Thermal soaring – E-flite Ascent 450 Brushless PNP User Manual

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E-flite Ascent PNP Assembly Manual

Thermal Soaring

A key component to soaring is the air mass the park glider flies

in. Also, there is an energy source producing lift, either a warm

air thermal (thermal lift), or the wind rising as it meets an obstacle

such as a hill or a line of mountains (ridge lift). We will limit our

discussion to describing thermal soaring.
We will be using the electric motor to launch our park glider

to altitude. Once at altitude we shut down the motor and the

park glider will soar, eventually to return to earth until we use

the motor to climb again. How then does a park glider stay

aloft for long periods of time and travel long distances? Some

force has to provide sufficient lift to overcome gravity when the

motor is not used.
One such force is the thermal. The thermal is simply a column

of rising warm air. Warm air is lighter (less dense) than cooler

air and thus rises. The term "differential heating" is used to

describe the generation of thermals. Descending cool air is

known as "sink."
Balloonists, to launch and fly their hot air balloons, use the

principle of warm vs. cool air. They create and trap warm air

inside the balloon envelope, and the warm air displaces the cool

air, causing the balloon to inflate and rise until air begins to

cool inside the envelope. The balloonist simply uses a propane

heater to warm the air again, causing the balloon rises again or

maintains its altitude.
Nature generates thermals by the sun heating darker ground

or objects more than lighter colored surfaces. The dark object

absorbs the sun's heat becoming warm and thus warming the air

above it.

For a thermal to be formed, the sun (or a heat source such as a

hot metal roof, factory, etc.) will heat the ground or surrounding

air in one location faster or warmer than the surrounding air.

The warm ground will warm the air above it and cause the air to

begin to rise. Rising warm air can take on the form of a column

or a funnel. Usually the part of the thermal near the ground is

small and expands outward as it rises in altitude.
Since the warming of air is usually a much smaller area than

the total area, the thermal updraft will be faster than the cooler

downdraft motion of air. This cooler downdraft of air is referred

to as "sink" and causes glider flights to be of a much shorter

duration as the lift generated by the wing is overcome by the

downward motion of the air.
To stay aloft one's task is to move from one thermal to another,

utilizing the lift created by rising warm air. In level flight, a glider

continuously descends in relation to the surrounding air. The only

way to sustain flight in a glider beyond the sink time in still air

(without a motor) is to fly in an air mass that is rising at a rate

greater than the sink rate of the glider.
Thermals usually cannot be seen. (An exception is a "dust

devil—a small thermal that has picked up dust making it

visible.) One can sometimes "feel" the presence of a thermal.

A breath of air in an otherwise calm spot indicates the presence

of a thermal. A shift in the wind (in a light breeze) probably

indicates airflow into a thermal. And one can watch for the

graceful soaring of birds, such as hawks and eagles to locate

the presence of thermals.