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Charging VRLA Batteries Jan 10, 2016 ensitepower.com CONFIDENTIAL ©2015 EnSite Power, Inc. What’s So Special About VRLA? • It’s not just “A battery is a battery is a battery!” • VRLA design is “different” than VLA design. • VRLA is considered as “Starved Electrolyte” design. • VRLA, by design, is a recombinant system. • VRLA is more sensitive to temperature. • In some cases, very minor design changes can affect life. 2 CONFIDENTIAL Difference between Flooded and AGM’s • Liquid electrolyte • Evolved gases escape to atmosphere • Can be topped up with water • Cannot be inverted • Electrolyte absorbed in glass mat • Evolved gases recombine • Cannot be topped up with water • Can be inverted Definitions • Nominal Voltage – 2V for a lead-acid cell • Open Circuit Voltage OCV – Voltage of the battery while at rest, i.e. no current flow • Float Voltage – Voltage applied to the battery by the rectifier or charger • Polarization (η) – Difference between the applied voltage and the OCV, this causes the current to flow – Relationship known as the Tafel Plot η = a ± b log(I) 4 CONFIDENTIAL Polarization vs. Current Charge Polarization OCV Battery on-float Low-rate discharge Higher-rate discharge Discharge Current Difference between Flooded and AGM’s Flooded • Liquid electrolyte • Evolved gases escape to atmosphere • Separate battery room required with ventillation system for dispersal of hydrogen • Can be topped up with water • Can only be operated upright • Spill containment system is required Difference between Flooded and AGM’s AGM’s • Electrolyte absorbed in glass mat • No spill containment required • Evolved gases recombine and stay within the battery • No need to top up with water • Can be operated in any orientation Difference between Flooded and AGM’s Mass Balance - Flooded PbO2 + Pb + 2H2SO4 2 PbSO4 + 2H2O Excess • Flooded LA’s have an excess of electrolyte • Easier to over discharge the positive electrode • Higher heat capacity, 30-40% since there is relatively more liquid… Difference between Flooded and AGM’s Mass Balance - AGM PbO2 + Pb + 2H2SO4 2 PbSO4 + 2H2O Excess Limited • VRLA’s are acid starved • Positive is protected by lack of acid • Can see alkaline conditions following a deep discharge which can result in dendritic growth upon recharge • Can see higher temperatures due to lower heat capacity Difference between Flooded and AGM’s Overcharge - Flooded Positive Negative Total 2H2O O2 + 4H+ + 4e4H+ + 4e- 2H2 2H2O O2+ 2H2 Vented batteries lose water through electrolysis when overcharged Difference between Flooded and AGM’s Overcharge - AGM Recombination 2H2O O2 + 4H+ + 4ePositive Negative 2Pb + O2 + 2H2SO4 2PbSO4 + 2H2O + heat Pb + H2SO4 PbSO4 + 2H+ + 2e- + heat Total Thanks to the recombination process AGM batteries do not electrolyze water, however recombination; • Discharges the negative electrode • Generates heat Difference between Flooded and AGM’s What does all this mean to a standby application? • The negative electrode is depolarized due to the recombination process – it is in danger of being discharged, hence purity is far more critical for AGM’s • The positive electrode is more anodically polarized in an AGM, hence more prone to grid corrosion • Overcharge is converted to heat in an AGM due to the recombination process • AGM’s have less electrolyte therefore a lower heat capacity, thus they require less heat to raise their temperature • Thermal management is far more critical for AGM’s… Why Are VRLAs So Finicky? • VRLAs are actually several distinct designs. • Gel Cells • Absorbed Glass Mat (AGM) • Lead-Calcium • Pure Lead • “Fire Fly” (A separate Subject!) • Each design has it’s own specific charging regime. • Not only Float voltage, but recharge voltage, as well. 13 CONFIDENTIAL Why Are VRLAs So Finicky? (cont’d) • Accuracy of the charge voltage is more critical in VRLA designs. • Recombination efficiency is directly affected by charge accuracy. • Balancing positive and negative plate polarization, while achieving high recombination efficiency is walking a razor’s edge! • Typical VRLA Float voltage has an acceptable voltage tolerance of ~ +.01/-.005 V. 14 CONFIDENTIAL VRLAs Are Several Distinct Designs • Gel Cells • • • • 15 Typically require a lower charge voltage. If charged at too high a rate, gel cells tend to form bubbles within the gel electrolyte which can cause permanent damage. Typical recommendation is maximum of 2.3 to 2.35 VPC @ 10% of rated ampacity. If charged at these voltage levels, charge voltage must be reduced to recommended float voltage as full charge level is reached. CONFIDENTIAL VRLAs Are Several Distinct Designs • Absorbed Glass Mat (AGM) • • • 16 Typical maximum recommended charge voltage is 2.35 to 2.45 VPC @ 10% of rated ampacity. If charged at these voltage levels, charge voltage must be reduced to recommended float voltage as full charge level is reached. Temperature compensated charging is highly recommended, based on battery temperature instead of ambient. CONFIDENTIAL VRLAs Are Several Distinct Designs • Pure Lead • • 17 Typical maximum recommended charge voltage is 2.45 to 2.65 VPC, with some manufacturers specifying C/5 and higher CC charge rates. Temperature compensated charging is highly recommended. CONFIDENTIAL VRLA Caveats • Manufacturers virtually always recommend Constant Voltage Charging, as opposed to Constant Current charging. • Manufacturers recommend float charging, as opposed to intermittent charging regimes. • Temperature and float voltage control are critical in order to maximize VRLA life. • Microprocessor controlled chargers can provide optimum control of charging cycle. 18 CONFIDENTIAL Additional VRLA Topics • Charging Parallel Strings • Battery Monitoring • Equalize Charging 19 CONFIDENTIAL