How to Increase Life of Battery – Lead Acid or Wet Batteries

Did You Know: Batteries could be two times more expensive than inverters. Most Batteries that come with warranty of 24 months do not last more than 14 months.

You would agree that your home batteries can be much more demanding than inverters – they need frequent water top-up or they may not give adequate backup even after being fully charged and in some cases you may have to replace the batteries soon after buying them. Your inverter can last up to 10-15 years but batteries won’t last more than 2 years. Why?

Of course every battery has a life span (like living beings) which is made-up of charge and discharge cycles. No battery will last forever but a lot also depends on the way it is charged.

What happens when you don’t sleep properly for one night? Your productivity during the day will be low and the next night you will go to bed much earlier. If you don’t sleep properly for a months? You may get sick and may have to be admitted in a hospital. The same happens with batteries. As sleep is very important for us, correct charging is essential for batteries. The many problems that you face with your home batteries are a result of improper charging. If your home inverter that charges batteries (or solar charge controller in case of solar installation) is good, you can get freedom from these troubles and increase battery life by 6-12 months.

charging batteries

3 Things That Can Increase or Decrease Battery Life

1. Outside Temperature

Change in Temperature Can Harm Battery Life and Its Ability to Hold Charge

Reason: Wet Lead Acid batteries contain electrolyte which expands in hot temperature. It means that the electrons are now freely moving and battery can achieve full charge with less boost charge voltage. But the problem is that many inverters can’t detect outside temperature.

The inverter manufacturers set the boost charge voltage assuming the temperature of 25 degrees Celsius. However, in summers the temperature can up to 40 degrees. If the temperature increases and your inverter’s charger keeps charging the batteries as if it was 25 degress then it will lead of over charging of batteries.

Studies have proved that continuous over charging of batteries can decrease battery’s life by 50%. It also causes leakage of toxic fumes from batteries because batteries are made of sulphuric acid.

Opposite happens when the temperature is low. In cold temperature, battery’s chemical would achieve a near freezing state. It would need more boost charging voltage than it would if the temperature was 25 degrees. However, the inverter can’t detect outside temperature and doesn’t increase boost charging voltage. This results in undercharging of batteries.

According to research, if batteries remain undercharged, they will lose the capacity to hold 100% charge. Basically you will not get a good back-up even if the battery is fully charged. Problem, right?

Change in Temperature Affects Battery Life

Solution: Choose an inverter which has ability to detect outside temperature and regulate charging voltage based on that. This technology is called Automatic Temperature Compensation. Many chargers that are used to charge batteries in cars have this feature. If the temperature is too high then they decrease the boost charge voltage and increase it when the temperature is low.

BTW Su-Kam’s Falcon plus (home inverter) and Brainy Eco (solar home inverter) have Automatic temperature compensation. They come with sensor wire which senses the outside temperature and the inverter regulates the boost charge voltage.

2. Sulphation

Wet batteries or LA batteries are made up of sulphuric acid and water. If the battery remains undercharged during many charge cycles, it may cause build-up of sulphate on battery’s plates. What it simply means is that the acid in battery has reached such a deep discharge state that it has begun to cover the lead plates of battery. If this is not taken care of, it can lead of death of battery!

breaking down sulphation in batteries

Solution: Choose an inverter that has feature of desulphation. Most of the inverters in market charge batteries only in two or three steps they start by giving a bulk charge to batteries and finish off by bringing battery in state of 100% charge. They don’t do anything to counter sulphation.

Thankfully, Su-Kam has introduced 6 stage charging technology in its inverters and solar charge controllers. The first stage is dedicated to tackling the problem created by sulphation. Desulphation stage removes the build of sulphate. It is followed by 5 other stages which makes charging proper and quicker.

Desulphation can remove sulphate builup in batteries

 3. Deep Discharge Beyond 10.5 V

Every battery has a reserve capacity. For example if a fully charged 12v battery has voltage of 13v, your inverter should not allow you to drain  it beyond10.5. If it reaches below 10.5 then your inverter should show ‘battery low’ and start the charging. But the problem is that ordinary inverters in market don’t do this – they may drain your battery to a dangerous level of 9.5 or even 9v. If this happens repeatedly then you battery will not be able to hold 100% charge.

Choose more battery reserve to protect battery from deep discharge

A Cool Example: Did you know that if you only charge your mobile phones’ battery when it completely dies down then the battery will not be able to remain 100% charge for a longer period of time? In fact this is also the reason why your phone shuts down when battery is very low. This happens to protect battery from deep discharge.

Solution: Use an inverter that automatically disconnects the battery when it reached 10.5v. Su-Kam’s home UPS and home solar inverter have this features. They have a small switch at the back where you can choose the battery reserve to 11v or 10.5v. We would recommend 11v because it is good for the health of battery to have more reserve. But then you may choose to get maximum out of the battery – no problem! In either of the cases, Su-Kam’s inverter will not let the voltage drop below 10.5v.

Save battery from deep discharge

We can assure you that if you take care of above  3 things you can prolong the life of your battery. The battery which is supposed to last 24 months will very well last beyond 30 or 35 months. Now that is a huge saving – not only in terms of money but for the convenience as well.

Got more questions about inverters and batteries? Leave your comments and we will answer all your questions.

Read More:

Battery Charging in six stages!

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