Power Generation: Power Plants And Turbines
Comprehensive overview of Power Generation Plants: Steam & Gas Turbines, Efficiency, and Combined Cycle Plants
What you'll learn
Explain thermodynamic principles and their role in power generation.
Identify key components and functions of steam power plants.
Describe steam turbine types, control, and maintenance practices.
Analyze gas turbine parts, design considerations, and efficiency.
Understand gas turbine performance optimization methods.
Explain sealing mechanisms and compressor performance in gas turbines.
Evaluate combined cycle power plants and their operational benefits.
Assess environmental and efficiency factors in power plant operations.
Requirements
Basic understanding of physics and thermodynamics is helpful but not required.
Familiarity with engineering concepts is beneficial.
No prior experience in power generation is needed.
A willingness to learn and engage with technical concepts.
Description
Power Generation: Power Plants and Turbines is a comprehensive course designed for engineers, technicians, students, and professionals interested in understanding the fundamentals of power generation. This course provides an in-depth exploration of steam power plants, gas turbines, and combined cycle power plants, covering their components, design, operation, and efficiency optimization.The course begins with a review of essential thermodynamic principles, including the laws of thermodynamics, system boundaries, and energy exchange concepts. Students will then explore steam power plants, learning about critical components such as boilers, steam turbines, condensers, and feedwater heaters. The course also covers steam turbine types, control systems, maintenance strategies, and performance monitoring techniques.Moving to gas turbines, students will gain insights into turbine parts, design considerations, and efficiency enhancement methods, including intercooling, reheating, and regeneration. Advanced topics such as compressor sealing mechanisms and magnetic bearings will also be discussed.The course concludes with an overview of combined cycle power plants, highlighting their components, operational advantages, and maintenance strategies.By the end of this course, learners will have a solid foundation in power generation technologies, enabling them to analyze, optimize, and troubleshoot power plant systems effectively. No prior experience is required—just a passion for learning about energy and engineering!
Overview
Section 1: Introduction
Lecture 1 Introduction
Section 2: Module 1 - Review of Thermodynamic Principles
Lecture 2 Objectives
Lecture 3 Laws of Thermodynamics
Lecture 4 System and Surroundings
Lecture 5 Surroundings: Detailed Explanation
Lecture 6 State and Equilibrium
Section 3: Module 2 - Steam Power Plants
Lecture 7 History and Overview
Lecture 8 Fire-Tube Boilers
Lecture 9 The Water-Tube Boilers
Lecture 10 The Steam Drum, Downcomer and Mud Drums
Lecture 11 Superheaters and Reheaters
Lecture 12 Steam Turbines and Steam Turbine Reheaters
Lecture 13 Steam Turbine Condenser and Feed Water Heater
Lecture 14 Power Plant Calculations
Section 4: Module 3 - Steam Turbines and Auxilaries
Lecture 15 Objectives
Lecture 16 Turbine Types
Lecture 17 Turbine Control Systems and Maintenance
Lecture 18 Power Station Performance Monitoring
Lecture 19 Turbine Governing Systems
Lecture 20 Steam Chests and Valves
Lecture 21 Turbine Protective Devices
Lecture 22 Lubrication Systems
Section 5: Module 4 - Gas Turbines and Compressors
Lecture 23 Objectives
Lecture 24 Introduction
Lecture 25 Gas Turbine Parts - Inlet Section
Lecture 26 Gas Turbine Parts - Compressor
Lecture 27 Gas Turbine Parts - Diffuser
Lecture 28 Gas Turbine Parts - Combustion Chamber
Lecture 29 Gas Turbine Parts - The Turbine
Lecture 30 Gas Turbine Parts - Exhaust
Lecture 31 Beyond the Core Components
Section 6: Module 5 - Gas Turbine Design Considerations & Calculations
Lecture 32 Gas Turbine Design Considerations
Lecture 33 Gas Turbine Calculations
Section 7: Module 6 - Gas Turbine Efficiency Methods
Lecture 34 Introduction
Lecture 35 Intercooling
Lecture 36 Reheating
Lecture 37 Regeneration
Lecture 38 Key Factors Affect the Efficiency
Lecture 39 Strategies for Optimizing Performance
Section 8: Module 7 - Gas Turbines Sealing Mechanisms
Lecture 40 Dynamic Compressor Performance in Gas Turbines
Lecture 41 Compressor Seal Systems
Lecture 42 Dry Seals
Lecture 43 Advanced Sealing Mechanisms
Lecture 44 Magnetic Bearings
Section 9: Module 8 - Combined Cycle Power Plants
Lecture 45 Introduction
Lecture 46 Components of Combined Cycle Power Plants
Lecture 47 Steam Turbine Cycle Rankine Cycle
Lecture 48 Applications of Single Shaft Combined Cycle Power Plants
Lecture 49 Overview of Combined Cycle Operation and Maintenance - Part 1
Lecture 50 Overview of Combined Cycle Operation and Maintenance - Part 2
Engineers, technicians, and professionals in power generation.,Students and graduates in mechanical, electrical, or energy engineering.,Plant operators and maintenance personnel seeking technical knowledge.,Anyone interested in steam, gas turbines, and power plant operations.
Published 2/2025
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 6.9 GB | Duration: 13h 12m
Download
http://s9.alxa.net/one/2025/02/Power...d.Turbines.rar
Comprehensive overview of Power Generation Plants: Steam & Gas Turbines, Efficiency, and Combined Cycle Plants
What you'll learn
Explain thermodynamic principles and their role in power generation.
Identify key components and functions of steam power plants.
Describe steam turbine types, control, and maintenance practices.
Analyze gas turbine parts, design considerations, and efficiency.
Understand gas turbine performance optimization methods.
Explain sealing mechanisms and compressor performance in gas turbines.
Evaluate combined cycle power plants and their operational benefits.
Assess environmental and efficiency factors in power plant operations.
Requirements
Basic understanding of physics and thermodynamics is helpful but not required.
Familiarity with engineering concepts is beneficial.
No prior experience in power generation is needed.
A willingness to learn and engage with technical concepts.
Description
Power Generation: Power Plants and Turbines is a comprehensive course designed for engineers, technicians, students, and professionals interested in understanding the fundamentals of power generation. This course provides an in-depth exploration of steam power plants, gas turbines, and combined cycle power plants, covering their components, design, operation, and efficiency optimization.The course begins with a review of essential thermodynamic principles, including the laws of thermodynamics, system boundaries, and energy exchange concepts. Students will then explore steam power plants, learning about critical components such as boilers, steam turbines, condensers, and feedwater heaters. The course also covers steam turbine types, control systems, maintenance strategies, and performance monitoring techniques.Moving to gas turbines, students will gain insights into turbine parts, design considerations, and efficiency enhancement methods, including intercooling, reheating, and regeneration. Advanced topics such as compressor sealing mechanisms and magnetic bearings will also be discussed.The course concludes with an overview of combined cycle power plants, highlighting their components, operational advantages, and maintenance strategies.By the end of this course, learners will have a solid foundation in power generation technologies, enabling them to analyze, optimize, and troubleshoot power plant systems effectively. No prior experience is required—just a passion for learning about energy and engineering!
Overview
Section 1: Introduction
Lecture 1 Introduction
Section 2: Module 1 - Review of Thermodynamic Principles
Lecture 2 Objectives
Lecture 3 Laws of Thermodynamics
Lecture 4 System and Surroundings
Lecture 5 Surroundings: Detailed Explanation
Lecture 6 State and Equilibrium
Section 3: Module 2 - Steam Power Plants
Lecture 7 History and Overview
Lecture 8 Fire-Tube Boilers
Lecture 9 The Water-Tube Boilers
Lecture 10 The Steam Drum, Downcomer and Mud Drums
Lecture 11 Superheaters and Reheaters
Lecture 12 Steam Turbines and Steam Turbine Reheaters
Lecture 13 Steam Turbine Condenser and Feed Water Heater
Lecture 14 Power Plant Calculations
Section 4: Module 3 - Steam Turbines and Auxilaries
Lecture 15 Objectives
Lecture 16 Turbine Types
Lecture 17 Turbine Control Systems and Maintenance
Lecture 18 Power Station Performance Monitoring
Lecture 19 Turbine Governing Systems
Lecture 20 Steam Chests and Valves
Lecture 21 Turbine Protective Devices
Lecture 22 Lubrication Systems
Section 5: Module 4 - Gas Turbines and Compressors
Lecture 23 Objectives
Lecture 24 Introduction
Lecture 25 Gas Turbine Parts - Inlet Section
Lecture 26 Gas Turbine Parts - Compressor
Lecture 27 Gas Turbine Parts - Diffuser
Lecture 28 Gas Turbine Parts - Combustion Chamber
Lecture 29 Gas Turbine Parts - The Turbine
Lecture 30 Gas Turbine Parts - Exhaust
Lecture 31 Beyond the Core Components
Section 6: Module 5 - Gas Turbine Design Considerations & Calculations
Lecture 32 Gas Turbine Design Considerations
Lecture 33 Gas Turbine Calculations
Section 7: Module 6 - Gas Turbine Efficiency Methods
Lecture 34 Introduction
Lecture 35 Intercooling
Lecture 36 Reheating
Lecture 37 Regeneration
Lecture 38 Key Factors Affect the Efficiency
Lecture 39 Strategies for Optimizing Performance
Section 8: Module 7 - Gas Turbines Sealing Mechanisms
Lecture 40 Dynamic Compressor Performance in Gas Turbines
Lecture 41 Compressor Seal Systems
Lecture 42 Dry Seals
Lecture 43 Advanced Sealing Mechanisms
Lecture 44 Magnetic Bearings
Section 9: Module 8 - Combined Cycle Power Plants
Lecture 45 Introduction
Lecture 46 Components of Combined Cycle Power Plants
Lecture 47 Steam Turbine Cycle Rankine Cycle
Lecture 48 Applications of Single Shaft Combined Cycle Power Plants
Lecture 49 Overview of Combined Cycle Operation and Maintenance - Part 1
Lecture 50 Overview of Combined Cycle Operation and Maintenance - Part 2
Engineers, technicians, and professionals in power generation.,Students and graduates in mechanical, electrical, or energy engineering.,Plant operators and maintenance personnel seeking technical knowledge.,Anyone interested in steam, gas turbines, and power plant operations.
Published 2/2025
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 6.9 GB | Duration: 13h 12m
Download
http://s9.alxa.net/one/2025/02/Power...d.Turbines.rar