Deep-cycle battery

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A deep cycle battery powering a traffic signal

A deep-cycle battery is a battery designed to be regularly deeply discharged using most of its capacity. The term is traditionally mainly used for lead–acid batteries in the same form factor as automotive batteries; and contrasted with starter or 'cranking' automotive batteries designed to deliver only a small part of their capacity in a short, high-current burst for cranking the engine.

For lead-acid deep-cycle batteries there is an inverse correlation between the depth of discharge (DOD) of the battery and the number of charge and discharge cycles it can perform;[1] with an average "depth of discharge" of around 50% suggested as the best for storage vs cost.[2]

Newer technologies than the traditional lead-acid (such as lithium-ion batteries) are becoming commonplace in smaller sizes in uses such as smartphones and laptops. The new technologies are also beginning to become common in the same form factor as the automotive lead-acid batteries, although at a large price premium.[3]

Types of lead-acid deep-cycle battery[edit]

A deep-cycle battery hooked up to a charger.

The structural difference between deep-cycle and cranking lead-acid batteries is in the lead battery plates. Deep cycle battery plates have thicker active plates, with higher-density active paste material and thicker separators. Alloys used for the plates in a deep cycle battery may contain more antimony than that of starting batteries.[4] The thicker battery plates resist corrosion through extended charge and discharge cycles.

Deep-cycle lead-acid batteries generally fall into two distinct categories; flooded (FLA) and valve-regulated lead-acid (VRLA), with the VRLA type further subdivided into two types, Absorbed Glass Mat (AGM) and Gel. The reinforcement of absorbed glass mat separators helps to reduce damage caused by spilling and jolting vibrations.[5] Further, flooded deep-cycle batteries can be divided into subcategories of Tubular-plated Opzs or flat plated. The difference generally affects the cycle life and performance of the cell.

Flooded[edit]

The term "flooded" is used because this type of battery contains a quantity of electrolyte fluid so that the plates are completely submerged. The electrolyte level should be above the tops of the plates which serves as a reservoir to make sure that water loss during charging does not lower the level below the plate tops and cause damage. Flooded batteries will decompose some water from the electrolyte during charging, so regular maintenance of flooded batteries requires inspection of electrolyte level and addition of water. Major modes of failure of deep-cycle batteries are loss of the active material due to shedding of the plates, and corrosion of the internal grid that supports active material. The capacity of a deep cycle battery is usually limited by electrolyte capacity and not by the plate mass, to improve life expectancy.[4]

New technologies[edit]

Although still much more expensive than traditional lead-acid, a wide range of rechargeable battery technologies such as lithium-ion are increasingly attractive for many users.[citation needed]

Applications[edit]

Deep cycle batteries in an electric boat refit.

Recycling[edit]

According to the Battery Council International ("BCI") -- a lead-acid battery industry trade group -- the vast majority of deep cycle batteries on the market today are lead acid batteries. BCI says lead acid batteries are recycled 98% by volume, 99.5% by weight. According to BCI, the plastic cases, lead plates, sulfuric acid, solder, and other metals are 100% recovered for reuse. BCI says the only part of a battery that is not recyclable is the paper separators that wrap the plates (due to the acid bath the paper sits in, the fiber length is reduced so far that it cannot be rewoven).

BCI says that, industry wide, there is a greater than 98% rate of recovery on all lead acid batteries sold in the United States, resulting in a virtually closed manufacturing cycle.[6]

See also[edit]

References[edit]

  1. ^ "AGM Discharge Characteristics".
  2. ^ "Deep Cycle Battery FAQ". Windsun.com. Archived from the original on 2010-07-22. Retrieved 2011-07-20.
  3. ^ "Lithium RV Battery System Cost Analysis". Technomadia.com. 16 November 2011. Retrieved 7 January 2019.
  4. ^ a b David Linden, Thomas B. Reddy (ed). Handbook Of Batteries 3rd Edition. McGraw-Hill, New York, 2002 ISBN 0-07-135978-8, pages 25-44 to 23-53
  5. ^ Marshall Batteries. "Are "Deep Cycle" batteries constructed differently?". Retrieved 2016-06-07.
  6. ^ "Battery Recycling". Batterycouncil.org. 2012. Retrieved 2014-10-02.

External links[edit]