Calculation of the lifting force of a hot air balloon

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Lift force calculation
Temperature calculation

Calculation of the lifting force of a hot air balloon

While calculating always use the flight manual for your baloon. Never exceed your maximum take-off weight!
These calculations ignore technical condition of the envelope, air humidity, its change with height, cylinders mass change caused by gas consumption, surface temperature inversions. Calculations are only relevant within the troposphere.
We recommend using this calculator for information purposes only!
If you have any ideas or suggestions for improvement you can submit it here.

To automatically receive weather data at your current location, you need to enable the geopositioning on your device.

Weather conditions:

Atmospheric pressure:

atmospheric pressure in the flight area

mmHg hPa

Specify the pressure in the flight zone

Ambient temperature:

average temperature in the flight area

°С

Specify the ambient temperature in the flight area

Balloon:

Envelope volume:

according to the balloon specs

m³

Specify the volume of the envelope

Maximum permitted temperature inside the envelope:

according to the Flight Manual of your balloon

°С

Specify the maximum temperature inside the envelope

Envelope weight:

including the mass of halyards, carabiners and air intake

Specify the mass of the envelope

Burner weight:

including the mass of pipes

Specify the weight of the burner

Basket weight:

Including altimeter, uncoupling, stands, covers, fire extinguisher, spare rope, first aid kit and documents

Specify the weight of the basket together with the equipment

Cylinders weight:

including gas, covers, plugs and straps

Specify the mass of gas cylinders

Load:

Pilot weight:

just use the scale :)

Specify your weight in equipment

Passenger weight:

check with passengers :)

Specify the total weight of passengers

Additional equipment weight:

computer, cameras, batteries, food

Specify the weight of additional equipment

Let's take off ???
Lifting force at start:
maximum takeoff weight with the specified parameters

-
Takeoff weight:
the mass of the loaded balloon at the time of takeoff

-
Load:
at the chosen height

-
Flight altitude:
above launch point

ft m

Specify the planned flight altitude
Click on the "CALCULATE" button

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The lifting force of a thermal balloon is calculated by the formula:
F_a = V * P * g/R^' * (1/T_o - 1/T_i)
Where F_a – lifting force of a hot air balloon [N];
V – is the volume of the envelope of the hot air balloon [m³];
P – is for ambient pressure [Pa];
g – free fall acceleration (9.807 m/s²);
R^' – gas constant of air (for dry air it is equal to 287 J/(kg*K));
T_o and T_i – respectively stand for the temperature of the outside or ambient air and the temperature inside the enclosure [K].

The dependence of pressure on altitude is calculated by the barometric formula:
P_h = P₀ * exp(-(M * g)/(R * T₀) * h)
Where and P_h – pressure at altitude h [Pa];
P₀ – pressure at the height of the starting point [Pa];
M – molar mass of air (0.02896 kg*mol);
g – free fall acceleration (9.807 m/s²);
R – universal gas constant (8.3143(H*m)/(mol*K));
T₀ – temperature at the height of the starting point [K];
h – height above launch point [m].
A decrease in temperature by 6.5° is taken into account for every 1000 m of rise.