The Home Made Theory to Estimating AC tonnage

Why I tried this?

After buying the 1^st AC, it intrigued me that how the ac tonnage is calculated. I’d done that with the various online calculators available in. Browsing thru several sites I cudn’t gather the exact calculation and as is always the case I tried the hard method viz., starting from the 1^st principles. I don’t know whether it’s correct but I think this will give a rough estimate, at least the min requirement, while buying ur AC. In case u think otherwise, plz help me out refining the model.

A bit of a history

The ton that is referred in AC manuals is actually a measure of power which is that power required by a short ton (i.e. 2000lb) of ice to be converted to water at 0⁰C in 24hr. Thus,

1 ton = mass of ice x latent heat of ice / time = 3.5kW.

Calculations

The room where the AC is to be installed must be measured for its length (L), breadth (B) and height (H). Thus the total volume (V) of air, considering it to be an ideal rectangular parallelopiped devoid of any furnitures (crazy right!) will be given by

V = LBH.

If u know the density (r_air) of air, assume a value that is denser nearer to room temp., which will give u a conservative value (a good thing for a safer engg design, though the term safe is relative!), u may calculate the mass of air needed to be cooled by

m_air = r_air x V.

For my design I assumed it to be 1.2kg/m³.

In general for any temp diff (DT) in Kelvin (the temp diff will be same in ⁰C and K), the amount of heat (DH_air) to be absorbed will be

DH_air = m_airS_airDT,

where,

S_air is the heat capacity of air.

Now generally u require AC to cool down to not more than a temp diff of 10⁰C.

Again a good AC assures that the cooling to any temp will be within 2min. Thus the power required for the cooling in Dt will be.

P_air = DH/Dt.

Now the model may be refined by adding other power devices (P_other) that u expect in the room. So if T TR be the tonnage of the AC,

T = (P_air + P_other)/3.5kW.

Remember the only hitches

U have to know certain physical constants and the SI system of units. If that’s too much then follow the shortcut given below.

Feedback

So plz tell me this helped!

Shortcut

For a 10' x 10' x 10' room u will require 0.818 TR according to my logic. Taking this apply the unitary method for any other volume.

Thanx

www.wikipedia.org

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