Gas Turbine Combined Cycle Design Program
Steam and Gas turbine Design Course Soft. In. Way. The goal of this course is to provide engineers with a better understanding of steam and gas turbines and help them find new, more accurate, cost saving solutions through successful axial turbine design and operation tasks. This course will familiarize attendees with the basics of steam and gas turbine design. The program includes theoretical knowledge as well as hands on experience with industry leading software tools. It will start with a theoretical overview of turbine thermodynamics, gas dynamics and cycles, to continue with preliminary design, detailed design, analysis and optimization of axial turbines at the 1. D, 2. D and 3. D levels including 3. D blade design, FEA and CFD analysis. The program includes Soft. Professional Certificate of Competency in Gas Turbine Engineering provides a comprehensive overview in the area of Gas Turbine Engineering and is designed to develop. GAS TURBINE PERFORMANCE UPGRADE OPTIONS By Jeffrey Phillips and Philip Levine This article reviews some specific methods for boosting power and improving heat rate. GE_Converteam__4.JPG' alt='Gas Turbine Combined Cycle Design Program' title='Gas Turbine Combined Cycle Design Program' />In. Ways Axial Turbine Fundamentals course supported by numerous examples and more intensive study of turbine design. Thus each training section contains exercises to ensure the information is understood and can be effectively applied to engineering challenges. The course scope includes Steam, gas and combined cycles. The Gas Turbine Certification Programs will be broken down into two classifications, Simple Cycle and Combined Cycle. The program will be also divided into. Gas dynamics and working fluid properties. Steam and gas turbine designs fundamental turbine stage parameters. Initial turbine sizing multistage turbines conceptual designTurbine optimization and detailed design. Losses in axial turbines. Off design performance prediction. Start up and shut down. Squeezing more power from the fuel used to generate it is an ongoing battle for all power generators. So far, the industrys best weapon is combined cycle gas. Qurayyah Combined Cycle Power Plant in Saudi Arabia is a 2015 POWER TOP PLANTS Award winner. Profiling. 3D blade design. Structural and vibration analyses. Blade fastening disk, root, shroud, lashing wiresBlade cooling. Tertiary components. Turbine retrofitting. OEM turbine designsThe training exceeded my expectations. The exposure to a complex design and analysis program was made simple and easy to understand and utilize. The training will allow for continued use of the software. Member of the Ethos Energy team. Who should attend Engineers aspiring to deepen their understanding of steam and gas turbine essentials as a way of improving the overall design practice. Serving over 75,000 members with daily web and email news, events and insights on the global power industry. Chinook Power Station Project Combined Cycle Gas Facility Cantuar, Saskatchewan October 13, 2016. Engineered for maximum flexibility. Topclass performance for oil and gas industry as well as industrial power generation. Design and development engineers of power generation and transportation industries with project and product responsibility. Technical managers seeking to improve or expand their product range by incorporating innovative engineering solutions into the turbomachinery design process. Academics that are teaching turbomachinery design and need specialized course, tools and reference material based on the latest engineering findings. Soft. In. Way provides a one month Ax. STREAM software license for all course attendees. This allows attendees to continue turbomachinery education after finishing the training program. Examples of Course Schedule and Content 1. Steam and gas turbine designs. Fundamental turbine stage parameters. Introduction to turbine gas dynamics. Working fluid properties. Basic steam and gas turbine design layouts and cycles consideration. Turbine stage and cascade definitions, dimensions. Transformation of energy through turbine stage impulse and reaction turbines, velocity triangles, stage dimensionless parameters, Rateau and Curtis stages. Practical exercises Gas dynamics calculations Steam and gas properties definition Cycle calculations. Initial turbine sizing. Heroes Of Might And Magic 5 Serial Mac. Multistage turbines. Empire Total War Patch 1.4 No Steam. Preliminary design selection of optimal number of stages and diameters. Design with inverse task. Turbine efficiency and energy losses. Main challenges in design process. Practical exercises Turbine stage detailed calculation Turbine stage design and optimization Multistage turbine design. Turbine optimization and detailed design. Direct task meanline 1. D turbine calculation, streamline 2. D calculation, distributions of parameters spanwise, cylindrical and twisted blades effects on turbine performance, mechanical and thermodynamic design. Optimization methods, principles and processes. Off design turbine performance prediction, turbine operating modes. Turbine start up and shutdown. Practical exercises Stage twist law selection and optimization Design of experiment applications in turbomachinery optimization Steam turbine off design modes calculation Gas turbine off design performances calculation and matching. Profiling. Boundary layer. Laminar and turbulent flow modes. Potential flow in blade to blade channel. Basic profiling knowledge, Pritchard profiling model. Subsonic and supersonic profiles, deviation angle. Practical exercises Turbine cascade profiling. Blade design. 3D blade design cylindrical and twisted blades. Special blade design effects lean, sweep. Structural analysis. Elements of rotor and stator shrouds, diaphragms etc. Cooled blades design and schemes. Practical exercises Design of twisted, leaned and swept blades Blades and nozzles structural analysis. Tertiary components. Diaphragms and rotors design. Sealing systems. Steam admission types. Working fluid extractions and additions. Moisture separation and extraction, wet steam turbine special features. Turbine retrofitting. Flow path elements deterioration. Selection of overhaul intervals. Turbine redesign, retrofitting and rerate tasks and methods. Practical exercises Turbine rerate design adjustment calculations Evaluating different retrofitting options for small steam turbine. Summary and discussions Training. Date. Location. Register. Axial Turbine. Oct 1. Boston, MA, USA Register Now. Axial Turbine. Nov 6 1. Bangalore, KA, India. Register Now. Axial Turbine. Nov 2. 0 2. 4Zug, Switzerland Register Now.