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Basic Gas Turbines
By Mike Becker
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About this ebook
Ten years in the writing, this informative and easy to read aviation theory book on the workings of the helicopter
turbine engine is a must for any pilot planning to convert to a turbine helicopter. With the learning pilot in
mind. it provides graphic details of how the turbine engine works in a helicopter, how to operate a turbine
Author
Mike Becker
Mike Becker is one of Australia's most experienced helicopter instructors, with over 16,000 hours of rotary-wing flight experience. His career has taken him from the mountains in New Zealand to the outback of Australia and the jungles of Papua New Guinea. He has also worked in the United States, Italy and Borneo.He has flown a range of helicopter types - the Robinson R22, Robinson R44, Bell 47, Hughes 269, Hughes 500, Bell 206, Bell 427, Bell 212, EC120, Dragon Fly, Brantley B2B, Enstrom EF28, Sikorsky S62A, Hiller H12ET, Aerospatial AS350, Agusta 109E Power, Agusta 109S Grand, and the Agusta 119 Koala.He is experienced in a comprehensive range of helicopter operations, including high altitude, remote area operations, mustering, firefighting, tourism, sling load operations, specialised long-line operations, search and rescue, and Night Vision Goggles operations.Mike is a Grade One Flight Instructor and Flight Examiner who holds an Australian Air Transport Pilots Licence (Helicopter) and an Australian Commercial Pilots Licence (Fixed Wing).Mike is the Chief Pilot and Head of Training for his own business Becker Helicopters, in Australia. He, and his wife Jan, established Becker Helicopters in 1997 with one Bell 47 and have grown the company through a love of helicopters, hard work, and determination.Mike is the recipient of many awards, including the "Captain John Ashton Award for Flight Standards and Aviation Safety" by the Guild of Air Pilots and Air Navigators of London, which was awarded in recognition of over 18,000 accident-free flight training hours at Becker Helicopters. Mike has also authored "Mike Becker's Helicopter Handbook", first published in 1986, and a range of theory books and instructional videos.
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Book preview
Basic Gas Turbines - Mike Becker
Replacement of the Piston Engine by the Turbine Engine
The main requirements of an aircraft engine are that it should have the least possible size and weight for a given power output. For an internal combustion engine, these objectives are achieved by passing a large mass flow of air through the engine by use of high RPM and obtaining as much work as possible out of each pound of air by using high maximum pressures and temperatures.
The main reason for the advent of the turbine engine over the piston engine is the high power/weight ratio because it can operate at higher RPM than the piston engine by virtue of its purely rotary motion. The RPM of the piston is limited by the heavy loads caused by reciprocating (change of direction as in up/down piston) and the effect of the piston/cylinder friction on horsepower lost.
A great illustration of the comparison between piston and turbine can be made with one of the largest piston engines ever built, the R-4360, a 28-cylinder radial engine commonly called the corncob
that was capable of supplying 4000 horsepower, and the JT9D turbine engine which powers the Boeing 747. The 747 would need 23 of the radial engines to do the same job that the four turbine engines are doing!
Other advantages of the turbine versus the piston are:
The development time for a turbine is approx. a quarter the time required to design, build and bring to the point of operation a piston engine.
Production time is also shorter for the turbine due to the reduced number of parts than in a comparable piston.
In the turbine, power is continuously produced compared to the intermittent cycle of the piston. This will lead to relatively low working pressures and light construction of engine structure, ducting and casings. This is an important factor in power to weight calculations.
Because there are only rotating parts and no reciprocating parts, turbine engine vibration is all but eliminated. This leads to a lighter airframe.
The absence of reciprocating parts allows for higher operating speeds to be used. This leads to smaller space requirements and front area. The power to weight ratio is improved and significant weight savings are made. In fact, the turbine is about a quarter the weight of a comparable piston.
A turbine will operate more efficiently at high altitudes; therefore, no turbo or supercharging system is required to maintain performance.
In summary, the turbine engine is simpler, requires less maintenance, has longer overhaul life, and offers greater reliability.
Basic Jet Propulsion Principles
Reaction principle
Jet propulsion is defined as the reacting force produced by the acceleration of air, gas, or liquid through a nozzle. However, it is not the air, gas or liquid being fired out the back that is producing the thrust (even though in an atmosphere it does help) but it is the internal pressure pushing the object forward.
To understand this we can use the example of a balloon. When a balloon is inflated, the inside air pressure which is stretching the skin is greater than the outside pressure. With the stem of the balloon tied closed, the inside air pressure pushes equally in all directions and the balloon will not move. (This is assuming it does not get blown by the wind, pushed or otherwise influenced.)
If we now place the balloon in a vacuum (like in space) and then release the stem, the escaping air will have nothing to push against yet the balloon will still move in a direction away from the stem just as it does in a normal atmosphere.
This is because releasing the stem removes a section of the skin on that side of the balloon against which air has been pushing, however on the side directly opposite the stem the air continues to push, and it is the push on this area that causes the balloon to move in the direction away from the stem.
This is known as the "Reaction Principle and it underlies all forms of jet propulsion. It is an example of Newtons Third law of physics which states
for every action, there is an equal and opposite reaction."
Summary
Jet propulsion comes not from the escaping air pushing against anything outside, but from the reaction force inside the engine (as in the balloon example).
Gas Laws
Since a turbine engine involves gases, it is appropriate, therefore, that we explain each of the Gas Laws as they explain the behaviour of air as it passes through a turbine.
The gas laws explain the relationship between the absolute temperature (T), pressure (P) and volume (V) of gases (air), they include:
Charles’ Law: relating to volume and temperature,
Boyle’s law: relating to pressure and volume,
Gay-Lussac’s Law: relating to pressure and temperature,
Combined Gas Law.
Charles’ Law
Charles’ Law states that at constant pressure, the volume of a given mass of gas is directly proportional to its absolute temperature.
Boyle’s Law
Boyle’s Law states that at a constant temperature, the pressure and the volume of a gas are inversely proportional.
Gay–Lussac’s Law
Gay-Lussac’s Law states that at a constant volume, the pressure of a given mass of gas is directly proportional to its absolute temperature.
Simply put, if a gas’s temperature increases then so does its pressure, if the mass and volume of the gas are held constant.
Combined Gas Law
The Combined Gas Law states that the ratio between the pressure-volume product and the temperature of a system remains constant.
The Combined Gas Law ‘combines’ Charles’ Law, Boyle’s Law and Guy-Lussac’s Law.
These three laws each relate one thermodynamic variable to another while holding everything else a constant.
Charles’ Law states that volume and temperature are directly proportional to each other as long as pressure is held constant.
Boyle’s Law states that pressure and volume are inversely proportional to each other at a fixed temperature.
Gay-Lussac’s Law introduces a direct proportionality between temperature and pressure as long as it is at a constant volume.
Summary
Jet engines are basically gas engines in that gas (air) is sucked in through an intake, squeezed, heated and pushed out through turbine wheels and exhaust tubes. . Various ducts, tubing and nozzles alter temperature, and pressure as the air travels through the engine, the result is energy that is harnessed to propel or drive something.
Types of Jet Engine
There are four common types of jet engine, they are the:
Rocket Jet
Ram-jet
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