Results 1 to 2 of 2

Thread: Sizing Batteries for inverters

Threaded View

Previous Post Previous Post   Next Post Next Post
  1. #1
    Email problem Tonye's Avatar
    Join Date
    Mar 2015
    Location
    Pretoria
    Posts
    42
    Thanks
    0
    Thanked 11 Times in 8 Posts

    Sizing Batteries for inverters

    How long will the batteries last when I am running off my inverter?

    This is usually one of the first questions clients ask

    Well that depends on numerous factors.
    1) The Power or wattage you are using
    2) The size of Battery (Amp hours)
    3) The depth of discharge (DOD) of the batteries
    4) The efficiency of the inverter/battery system.

    To simplify this, I created an online calculator (View Here)
    This can be viewed on a Desktop computer, a Tablet or Smartphone.

    Simply input the following
    1) no. of batteries you intend using
    2) The battery voltage
    3) The Amphour rating of the battery
    4) The inverter efficiency (default is 80%)
    5) The Depth of Discharge of the Batteries (default is 50%)
    6) The wattage of appliances or circuits you intend using

    The number of hours is then calculated based on all of the above.

    The next question is

    How many years will the batteries last?

    Firstly, deep cycle batteries lifespan are measured in cycles & not in years.
    (a cycle = 1 discharge & 1 charge cycle)

    The manufacturer of the battery should provide you with a discharge graph
    showing different cycle lives @ different depth of discharge percentages.

    An example would be as follows
    400 cycles @ 50% depth of discharge
    200 cycles @ 70% depth of discharge
    100 cycles @ 80% depth of discharge

    As can be seen the cycle life is greatly affected by the depth of discharge
    and it would be advisable to not discharge the batteries by more than 50% to ensure
    a decent battery lifespan.

    Lithium Iron Phosphate batteries (LiFePo4) are now available locally which guarantee
    a 7000 cycle life @ 50% depth of discharge.
    They are however frightfully expensive, ranging from R40000.00 - R460000
    (View Specs Here)

    Also bear in mind some other advantages of Lithium Iron Phosphate batteries versus Lead Acid.
    An increase in Temperature of say 25 degrees C to 35 degrees C will halve the lifespan of a Lead Acid Battery.

    Lithium Iron Phosphate batteries are unaffected by temperatures up to 45 degrees C.

    Typical re-charge time of a lead acid battery is 8-9 hrs (irrespective of the depth of discharge)
    The re-charge time of a lithium Iron phosphate battery is 30-60 minutes.

    The next question is

    How do I control the depth of discharge of the batteries?

    Some inverters have a certain amount of control to turn the inverter off when the batteries reach a certain low voltage
    (The voltage basically determines the state of discharge of the batteries)

    However most inverters do not have a variable low battery control.

    These inverters will drain the battery to +- 90% before the inverter shuts down.

    The Lithiun Iron Phosphate batteries have a built in battery management system which is pre-programmed
    at either 50 or 70% depth of discharge cutoff.

    By interfacing the Battery management system with the output of the inverter, the inverter
    will shutdown when the determined depth of discharge has been reached.

    However most people do not wish to layout the capital for these batteries.

    So how do we overcome this problem?

    This can be achieved by using the calculator mentioned above & constantly monitoring the wattage usage.

    The next obvious question is

    How do I monitor the wattage?

    Efergy have a wireless power monitor, which can be purchased at Builders Warehouse (Ellies)
    (View Details Here)

    Simply clip the supplied CT (current transformer) to the output live wire of the inverter.
    Connect the CT to the wireless transmitter.
    Turn on the Wireless monitor to pair with the transmitter.
    You can now monitor your power consumption in real time.

    The voltage has to be entered into the monitor for it to calculate the wattage.
    Use the std voltage of 230v
    If the voltage fluctuates then the monitor would not be 100% accurate.
    However one can expect a 90% accuracy.

    As batteries will be an ongoing expense, it is worthwhile installing one of these to ensure you get the maximum lifespan
    out of your batteries.

    I hope this helps & would appreciate any comments or suggestions.
    Last edited by Tonye; 21-Feb-16 at 08:19 PM.

  2. Thanks given for this post:

    mikilianis (24-Feb-16)

Similar Threads

  1. GENERATORS?UPS?INVERTERS?
    By QUINN in forum Electrical Load Shedding Forum
    Replies: 39
    Last Post: 15-Nov-21, 05:23 PM
  2. Inverters
    By Sparks in forum Electrical Contracting Industry Forum
    Replies: 16
    Last Post: 15-Jul-15, 06:42 AM
  3. Looking for someone who knows about Inverters
    By HR Solutions in forum Local Ads on TFSA
    Replies: 0
    Last Post: 21-Jan-15, 12:55 PM
  4. Inverters
    By HR Solutions in forum General Chat Forum
    Replies: 33
    Last Post: 11-Dec-14, 01:55 PM
  5. [Question] Rechargeable Batteries - Li-Ion?
    By irneb in forum Technology Forum
    Replies: 8
    Last Post: 27-Nov-08, 08:21 AM

Tags for this Thread

Did you like this article? Share it with your favourite social network.

Did you like this article? Share it with your favourite social network.

Posting Permissions

  • You may not post new threads
  • You may not post replies
  • You may not post attachments
  • You may not edit your posts
  •