Gas Turbine Handbook: Principles and Practices 3rd Edition by Tony Giampaolo pdf download

Gas Turbine Handbook: Principles and Practices 3rd Edition by Tony Giampaolo.
 
Gas Turbine Handbook: Principles and Practices 3rd Edition by Tony Giampaolo

The book in PDF Format with title Gas Turbine Handbook: Principles and Practices 3rd Edition by Tony Giampaolo is available to download for free and Download Link is at the end of the article

 
Contents:
Chapter 1—THE GAS TURBINE EVOLUTION
Chapter 2—APPLICATIONS 
Chapter 3—HARDWARE
Chapter 4—GAS TURBINE SYSTEMS THEORY
Chapter 5—GAS TURBINE CONTROLS
Chapter 6—ACCESSORIES (Lube Oil, Coolers, Power)
Chapter 7—PARAMETER CHARACTERISTICS
Chapter 8—GAS TURBINE INLET TREATMENT
Chapter 9—GAS TURBINE EXHAUST TREATMENT
Chapter 10—GAS TURBINE ACOUSTICS AND NOISE CONTROL
Chapter 11—MICROTURBINES
Chapter 12—DETECTABLE PROBLEMS
Chapter 13—BOROSCOPE INSPECTION
Chapter 14—CASE HISTORY 1 
Chapter 15—CASE HISTORY 2
Chapter 16—CASE HISTORY 3
Chapter 17—CASE HISTORY 4 
Chapter 18—THE GAS TURBINE’S FUTURE
 
Preface to the Third EditionThe need for the 2nd Edition was based on the realization that the book lacked sufficient guidelines in projects that I was involved with; specifically, wet compression and acoustics. In 2002 I updated this book with the 2nd Edition. 
 
This 3rd Edition is undertaken to cover a subject that captured my time and attention and is of interest to many people not usually involved with gas turbines. This subject is microturbines. Microturbines were fi rst considered a viable product in the early-to-mid 1990’s. Part of the popularity with the idea of a very small gas turbine was the result of the successes with miniaturization in the electronic industry; part was the lack of competition for reciprocating engines; and part was the steadily increasing price & decreasing availability of electricity. Price and availability of electricity led to the concept now known as Distributed Generation (DG). And the microturbine fits DG to a tee. 
 
Looking back into 19th Century history, machines strikingly similar to today’s microturbine were being developed. True they were large, bulky machines, but they had the same characteristics. For example, they had centrifugal compressors & turbines, single combustors and, in some cases, a heat exchanger that captured exhaust gases to heat the compressor discharge air before it entered the combustor (a recuperator or regenerator). Each was a stand-alone component coupled together by shafts, hubs, and ducting. But thermodynamically these machines are identical. 
 
Prior to the introduction of microturbines the only drivers available in the 600 and under horsepower range were reciprocating engines. These reciprocating engines are large, they vibrate, they are noisy, they are fuel specific c, and they require frequent maintenance. By comparison the microturbine is small, quiet, relatively vibration and maintenance free, and tolerant of a wide range of fuels. 
 
The microturbine innovators had the vision to see the potential in a very small gas turbine. A vision similar to Frank Whittle’s and Hans Pabst von Ohani’s vision of utilizing a gas turbine for jet power. They were able to look at engine turbocharger components and visualize how the addition of a combustor could turn them into a gas turbine. Further, they could visualize how a recuperator, wrapped around the combustor could enhance performance, reduce emissions, and minimize the package footprint. To produce sufficient power to make these units saleable they had to operate at high temperatures and very high speeds.
 
Advances in bearing designs and air bearings, high temperature metallurgy, and fast computer controls had their roots in the aviation industry. Like the turbocharger components, these advances were already available. And so a new application of an old technology was born. Chapter 11 – Microturbines should be a benefit t to plant managers, engineers, and operators who are either considering installing microturbines or who already have microturbines installed and are looking for help operating & maintaining them.
 
Beside the new chapter on microturbines, Chapter 10 – Acoustics has also been updated with the assistance of Mr. Eldon Ray, P.E. While the changes from the 2nd Edition may be subtle, I believe this rewrite makes this chapter easier to read and acoustics easier to understand.
 
In addition Chapter 17 – Case History #4 has been added to highlight the application of the microturbine; Chapter 18 – The Gas Turbine Future has been rewritten to identify recent trends in gas turbine progress and reemphasize the advances toward hydrogen fuels.
 
 
 
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