Aircraft pressurise through the air conditioning system. All door of the aircraft are sealed and the windows sealed too. Bleed air from the engines goes through the pneumatic system before it is reduced in pressure and temperature in the air conditioning system. The mixing manifold collects the air for distribution. Cold air is from the overhead fans on the passenger service unit (PSU) and the warm air is from the ducts in the side wall.
Once the air is inside the fuselage, its exit is controlled through valves in the structure. The valves modulate to control the exit (like opening a window to let more/less air out). At cruising altitude of 36,000ft, the internal pressure is maintained at the equivalent Earth altitude of 7,000ft.
The pressure is maintained at 7,000ft because the pressure difference between the outside and inside needs to be maintained at a level suitable for breathing whilst preserving the aircraft structure.
While the pressure outside the aircraft is very low, cabin pressurization allows pilots to pressurize the aircraft cabin to about 11.5 psi. They try to keep the cabin pressurized to make it seem like the air at around 7,000 feet. That's why your ears pop.
In the default 737 747 the cabin pressures are determined by the config file. In some of the add on 3rd party packages which are paid for the is more functionality
pressure..!
Why shouldn't technician use oxygen or compressed air to pressurize appliances to check for lea
yes
Yes, it can.
Cycle the ignition on and off several times holding it in the on position for a few seconds each time. Doing this 4-5 times will allow the fuel pump to pressurize the fuel system.
Modern jet airplanes fly at high altitudes, where there is less air and therefore less oxygen. Aircraft cabins are pressurized so that pilots and passengers can have enough oxygen to breathe. There is a high air pressure inside the cabin because outside air (and oxygen) is forced into the cabin by the engines in order to pressurize the inside of the airplane, and this gives people enough oxygen to breathe. This is only possible because the airplane is sealed; if the windows and doors were open, the engines wouldn't be able to pressurize the cabin.
There's an engine-driven compressor. On a turbine engine they pull bleed air off one of the turbine sections; on a piston engine plane it's an accessory to the engine. (Having said that, very few piston planes have pressurized cabins--they don't go high enough to need them.)
pressurize water in a container and release it
pressurize it
you can pressurize the system to find a leak