely recombine with the hydrogen ready to evolve on the negative plates, creating water and so preventing water loss. The valve is a safety feature in case the rate of hydrogen evolution becomes dangerously high. In flooded cells, the gases escape before they have a chance to recombine, so water must be periodically added.
One result of this design is a much higher ratio of power to "floorspace" than large, flooded type battery systems; another is a high-rate power capacity, though of relatively short duration. As a result, VRLA (Gel Cell) batteries are frequently employed in UPS (uninterruptible power supply) or other high-rate applications.

Construction:
These batteries have a pressure relief valve which will activate when the battery is recharged at high voltage, typically greater than 2.30 volts per cell. (A 12-volt battery has six cells.) Valve activation allows some of the gas or electrolyte to escape, thus decreasing the overall capacity of the battery. Rectangular cells may have valves set to operate as low as 1 or 2 psi; round spiral cells, with metal external containers, can have valves set as high as 40 psi.
The cell covers typically have gas diffusers built into them that allow safe dispersal of any excess hydrogen that may be formed during overcharge. They are not permanently sealed, but are maintenance free; and they can be oriented in any manner, unlike normal lead–acid batteries, which must be kept upright to avoid acid spills and to keep the plates' orientation vertical. Cells may be operated with the plates horizontal (pancake style), which may improve cycle life.

VRLA (Gel Cell) cells may be made of flat plates similar to a conventional flooded lead–acid battery, or may be made in a spiral roll form to make cylindrical cells.
At high overcharge currents, electrolysis of water occurs, expelling hydrogen and oxygen gas through the battery's valves. Care must be taken to prevent short circuits and rapid charging. Constant-voltage charging is the usual, most efficient and fastest charging method for VRLA (Gel Cell) batteries, although other methods can be used. VRLA (Gel Cell) batteries may be continually "float" charged at around 2.35 volts per cell at 25 °C. Some designs can be fast charged (1 hour) at high rates. Sustained charging at 2.7 V per cell will damage the cells. Constant-current overcharging at rates higher than C/3 will exceed the capacity of the cell to recombine hydrogen and oxygen.

Compared with flooded lead–acid cells, VRLA (Gel Cell) batteries offer several advantages. The battery can be mounted in any position, since the valves only operate on over pressure faults. Since the battery system is designed to be recombinant and eliminate the emission of gases on overcharge, room ventilation requirements are reduced and no acid fume is emitted during normal operation. The volume of free electrolyte that could be released on damage to the case or venting is very small. There is no need (nor possibility) to check the level of electrolyte or to top up water lost due to electrolysis, reducing inspection and maintenance. Compared to flooded batteries, VRLA (Gel Cell) batteries are more sensitive to high temperature environments and more vulnerable to thermal run-away during abusive charging conditions. VRLA (Gel Cell) batteries also have higher charge efficiency; flooded cells convert 15–20% of the electrical energy into heat instead of potential power. Gel-cells lose 10–16% but AGMs as little as 4%. While flooded cells lose up to 1% per day due to self-discharge, VRLA (Gel Cell)s lose 1–3% per month.

History:
The first AGM cell was the Cyclon, patented by Gates Rubber Corporation in 1972 and still produced now by Enersys. The cyclon is a spirally wound cell with thin lead foil electrodes. A number of manufacturers seized on the technology to implement it in cells with conventional flat plates. The first manufacturer to achieve a significant market position was arguably Yuasa of Japan. Their range of low capacity lightweight batteries achieved rapid take up in alarms and emergency lighting by about 1980 and also some acceptance for UPS and PABX support.

In the mid 1980s two UK companies, Chloride and Tungstone, simultaneously introduced 10 year life AGM batteries in capacities up to 400 Ah, stimulated by a British Telecom specification for batteries for support of new digital exchanges. In the same period, Gates acquired another UK company, Varley, specializing in aircraft and military batteries. Varley adapted the Cyclon lead foil technology to produce flat plate batteries with exceptional high rate output. These gained approval for a variety of aircraft including the BAe 125 and 146 business jets, the Harrier and its derivative the AV8B, and some F16 variants as the first alternatives to the normal NiCd batteries.

Moves to higher capacity AGM batteries were led by GNB's Absolyte range extending to 2000 Ah. VRLA (Gel Cell)/AGM technology is now widespread in both stationary and vehicle batteries.
AGM batteries are just like flooded lead acid batteries, except the electrolyte is being held in the glass mats, as opposed to freely flooding the plates. Very thin glass fibers are woven into a mat to increase surface area enough to hold sufficient electrolyte on the cells for their lifetime. The fibers that compose the fine glass mat do not absorb nor are affected by the acidic electrolyte they reside in. These mats are wrung out 2–5% after being soaked in acids, prior to manufacture completion and sealing. The AGM battery can now accumulate more acid than is available, and never spill a drop.
The plates in an AGM battery may be any shape. Some are flat, others are bent or wound. AGM batteries, both deep cycle and starting, are built in a rectangular case to BCI battery code specifications. Optima Battery builds a patented cylindrical AGM series of batteries that are fashioned to fit the same BCI battery size specifications as any other battery.

Advantages:
All AGM batteries have enhancements over flooded lead acid batteries:
Purer lead in the plates, as each plate no longer needs to support its own weight, due to the sandwich construction with AGM matting. Traditional cells must support their own weight in the bath of acid.
Fluid retention – un-spillable.
High specific power or power density, holding roughly 1.5x the AH capacity of flooded batteries due to purer lead.
Low internal resistance allowing them to be charged and discharged quite rapidly.
Depth of discharge for optimal performance is up to 80% while flooded batteries can only be rated up to 50% depth of discharge.
Water conservation – never requires addition of water.
Acid encapsulation in the matting.
Operation well below 0°F or -18 °C.
Availability of UL, DOT, CE, Coast Guard, and Mil-Spec approved types.
Vibration resistance due to the sandwich construction.

Disadvantages:
Cost. AGM automobile batteries for example, are typically about twice the price of flooded-cell batteries in a given BCI size group.
AGM batteries have up to a 10-year lifespan.
AGM batteries do not tolerate overcharging. Overcharging dissociates the water in the electrolyte, which is unable to be replaced, leading to premature failure.

Gel Battery:
A gel battery (also known as a "gel cell") is a VRLA (Gel Cell) battery with a gelified electrolyte; the sulfuric acid is mixed with silica fume, which makes the resulting mass gel-like and immobile. Unlike a flooded wet-cell lead–acid battery, these batteries do not need to be kept upright. Gel batteries reduce the electrolyte evaporation, spillage (and subsequent corrosion issues) common to the wet-cell battery, and boast greater resistance to extreme temperatures, shock, and vibration. Chemically they are almost the same as wet (non-sealed) batteries except that the antimony in the lead plates is replaced by calcium, and gas recombination could take place. The modern Gel formulation and large scale production was from Otto Jache's and Heinz Schroeder's assigned to the German Co. Accumulatoranfabrik Sonnenschein GmbH . With gel electrolyte the separator was no longer such a critical, hard to make component. and cycle life was increased in some cases dramatically. With gel electrolyte a number of the shedding of active material failure problems were eliminated. More importantly real gas recombination was used to make batteries that were not "watered" and could be called maintenance free. The one-way valves were set at 2 psi. and this was high enough to have full recombination take place. At the end of charge when oxygen was evolved from overcharge on the positive plate It traveled through the shrink cracks in the gel directly to the Negative plate made from high surface area pure lead and "burned"(three phase catalytic sites—gas, liquid, and metal) up as fast as it was made. This oxygen gas and the hydrogen adsorbed on the surface of the sponge Lead metal Negative burned to make water that was retained in the cell and not vented as gas. This sealed /non-spill feature made it possible to make very small VRLA (Gel Cell) batteries (1 –12 Amp hr. range) that fit into the growing portable electronics market. A large market for inexpensive smaller sealed Pb/Acid batteries was generated quickly. Portable TV, light for news cameras, children's toy riding cars, emergency lighting, and the growing market for UPS systems for computer back-up, to name a few, were powered with small sealed VRLA (Gel Cell).

Applications:
Many modern motorcycles and ATVs on the market use AGM batteries to reduce likelihood of acid spilling during cornering, vibration, or after accidents, and for packaging reasons. The lighter, smaller battery can be installed at an odd angle if needed for the design of the motorcycle. Pedal bicycles also use these batteries for homebrew lighting.
Due to the higher manufacturing costs compared with flooded lead–acid batteries, AGM batteries are currently used on premium vehicles. As vehicles become heavier and equipped with more electronic devices such as navigation, stability control, and premium stereos, AGM batteries are being employed to lower vehicle weight and provide better electrical reliability compared with flooded lead–acid batteries. Deep-cycle AGMs are also commonly used in large-scale amateur robotics. Two examples are the FIRST and IGVC competitions.
AGM batteries are routinely chosen for remote sensors such as ice monitoring stations in the Arctic. AGM batteries due to their lack of free electrolyte will not crack and leak in these cold environments.
VRLA (Gel Cell) batteries are used extensively in power wheelchairs, as the extremely low gas and acid output makes them much safer for indoor use. VRLA (Gel Cell) batteries are also the standard power source in sailplanes, due to their ability to withstand a variety of flight attitudes and a relatively large ambient temperature range with no adverse effects. Both AGM and Gel cells are commonly used in powered aerobatic aircraft, for the same reasons.

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