main page |
purchase
|
parts |
links
|
e-mail |
getting
started |
turbines
East Penn / Deca Batteries:
We recommend the L16 and 2200 Battery as a:
entry level or medium entry level battery.
We can offer industrial batteries
too,
the selection is vast so call for
help on those.
 |
 |
|
Need battery help contact us.
We have a glossery of terms here.
Hints:
Deep cycle batteries are measured in amp hours
not
cold cranking amps like car and truck batteries.
Car and truck batteries will not last very long for alternative power
usage as they are not meant to be cycled (drained).
Batteries are DC not AC.
An amp hour is a measurment of how many amps are
available in the batteries for use.
It means 1 amp used for 1 hour.
So if a battery has 270 amp hours it has 1 amp available for 270 hours.
Although this is technically true, it is best not to remove more then
80% of the amp hours from the battery at one time...ideally it is best
to use no more then 50% to make the batteries last a long time.
So in a backup power situation having 370 (AH ) amp hours
available would mean:
From full to 80% discharge you would have 296 (AH ) amp hours available
to use.
From full to 50% discharge you would have 185 (AH ) amp hours
available to use.
To calculate how much power any one item you wish to power needs in
battery storage:
So if its a AC device that you are trying to figure out how many
amps it uses in DC
A TV that uses 200 watts for instance = 200 watts AC divided by 12
volts DCbattery voltage = 16.66 amps DC/hr.
So if you have 185 amp hours available (50%) in
your 370 AH battery you can run the TV for 11.10 hours.
185 AH divided by 16.66 amps DC = 11.10 hours.
The electrical equation I'm using above is :
Watts = amps X volts.
you can use it like this too:
amps X volts = watts.
OR .
watts divided by amps = volts.
OR.
watts divided by volts = amps.
By knowing 2 of the 3 numbers in that equation you can find the third
number easily.
Most appliances , TV's , radios etc have at least 2 of the numbers
available on the silver sticker on the back or bottom of its outer casing.
If a fan uses 5 amps @ 120 volts AC you would :
5 amps X 120 volts = 600 watts / hour.
In battery power that would =:
600 watts AC divided by 12 volts DC (battery voltage) = 50 amps
DC / per hour / consumption..
If you have low watt lighting:
14 watts AC, divided by 120 volts = .11 amps/per
hour.
So with that in mind if you want to calculate the consumption of
10 , 14 watt lights you would do so like this:
.11 amps X 10 lights (14 watts) = 1.10 amps. ( for 10 low watt lights
on for 1 hour ).
1.10 amps X 120 volts = 132 watts.
In battery power that would be:
132 watts AC divided by 12 volts DC(battery voltage) = 11 amps DC /
per hour / consumption
A 370 amp hour battery using up to 50% discharge( 185 AH ) could power
those 10 lights for:
185 AH divided by 11 ampsDC = 16.8 hours. (The lights could run).
It is important to note that you can always disconnect
your windturbine or solar panels from your batteries without harming your
wind turbine or solar panels, as long as you not leaving the open lines
to harm anyone.
If you are not using the backup system, or you are making too much
power.
Also it is important to make sure that you have enough charging capacity
to get you through an extended period of no power from the utility company.
Using the above formulas and estimating your possible usage on the
calculating
your consumption page.
you should be able to estimate how much power you will need to produce,
to see you through any rough times or for your total consumption needs
if you are considering being energy independant.
If you have further questions please contact
us.
copyright 2003 ASF.