Aircraft hydraulic system
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Sep 26, 2016
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About This Presentation
It gives the information about the hydraulic system used in aircrafts.
Slide Content
A
PAPER PRESENTATION
ON
“AIRCRAFT HYDRAULIC SYSTEM”
Presented By
THORAT SANDIP
SHINDE GANESH
DEPATMENT OF MECHANICAL
ENGINEERING
AMRUTVAHINI COLLEGE OF ENGINEERING, AMRUTNAGAR,TAL –SANGAMNER, DIST–AHMEDNAGAR, (M.S)
INDIA-422608
UNIVERSITY OF PUNE
(2016-2017)
PAPER PRESENTATION
ON
“AIRCRAFT HYDRAULIC SYSTEM”
Presented By
THORAT SANDIP
SHINDE GANESH
DEPATMENT OF MECHANICAL
ENGINEERING
AMRUTVAHINI COLLEGE OF ENGINEERING, AMRUTNAGAR,TAL –SANGAMNER, DIST–AHMEDNAGAR, (M.S)
INDIA-422608
UNIVERSITY OF PUNE
(2016-2017)
This presentation first describes the development and application of aircraft hydraulic
systems with emphasis on the basic structure of hydraulic systems, a typical hydraulic
system in the Boeing family of aircraft, and a typical hydraulic system in the Airbus
family of aircraft. Then, basic parameters of aircraft hydraulic systems, including
hydraulic fluid, hydraulic pressure, fluid temperature, fluid flow rate, hydraulic pipes,
and pressure pulsation, are provided. Afterward, the main components of aircraft
hydraulic systems are introduced, including aircraft hydraulic pumps (engine-driven
pump and AC motor-driven pump), power transfer units, priority valves, control
valves, check valves, hydraulic accumulators, hydraulic filters, hydraulic reservoirs,
fluid cooling systems, hydraulic actuators, and redundant hydraulic actuators. Finally,
the proof test of an aircraft hydraulic system is presented and discussed, with special
attention to the hydraulic system testing process.
Abstract
Presented by
Thorat Sandip
Shinde Ganesh
systems with emphasis on the basic structure of hydraulic systems, a typical hydraulic
system in the Boeing family of aircraft, and a typical hydraulic system in the Airbus
family of aircraft. Then, basic parameters of aircraft hydraulic systems, including
hydraulic fluid, hydraulic pressure, fluid temperature, fluid flow rate, hydraulic pipes,
and pressure pulsation, are provided. Afterward, the main components of aircraft
hydraulic systems are introduced, including aircraft hydraulic pumps (engine-driven
pump and AC motor-driven pump), power transfer units, priority valves, control
valves, check valves, hydraulic accumulators, hydraulic filters, hydraulic reservoirs,
fluid cooling systems, hydraulic actuators, and redundant hydraulic actuators. Finally,
the proof test of an aircraft hydraulic system is presented and discussed, with special
attention to the hydraulic system testing process.
Abstract
Presented by
Thorat Sandip
Shinde Ganesh
INTRODUCTION
Hydraulics is based on the fact that liquids are incompressible
Hydraulic system is a system where liquid under pressure is used to
transmit energy
In it a hydraulic pump converts mechanical power to hydraulic power
An actuating cylinder converts hydraulic power to mechanical power.
Hydraulics is based on the fact that liquids are incompressible
Hydraulic system is a system where liquid under pressure is used to
transmit energy
In it a hydraulic pump converts mechanical power to hydraulic power
An actuating cylinder converts hydraulic power to mechanical power.
A SIMPLE HYDRAULIC SYSTEM
DEVICES USING HYDRAULIC
SYSTEMS IN AIRCRAFTS
Gun turrets
Auto pilot
Shock absorption systems
Dive, landing, speed and flap brakes
Bomb bay doors
Doors and hatchways
Landing gears, wing flaps, etc…
SYSTEMS IN AIRCRAFTS
Gun turrets
Auto pilot
Shock absorption systems
Dive, landing, speed and flap brakes
Bomb bay doors
Doors and hatchways
Landing gears, wing flaps, etc…
PRINCIPLES OF OPERATION
Governed by Pascal’s law
The oil is in contact with both
sides of the piston head but at
different pressures. High
pressure oil may be pumped
into either side of the piston
head.
The selector valve determines to
which side of the actuating
cylinder the high pressure oil
(red colored side) is sent.
Governed by Pascal’s law
The oil is in contact with both
sides of the piston head but at
different pressures. High
pressure oil may be pumped
into either side of the piston
head.
The selector valve determines to
which side of the actuating
cylinder the high pressure oil
(red colored side) is sent.
PARTS OF THE POWER
SYSTEM
RESERVOIR
ACCUMULATOR
FILTER
POWER PUMP
SYSTEM RELIEF VALVE
PRESSURE REGULATOR
SYSTEM
RESERVOIR
ACCUMULATOR
FILTER
POWER PUMP
SYSTEM RELIEF VALVE
PRESSURE REGULATOR
POWER SYSTEM
RESERVOIR
FUNCTIONS
Holds reserve supply oil to account for normal
leakage, emergency supply of oil, volume changes,
thermal contraction of oil,
Provides pressure head on the pump, a place to
remove air or foam from liquid, air space for
expansion of the oil due to temperature changes
etc
FUNCTIONS
Holds reserve supply oil to account for normal
leakage, emergency supply of oil, volume changes,
thermal contraction of oil,
Provides pressure head on the pump, a place to
remove air or foam from liquid, air space for
expansion of the oil due to temperature changes
etc
ACCUMULATORS
PRINCIPLE
Gas valve lets in
compressed gas at ½
system pressure
Diaphragm pops up &
oil is sent through
system
When system
pressure>accumulator
pressure, diaphragm
deploys
PRINCIPLE
Gas valve lets in
compressed gas at ½
system pressure
Diaphragm pops up &
oil is sent through
system
When system
pressure>accumulator
pressure, diaphragm
deploys
ACCUMULATORS
USES
Absorbs the shocks due to rapid pressure
variations in a hydraulic system
Helps maintain a constant pressure within the
hydraulic system
Helps the hydraulic pump under peak
pressure loads
It is an emergency source of power
Spherical shape is preferred for accumulators
USES
Absorbs the shocks due to rapid pressure
variations in a hydraulic system
Helps maintain a constant pressure within the
hydraulic system
Helps the hydraulic pump under peak
pressure loads
It is an emergency source of power
Spherical shape is preferred for accumulators
POWER PUMPS
FUNCTION
Is to change mechanical horsepower to
hydraulic horsepower
TYPES
Gear pumps: move fluid based upon the
number of gear teeth and the volume
spacing between gear teeth.
Piston pumps: move fluid by pushing it
through the motion of the pistons within
the pump
FUNCTION
Is to change mechanical horsepower to
hydraulic horsepower
TYPES
Gear pumps: move fluid based upon the
number of gear teeth and the volume
spacing between gear teeth.
Piston pumps: move fluid by pushing it
through the motion of the pistons within
the pump
POWER PUMPS
PRINCIPLES OF GEAR
PUMPS
The liquid from the
reservoir is pushed between
the gear teeth.
The oil is moved around to
the other side by the action
of the drive gear itself and
sent through the pressure
line.
PRINCIPLES OF GEAR
PUMPS
The liquid from the
reservoir is pushed between
the gear teeth.
The oil is moved around to
the other side by the action
of the drive gear itself and
sent through the pressure
line.
POWER PUMPS
PRINCIPLES OF
RECIPROCATING
PISTON PUMP
As the cylinder block
rotates, space between
the block and the
pistons increase, letting
in more oil.
As the block rotates
from bottom dead
center, the reverse
occurs and the pistons
push oil out through
the outlet
PRINCIPLES OF
RECIPROCATING
PISTON PUMP
As the cylinder block
rotates, space between
the block and the
pistons increase, letting
in more oil.
As the block rotates
from bottom dead
center, the reverse
occurs and the pistons
push oil out through
the outlet
HAND PUMPS
Selector Valves
Position (1) is the position of the selector valve, for example,
upon the extension of the landing gear or the lowering of flaps.
Position (2) is the position of the selector valve upon
retraction of the landing gear or the raising of the flaps
Position (1) is the position of the selector valve, for example,
upon the extension of the landing gear or the lowering of flaps.
Position (2) is the position of the selector valve upon
retraction of the landing gear or the raising of the flaps
FLOW EQUALISER
If wing air loads on one wing are
greater than on other, during wing
sweep back or sweep forward,
motion occurs unevenly.
To synchronize wing sweep back or
sweep forward flow equalizer used
flow equalizer is made up of two
power pumps placed side by side in
which the drive gears of both
pumps are connected
If wing air loads on one wing are
greater than on other, during wing
sweep back or sweep forward,
motion occurs unevenly.
To synchronize wing sweep back or
sweep forward flow equalizer used
flow equalizer is made up of two
power pumps placed side by side in
which the drive gears of both
pumps are connected
ACTUATION CYLINDER
The function is to take the pressure & hydraulic fluid flow &
change them into linear or rotary motion.
Single piston double rod is an equal displacement cylinder used in
aileron system or automatic guidance system
Double piston-double rod actuating cylinder used in bomb bay
doors
The function is to take the pressure & hydraulic fluid flow &
change them into linear or rotary motion.
Single piston double rod is an equal displacement cylinder used in
aileron system or automatic guidance system
Double piston-double rod actuating cylinder used in bomb bay
doors
ADVANTAGES
It is lighter in weight than alternate existing
systems.
It is dead beat, that is, there is an absence of
sloppiness in its response to demands placed on the
system.
It is reliable; either it works or doesn't.
It can be easily maintained.
It is not a shock hazard; it is not much of a fire
hazard.
It can develop practically unlimited force or torque.
It is lighter in weight than alternate existing
systems.
It is dead beat, that is, there is an absence of
sloppiness in its response to demands placed on the
system.
It is reliable; either it works or doesn't.
It can be easily maintained.
It is not a shock hazard; it is not much of a fire
hazard.
It can develop practically unlimited force or torque.
CONCLUSION
Hydraulic systems determine flight worthiness,
usability and reliability.
Hydraulic systems determine flight worthiness,
usability and reliability.
References
•http://aerospace.eaton.com/news.asp?articledate=06/01/03&NewsCommand=ViewMonth
•http://www.tpub.com/content/aviation/14018/css/14018_17
8.html
Air Force Research Laboratory
http://www.afrlhorizons.com/Briefs/0006/VA9902
www.hydraulic equipment.com
•http://aerospace.eaton.com/news.asp?articledate=06/01/03&NewsCommand=ViewMonth
•http://www.tpub.com/content/aviation/14018/css/14018_17
8.html
Air Force Research Laboratory
http://www.afrlhorizons.com/Briefs/0006/VA9902
www.hydraulic equipment.com
ANY
QUESTIONS?
QUESTIONS?
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