The SaltyBox - Marine Fish & Reef Keeping Forum: A Simple Guide to Balling Light

A Simple Guide to Balling Light
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cdurkin100 on 22/12/2011 08:59:00
 
This guide is based on the Fauna Marin Balling Light method, which is  the
method I choose to use.  For the full details of mixing the balling  light salts
etc, details can be found here
http://www.faunamarin.de/content/bal...ethode_eng.pdf.
I have written this guide to help those that are struggling to  understand
dosing with balling light, as the concept and using the  dosing calculators
available can be a bit confusing to some!!
First off, why use balling light?  Well, the simple answer to that is  for reef
aquariums, we want our major parameters (Ca, Mg, kH) to be  stable and steady
with minimal fluctuations, along with the necessary  trace elements in the
correct amounts and ratio.
Balling light is the best method currently available to us, that allows  us to
easily dose daily to compensate each major parameter individually  for daily
losses, and with this, the trace elements are also added in  the correct
quantity and ratio hence keeping all necessary parameters as  stable as
possible.
In addition, with the availability of microprocessor controlled dosing  pumps
now widespread, these can be used to spread the addition of these  individual
solutions over the course of 24 hours, enabling even tighter  control over the
stability of our parameters.
Target parameters:
To me, it is important to remember the purpose of balling light – to  keep
your major parameters (and trace elements) as stable as possible.
With this in mind, in my opinion, there can only be one set of target 
parameters for your water, and that is the measured values of Ca, Mg,  and kH
from your fresh water change water.  With balling light, you are  still required
to do regular water changes.
If you use some other target values, then each time you do a water  change, your
careful control of your key parameters is wasted, as the  water change will then
cause a sudden change in your tank parameters.   How much of a change is
determined by the volume of water change and the  difference between the
parameter values (tank water and water change  water).
To determine the amount of this change, you can use the following simple
formula:
Change = water change% x difference in value between tank water and water change
water.
For example:
Fresh water change water values for Ca = 400ppm, tank water = 450ppm and water
change % = 10%.
Change = 10% x (400-450)
Therefore in this case, the drop in Ca, would be 5ppm, just by virtue of the
water change.
Also, it is important to remember that your tank water and water change  water
need to be the same salinity, as the salinity has an effect on the  values.
So now we understand the why’s, we need to confront the how’s!!
The solutions used are as follows:
For Ca:     Calcium Chloride Dihydrate (plus 25ml Trace B Heavy Metal complex &
25ml Trace B Strontium/Barium Complex)
For Mg:    Magnesium Chloride Hexahydrate
For kH:    Sodium Bicarbonate (plus 25ml Trace B Iodine/flour complex)
When mixed correctly, you will get the following concentrations of salts per
litre of RO water:
Ca: 400g/ litre = 2.5ml/gram
Mg: 400g/litre = 2.5ml/gram
kH: 100g/ litre= 10ml/gram
From the balling calculators, this then translates into the following:
Ca: 1 ppm = 0.9175ml/ 100 litres tank water
Mg: 1ppm = 2.09ml/ 100 litres tank water
kH: 0.1kH = 3.052ml/ 100 litres of tank water
Rounding the above (this is acceptable as our test kits are not super  accurate,
and using the rounding will get us pretty close to where we  want to be):
Ca: 1 ppm = 0.9ml/ 100 litres tank water
Mg: 1ppm = 2.1ml/ 100 litres tank water
kH: 0.1kH = 3.1ml/ 100 litres of tank water
This now makes it very simple to figure out how much to dose!!!
First, you need to determine your tanks uptake of Ca, Mg and kH. Do not  add any
Ca, Mg or kH supplements whilst you are doing this, or perform a  water change!!
Take an initial measurement of these 3 parameters on Day 1.
Then several days later, measure these 3 parameters again. Note that if  you
only have a small loss per day, the variability of the test kits you  use could
have an effect on your estimated loss per day, and you may  need to measure over
a longer period. (eg. Mg test kit has an accuracy  of approx 20ppm, so just
measuring the same water again and again, could  produce a result +/- 20ppm,
without any loss!)
You should now have 2 measurements to determine your loss per day.
As an example, assuming a 500 litre tank:
Day 1: Ca = 450ppm, Mg = 1200ppm, kH = 8
Second Measurement 2 days later:
Ca = 430ppm, Mg = 1180ppm, kH = 7
So, loss over 2 days is as follows:
Ca = 450 – 430ppm = 20ppm
Mg = 1200 – 1180ppm = 20ppm
kH = 8 – 7 = 1kH
To calculate daily loss:
Ca = 20ppm/ 2days = 10ppm/day
Mg = 20ppm/ 2 days = 10ppm/day
kH = 1kH/ 2days = 0.5kH/day
From above:
Ca: 1 ppm = 0.9ml/ 100 litres tank water
Mg: 1ppm = 2.1ml/ 100 litres tank water
kH: 0.1kH = 3.1ml/ 100 litres of tank water
To calculate your daily dose:
Ca: 0.9ml x 5 (tank volume/100litres) x 10 (daily loss from above) = 45ml/day
Mg: 2.1ml x 5 (tank volume/100litres) x 10 (daily loss from above) = 105ml/day
kH =  3.1ml x 5 (tank volume/100litres) x 5 (daily loss from above) = 77.5ml/day
This will enable you to “focus in” on your target parameters, and with 
small adjustments over a few weeks, you should be able to maintain your 
parameters at the desired level.
Written by SimplyAquaria (OW)