Gas Turbine Handbook (5th Ed.) Principles and Practice, Fifth Edition
Auteur : Giampaolo Tony
Newly revised, this new fifth edition includes a chapter on waste heat recovery and discusses this technology in detail including a the advantages and barriers to waste heat recovery, environmental restraints, thermodynamics of heat recovery, fluid properties, boiler, condensers, steam turbines, off design behavior and exhaust catalyst. This book shows how microturbine designs rely heavily on the centrifugal compressor and are, in many aspects, similar to the early flight engines and will illustrate how the approach of the microturbine designer is to minimize cost.
Evolution of the Gas Turbine. Applications. Hardware. Gas Turbine Systems Theory. Gas Turbine Controls. Accessories. Parameter Characteristics. Gas Turbine Inlet Treatment. Gas Turbine Exhaust Treatment. Combustion Turbine Acoustics & Noise Control. Microturbines. Waste Heat Recovery. Detectable Problems. Boroscope Inspection. Case Study #1. Case Study #2. Case Study #3. Case Study #4. The Gas Turbine's Future.
Date de parution : 12-2013
15.2x22.9 cm
Disponible chez l'éditeur (délai d'approvisionnement : 15 jours).
Prix indicatif 160,25 €
Ajouter au panierThèmes de Gas Turbine Handbook :
Mots-clés :
Gas Turbine; Free Power Turbine; Evolution of the Gas Turbine; Combustion Chamber; Gas Turbine Systems Theory; Turbine Inlet Temperature; Combustion Turbine Acoustics & Noise Control; Aero Derivative Gas Turbine; Waste Heat Recovery; United Technologies Corporation; The Gas Turbine's Future; Compressor Pressure Ratio; Microturbine designer; Mechanical Drive Application; Environmental restraints; Gas Turbine Exhaust; Off design behavior; Boroscope Inspection; Industrial Gas Turbines; Condensers; Centrifugal Compressor; Power augmentation; Fuel Nozzles; Operating parameters; EGT; NOx control; Turbine Nozzle; Inlet treatments; Compressor Discharge Pressure; Gas turbines hardware; Combustion Turbines; HRSG; Steam Turbine; Whitney Aircraft; Gas Turbine Compressors; Sound Power Level; Gas Path Performance Analysis; Whr; LFG