Gas turbines structural properties, operation principles and design features

Gas turbines structural properties, operation principles and design features / Kun Liu, Daifen Chen, Serhiy Serbin, Volodymyr Patlaichuk, editors.

The book gives a clear idea about the concept of gas turbines, thermodynamic basics of the turbine theory. It includes classification of gas turbines, working principle, structure feather, application and designing approaches of gas turbines. The readers will understand easily the power system for s...

Full description

Saved in:
Bibliographic Details
Other Authors: Liu, Kun, Chen, Daifen, Serbin, Serhiy, Patlaichuk, Volodymyr
Format: eBook
Language:English
Published: Singapore : Springer, 2023.
Subjects:
Gas-turbines.
gas turbines.
Gas-turbines
Online Access:Click for online access
Table of Contents:
  • Intro
  • Preface
  • Contents
  • Part I Operation Principles
  • 1 Power Generation Market for Gas Turbines
  • References
  • 2 General Information About Turbine Design and Operation
  • 2.1 Design and Principle of Operation of the Simplest Axial Turbine
  • 2.2 Impulse and Reaction Stages
  • 2.3 Multi-ring Impulse Stages
  • 2.4 Multistage Pressure Compounded Turbines
  • 2.5 Radial Turbines
  • Reference
  • 3 Thermodynamic Basics of the Turbine Theory
  • 3.1 Basic Equations for the Steady-State One-Dimensional Gas Flow
  • 3.2 Stagnation Parameters in the Absolute and Relative Motion
  • 3.3 Isoentropic Flow of the Working Fluid in the Nozzle Channels
  • 3.4 Actual Flow Process in the Nozzle Channels
  • 3.5 Flow in the Moving Blade Channels
  • Reference
  • 4 Flow in the Plane Turbine Channels
  • 4.1 Geometric Characteristics of the Axial Turbine Cascades
  • 4.2 Plane Cascades of the Turbine Blades
  • 4.2.1 Forces in the Plane Cascade
  • 4.2.2 Working Fluid Flow Rate Through Cascades and Flow Coefficients
  • Reference
  • 5 Features of the Actual Profile Flow. Cascade Loss Classification
  • 5.1 Stage with Relatively Short Blades Degree of Reaction
  • 5.2 Circumferential Stage Work
  • 5.3 Circumferential Efficiency
  • 5.4 Internal Stage Losses
  • 5.5 Internal Efficiency and Stage Power
  • Reference
  • 6 Gas Turbine Engine Classification
  • 6.1 The Turbojet Engine
  • 6.2 The Turbofan Engine
  • 6.3 The Turboprop Engine
  • 6.4 Justification for the Choice of a Gas Turbine Engine
  • Reference
  • 7 Simple Cycle Gas Turbine Units
  • 7.1 The Structure and Operation of a Simple Thermodynamic Cycle Gas Turbine Unit
  • 7.2 Ideal and Actual Thermodynamic Cycles of the Simplest Gas Turbine Unit
  • Reference
  • 8 The Features of GTU Thermal Calculation
  • 8.1 Structural Schemes of the Marine Gas Turbine Units
  • 8.2 Determination of Air and Gas Pressure in GTU
  • 8.3 Determination of the Compressor and Turbine Efficiency
  • 8.4 Determination of Specific Heat
  • 8.5 Determination of Cooling Air Flow Rate
  • References
  • 9 Thermal Calculation of the Simple Cycle Gas Turbine Unit
  • 9.1 Calculation of GTU Compressors
  • 9.2 Calculation of GTU Combustion Chamber
  • 9.3 Calculation of GTU Turbines
  • 9.4 Calculation of GTU Efficiency
  • 9.5 Optimization of GTU Thermodynamic Cycle Parameters
  • Reference
  • Part II Design Features
  • 10 Advantages and Disadvantages of the Power Plants with Gas Turbine Units
  • 10.1 Advantages of the Power Plants with Gas Turbine Units
  • 10.2 Disadvantages of the Power Plants with Gas Turbine Units [1]
  • 10.3 Application of the Gas Turbine Units
  • Reference
  • 11 Combined Marine Power Plants with Gas Turbine Engines
  • 11.1 Combined Diesel or Gas (CODOG)
  • 11.2 Combined Diesel and Gas (CODAG)
  • 11.3 Combined Diesel-Electric and Gas (CODLAG)
  • 11.4 Integrated Electric Propulsion (IEP)
  • 11.5 Combined Gas or Gas (COGOG)
  • 11.6 Combined Gas and Gas (COGAG)

Similar Items