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  Gas Turbine

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  Gas Turbine

• Gas turbine
• British Rail GT3

Gas turbine

A gas turbine, also called a combustion turbine, is a type of internal combustion engine. It has an upstream rotating compressor coupled to a downstream turbine, and a combustion chamber in between.

The basic operation of the gas turbine is similar to that of the steam power plant except that air is used instead of water. Fresh atmospheric air flows through a compressor that brings it to higher pressure. Energy is then added by spraying fuel into the air and igniting it so the combustion generates a high-temperature flow. This high-temperature high-pressure gas enters a turbine, where it expands down to the exhaust pressure, producing a shaft work output in the process. The turbine shaft work is used to drive the compressor and other devices such as an electric generator that may be coupled to the shaft. The energy that is not used for shaft work comes out in the exhaust gases, so these have either a high temperature or a high velocity. The purpose of the gas turbine determines the design so that the most desirable energy form is maximized. Gas turbines are used to power aircraft, trains, ships, electrical generators, or even tanks.

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This page contains text from Wikipedia, the Free Encyclopedia - https://wn.com/Gas_turbine

British Rail GT3

GT3, meaning Gas Turbine number 3 (following 18000 and 18100 as gas turbines 1 and 2), was a prototype mainline gas turbine locomotive built in 1961 by English Electric at their Vulcan Foundry in Newton-le-Willows to demonstrate its wares to British Railways. It was designed by Vulcan engineer J. O. P. Hughes in a project that started in the early 1950s. Externally it resembled a steam tender locomotive, although, in the case of GT3, the tender carried kerosene fuel.

Overview

It was of 4-6-0 wheel arrangement resembling a BR standard class 5 steam locomotive chassis and was fitted with an EM27L gas turbine of 2,700 hp (2,000 kW), but the chassis itself was a strengthened structure to cope with the torque of the turbine. It had a maximum speed of 90 mph (140 km/h), weighed 123.5 long tons (125.5 t; 138.3 short tons), and was painted in a red oxide livery.

BR tested it at its Rugby test centre and then on the former Great Central Main Line around Leicester and the West Coast Main Line around the Shap incline.

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This page contains text from Wikipedia, the Free Encyclopedia - https://wn.com/British_Rail_GT3

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• 

  How a Gas Turbine Works | Gas Power Generation | GE Power

  This video explains how a gas turbine, the heart of the power plant, produces an electric current that delivers power to our people. Put that in your power plant and spin it. Learn more: https://www.ge.com/gas-power/resources/education/what-is-a-gas-turbine #GasTurbine #GEPower #PoweringForward Subscribe for More: https://bit.ly/2N82PfY Work for GE: https://invent.ge/2F0yg76 To learn more, visit: https://powergen.gepower.com/ GE Power Social Accounts: Visit GE Power: https://invent.ge/2Blgkr1 Find GE Power on Linkedin: https://bit.ly/2L34UaT Follow GE Power on Twitter: https://bit.ly/2MVIVoh Like GE Power on Facebook: https://bit.ly/2OMQcaz Follow GE Power on Instagram: https://bit.ly/2MuWG0c About GE Power: GE Power is a world energy leader providing equipment, solutions and services ac...

  published: 06 Jan 2016
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  How a Gas Turbine Works

  So how does a gas turbine engine work? This video takes you through the working principles of gas turbine engines and the types of applications they are used in. Website: https://www.solarturbines.com Follow us on social media: Linkedin: https://www.linkedin.com/company/SolarTurbines/ Instagram: https://www.instagram.com/SolarTurbines/ Facebook: https://www.facebook.com/SolarTurbines/ Twitter: https://twitter.com/SolarTurbines Solar Turbines Incorporated, headquartered in San Diego, California, is a wholly owned subsidiary of Caterpillar Inc. Solar manufactures the world’s most widely used family of mid-sized industrial gas turbines, ranging from 1 to 23 megawatts. More than 15,000 Solar units are operating in more than 100 countries with more than 2.8 billion operating hours. Solar is...

  published: 27 Mar 2019
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  What is a Gas Turbine? (For beginners)

  ▶ Want to learn industrial automation? Go here: http://realpars.com ▶ Want to train your team in industrial automation? Go here: http://realpars.com/business ▶ Check out the full blog post over at https://realpars.com/gas-turbine ============================= Two of the most common applications of Gas Turbines in modern industries are Turbo Generators and Turbo Compressors. We try to approach a Gas Turbo Generator (GTG) to better feel the subject. In a Gas Turbine Power Plant, there’s a Generator which is an electrical machine. But to generate electricity this generator needs a Prime Mover which for my example is a Gas Turbine. Gas Turbine transforms the chemical energy in the fuel (i.e. natural gas or the similar fuel) into mechanical energy. The mechanical energy generated by ...

  published: 08 Apr 2019
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  How Gas Turbines Work (Combustion Turbine Working Principle)

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  How Gas Turbines Work? (Detailed Video)

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  3D animation of industrial gas turbine working principle

  Industrial gas turbines from MAN Diesel & Turbo cover the 7 -13 MW range. This animation explains the working principle of these heavy duty machines by example of the new MGT series. A twin shaft version serves for mechanical drive applications while the design of the single shaft version is dedicated for power generation. You'll see some basic similarities to jet engines. GERMAN Industriegasturbinen von MAN Diesel & Turbo decken das Leistungsspektrum von 7-13 MW ab. Diese Animation erklärt ihr Arbeitsprinzip anhand der neuen MGT-Serie. Ein Zweiweller dient als mechanischer Antrieb, während die Einweller-Variante zur Stromerzeugung konzipiert ist. Die Funktionsweise hat einige Gemeinsamkeiten mit Flugzeugtriebwerken. SPANISH Las turbinas de gas industriales de MAN Diesel & Turbo abarcan ...

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  published: 16 Feb 2016

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2:40

How a Gas Turbine Works | Gas Power Generation | GE Power

• Order: Reorder
• Duration: 2:40
• Uploaded Date: 06 Jan 2016
• views: 1384841

This video explains how a gas turbine, the heart of the power plant, produces an electric current that delivers power to our people. Put that in your power plan...

This video explains how a gas turbine, the heart of the power plant, produces an electric current that delivers power to our people. Put that in your power plant and spin it. Learn more: https://www.ge.com/gas-power/resources/education/what-is-a-gas-turbine #GasTurbine #GEPower #PoweringForward Subscribe for More: https://bit.ly/2N82PfY Work for GE: https://invent.ge/2F0yg76 To learn more, visit: https://powergen.gepower.com/ GE Power Social Accounts: Visit GE Power: https://invent.ge/2Blgkr1 Find GE Power on Linkedin: https://bit.ly/2L34UaT Follow GE Power on Twitter: https://bit.ly/2MVIVoh Like GE Power on Facebook: https://bit.ly/2OMQcaz Follow GE Power on Instagram: https://bit.ly/2MuWG0c About GE Power: GE Power is a world energy leader providing equipment, solutions and services across the energy value chain from generation to consumption. Operating in more than 180 countries, our technology produces a third of the world’s electricity, equips 90 percent of power transmission utilities worldwide, and our software manages more than forty percent of the world’s energy. For more information please visit www.ge.com/power, and follow GE Power on Twitter and on LinkedIn. How a Gas Turbine Works | Gas Power Generation | GE Power https://www.youtube.com/c/GEPower

https://wn.com/How_A_Gas_Turbine_Works_|_Gas_Power_Generation_|_Ge_Power

This video explains how a gas turbine, the heart of the power plant, produces an electric current that delivers power to our people. Put that in your power plant and spin it. Learn more: https://www.ge.com/gas-power/resources/education/what-is-a-gas-turbine #GasTurbine #GEPower #PoweringForward Subscribe for More: https://bit.ly/2N82PfY Work for GE: https://invent.ge/2F0yg76 To learn more, visit: https://powergen.gepower.com/ GE Power Social Accounts: Visit GE Power: https://invent.ge/2Blgkr1 Find GE Power on Linkedin: https://bit.ly/2L34UaT Follow GE Power on Twitter: https://bit.ly/2MVIVoh Like GE Power on Facebook: https://bit.ly/2OMQcaz Follow GE Power on Instagram: https://bit.ly/2MuWG0c About GE Power: GE Power is a world energy leader providing equipment, solutions and services across the energy value chain from generation to consumption. Operating in more than 180 countries, our technology produces a third of the world’s electricity, equips 90 percent of power transmission utilities worldwide, and our software manages more than forty percent of the world’s energy. For more information please visit www.ge.com/power, and follow GE Power on Twitter and on LinkedIn. How a Gas Turbine Works | Gas Power Generation | GE Power https://www.youtube.com/c/GEPower

• published: 06 Jan 2016
• views: 1384841

1:16

How a Gas Turbine Works

• Order: Reorder
• Duration: 1:16
• Uploaded Date: 27 Mar 2019
• views: 317770

So how does a gas turbine engine work? This video takes you through the working principles of gas turbine engines and the types of applications they are used in...

So how does a gas turbine engine work? This video takes you through the working principles of gas turbine engines and the types of applications they are used in. Website: https://www.solarturbines.com Follow us on social media: Linkedin: https://www.linkedin.com/company/SolarTurbines/ Instagram: https://www.instagram.com/SolarTurbines/ Facebook: https://www.facebook.com/SolarTurbines/ Twitter: https://twitter.com/SolarTurbines Solar Turbines Incorporated, headquartered in San Diego, California, is a wholly owned subsidiary of Caterpillar Inc. Solar manufactures the world’s most widely used family of mid-sized industrial gas turbines, ranging from 1 to 23 megawatts. More than 15,000 Solar units are operating in more than 100 countries with more than 2.8 billion operating hours. Solar is a leading provider of energy solutions, featuring an extensive line of gas turbine-powered compressor sets, mechanical drive packages, and generator sets.   Solar’s customers put the company’s products to work in many areas, including production, processing and pipeline transmission of natural gas and crude oil, and generation of electricity and thermal energy for processing applications, such as manufacturing chemicals, pharmaceuticals, and food products.

https://wn.com/How_A_Gas_Turbine_Works

So how does a gas turbine engine work? This video takes you through the working principles of gas turbine engines and the types of applications they are used in. Website: https://www.solarturbines.com Follow us on social media: Linkedin: https://www.linkedin.com/company/SolarTurbines/ Instagram: https://www.instagram.com/SolarTurbines/ Facebook: https://www.facebook.com/SolarTurbines/ Twitter: https://twitter.com/SolarTurbines Solar Turbines Incorporated, headquartered in San Diego, California, is a wholly owned subsidiary of Caterpillar Inc. Solar manufactures the world’s most widely used family of mid-sized industrial gas turbines, ranging from 1 to 23 megawatts. More than 15,000 Solar units are operating in more than 100 countries with more than 2.8 billion operating hours. Solar is a leading provider of energy solutions, featuring an extensive line of gas turbine-powered compressor sets, mechanical drive packages, and generator sets.   Solar’s customers put the company’s products to work in many areas, including production, processing and pipeline transmission of natural gas and crude oil, and generation of electricity and thermal energy for processing applications, such as manufacturing chemicals, pharmaceuticals, and food products.

• published: 27 Mar 2019
• views: 317770

9:35

What is a Gas Turbine? (For beginners)

• Order: Reorder
• Duration: 9:35
• Uploaded Date: 08 Apr 2019
• views: 791719

▶ Want to learn industrial automation? Go here: http://realpars.com ▶ Want to train your team in industrial automation? Go here: http://realpars.com/business ▶...

▶ Want to learn industrial automation? Go here: http://realpars.com ▶ Want to train your team in industrial automation? Go here: http://realpars.com/business ▶ Check out the full blog post over at https://realpars.com/gas-turbine ============================= Two of the most common applications of Gas Turbines in modern industries are Turbo Generators and Turbo Compressors. We try to approach a Gas Turbo Generator (GTG) to better feel the subject. In a Gas Turbine Power Plant, there’s a Generator which is an electrical machine. But to generate electricity this generator needs a Prime Mover which for my example is a Gas Turbine. Gas Turbine transforms the chemical energy in the fuel (i.e. natural gas or the similar fuel) into mechanical energy. The mechanical energy generated by the Turbine exit shaft is then transferred through a gearbox to the Generator’s shaft. Now my generator can create electrical energy. This primitive form of electrical energy normally has a low or medium level of voltage and to better manage the power loss in transmission lines, this voltage should be increased by step-up transformers. Such transformers give an adequate level of voltage to the electrical energy to be transmitted through the transmission lines and delivered to the grid. After this brief overview of a sample Gas Turbine application, I’m going to dig down into the Gas Turbine mechanism in more detail. First, imagine a rocket in which some fuel is going to burn and create a high-pressure exhaust gas. Based on energy conservation law, the chemical energy of the fuel is transformed into mechanical energy in the high-pressure exhaust gas. When a rocket is fired, the thrust of this exhaust gas moves the rocket forward. This amount of rocket science is enough for me and now suppose I fix the rocket body with a robust mechanical structure to prevent its movement. What will happen? The high-pressure exhaust gas should be released and it will have no way but backward! Now keep this structure in mind and imagine I put a set of turbine blades in the path of this high-pressure back-fired exhaust. You see that the release of mechanical energy which is mostly in a “linear” backward direction will mostly transform into kind of “rotational” movement of turbine shaft and so far I’d say it’s a big success, i.e. transforming the chemical energy of fuel gas into rotational mechanical energy of turbine shaft. Now I have a “Prime Mover” for my generator in the above power plant example. Also, this prime mover concept can be used in different applications like turbo compressors or the likes. Now that I got the basics of Gas Turbines, let’s focus on a modern Gas Turbine and its components. Most likely you know about “Fire Triangle” or “Combustion Triangle” which illustrates the necessary ingredients of fire or combustion, i.e. “Fuel”, “Air”, and “Heat”. To transform the chemical energy of the fuel gas into mechanical energy, the fuel should be burnt in the “Combustion Chamber” of a gas turbine, so I need air and heat added to the fuel. Air is let into the gas turbine through “Air Intake” and mixed with a proper amount of natural gas. The Air/Gas ratio is determined based on the specific heating value of the gas and quality of the air, amount of moisture, altitude from sea level and so on. Now an ignition system steps in and makes the initial sparks, so hereby heat is provided. When the fire is established and stabilized in the combustion chamber, the ignition system will be put out of service. The most critical process in normal turbine operation is to manage the combustion and produce a proper amount of high-pressure exhaust gas. This exhaust gas is applied to the turbine blades and after rotating the turbine shaft, conducted to the exhaust stack. This was the simplest way to address major parts of Gas Turbines and as one of the most sophisticated man-made machines, a Gas Turbine deserves more elaboration. Also, there are different technologies which some manufacturers use as their proprietary technology and were not considered in this video. ============================= Missed our most recent videos? Watch them here: https://realpars.com/temperature-sensor https://realpars.com/connect-vfd-to-plc https://realpars.com/wiring-diagram-to-plc-program ============================= To stay up to date with our last videos and more lessons, make sure to subscribe to this YouTube channel: http://goo.gl/Y6DRiN ============================= TWEET THIS VIDEO https://ctt.ac/0JdF3 ============================= Like us on Facebook: https://www.facebook.com/therealpars/ Follow us on Twitter: https://twitter.com/realpars Follow us on LinkedIn https://www.linkedin.com/company/realpars #RealPars #Gasturbine #Turbocompressor

https://wn.com/What_Is_A_Gas_Turbine_(For_Beginners)

▶ Want to learn industrial automation? Go here: http://realpars.com ▶ Want to train your team in industrial automation? Go here: http://realpars.com/business ▶ Check out the full blog post over at https://realpars.com/gas-turbine ============================= Two of the most common applications of Gas Turbines in modern industries are Turbo Generators and Turbo Compressors. We try to approach a Gas Turbo Generator (GTG) to better feel the subject. In a Gas Turbine Power Plant, there’s a Generator which is an electrical machine. But to generate electricity this generator needs a Prime Mover which for my example is a Gas Turbine. Gas Turbine transforms the chemical energy in the fuel (i.e. natural gas or the similar fuel) into mechanical energy. The mechanical energy generated by the Turbine exit shaft is then transferred through a gearbox to the Generator’s shaft. Now my generator can create electrical energy. This primitive form of electrical energy normally has a low or medium level of voltage and to better manage the power loss in transmission lines, this voltage should be increased by step-up transformers. Such transformers give an adequate level of voltage to the electrical energy to be transmitted through the transmission lines and delivered to the grid. After this brief overview of a sample Gas Turbine application, I’m going to dig down into the Gas Turbine mechanism in more detail. First, imagine a rocket in which some fuel is going to burn and create a high-pressure exhaust gas. Based on energy conservation law, the chemical energy of the fuel is transformed into mechanical energy in the high-pressure exhaust gas. When a rocket is fired, the thrust of this exhaust gas moves the rocket forward. This amount of rocket science is enough for me and now suppose I fix the rocket body with a robust mechanical structure to prevent its movement. What will happen? The high-pressure exhaust gas should be released and it will have no way but backward! Now keep this structure in mind and imagine I put a set of turbine blades in the path of this high-pressure back-fired exhaust. You see that the release of mechanical energy which is mostly in a “linear” backward direction will mostly transform into kind of “rotational” movement of turbine shaft and so far I’d say it’s a big success, i.e. transforming the chemical energy of fuel gas into rotational mechanical energy of turbine shaft. Now I have a “Prime Mover” for my generator in the above power plant example. Also, this prime mover concept can be used in different applications like turbo compressors or the likes. Now that I got the basics of Gas Turbines, let’s focus on a modern Gas Turbine and its components. Most likely you know about “Fire Triangle” or “Combustion Triangle” which illustrates the necessary ingredients of fire or combustion, i.e. “Fuel”, “Air”, and “Heat”. To transform the chemical energy of the fuel gas into mechanical energy, the fuel should be burnt in the “Combustion Chamber” of a gas turbine, so I need air and heat added to the fuel. Air is let into the gas turbine through “Air Intake” and mixed with a proper amount of natural gas. The Air/Gas ratio is determined based on the specific heating value of the gas and quality of the air, amount of moisture, altitude from sea level and so on. Now an ignition system steps in and makes the initial sparks, so hereby heat is provided. When the fire is established and stabilized in the combustion chamber, the ignition system will be put out of service. The most critical process in normal turbine operation is to manage the combustion and produce a proper amount of high-pressure exhaust gas. This exhaust gas is applied to the turbine blades and after rotating the turbine shaft, conducted to the exhaust stack. This was the simplest way to address major parts of Gas Turbines and as one of the most sophisticated man-made machines, a Gas Turbine deserves more elaboration. Also, there are different technologies which some manufacturers use as their proprietary technology and were not considered in this video. ============================= Missed our most recent videos? Watch them here: https://realpars.com/temperature-sensor https://realpars.com/connect-vfd-to-plc https://realpars.com/wiring-diagram-to-plc-program ============================= To stay up to date with our last videos and more lessons, make sure to subscribe to this YouTube channel: http://goo.gl/Y6DRiN ============================= TWEET THIS VIDEO https://ctt.ac/0JdF3 ============================= Like us on Facebook: https://www.facebook.com/therealpars/ Follow us on Twitter: https://twitter.com/realpars Follow us on LinkedIn https://www.linkedin.com/company/realpars #RealPars #Gasturbine #Turbocompressor

• published: 08 Apr 2019
• views: 791719

16:09

How Gas Turbines Work (Combustion Turbine Working Principle)

• Order: Reorder
• Duration: 16:09
• Uploaded Date: 19 Nov 2023
• views: 84236

Gas turbines are versatile and efficient engines that have revolutionised power generation and propulsion systems worldwide. In this comprehensive video, we loo...

Gas turbines are versatile and efficient engines that have revolutionised power generation and propulsion systems worldwide. In this comprehensive video, we look at how gas turbines work, their main parts, and their various designs. You will learn: • The fundamental concept behind gas turbines and the Brayton cycle. • The key components of a gas turbine, including the compressor, combustor, turbine, and exhaust system. • The different types of gas turbine and their unique characteristics. • The diverse applications of gas turbines in power generation, aviation, and other industries. • Gas turbine efficiency. This video is taken from our Power Engineering Fundamentals video course: https://courses.savree.com/courses/power-engineering-fundamentals #saVRee_Nuggets, #saVRee, #saVRee_snacks

https://wn.com/How_Gas_Turbines_Work_(Combustion_Turbine_Working_Principle)

Gas turbines are versatile and efficient engines that have revolutionised power generation and propulsion systems worldwide. In this comprehensive video, we look at how gas turbines work, their main parts, and their various designs. You will learn: • The fundamental concept behind gas turbines and the Brayton cycle. • The key components of a gas turbine, including the compressor, combustor, turbine, and exhaust system. • The different types of gas turbine and their unique characteristics. • The diverse applications of gas turbines in power generation, aviation, and other industries. • Gas turbine efficiency. This video is taken from our Power Engineering Fundamentals video course: https://courses.savree.com/courses/power-engineering-fundamentals #saVRee_Nuggets, #saVRee, #saVRee_snacks

• published: 19 Nov 2023
• views: 84236

3:29

How Gas Turbines Work? (Detailed Video)

• Order: Reorder
• Duration: 3:29
• Uploaded Date: 09 Feb 2019
• views: 271684

A gas turbine, also called a combustion turbine, is a type of continuous combustion, internal combustion engine. The main elements common to all gas turbine eng...

A gas turbine, also called a combustion turbine, is a type of continuous combustion, internal combustion engine. The main elements common to all gas turbine engines are: 1. An upstream rotating gas turbine compressor; 2. A combustor; 3. A downstream turbine on the same shaft as the compressor. A fourth component is often used to increase efficiency (on turboprops and turbofans), to convert power into mechanical or electric form (on turboshafts and electric generators), or to achieve greater thrust-to-weight ratio (on afterburning engines). The working principle of a gas turbine is a Brayton cycle with air as the working fluid. Atmospheric air flows through the compressor that brings it to higher pressure. Energy is then added by spraying fuel into the air and igniting it so the combustion generates a high-temperature flow. This high-temperature high-pressure gas enters a turbine, where it expands down to the exhaust pressure, producing a shaft work output in the process. The turbine shaft work is used to drive the compressor; the energy that is not used for compressing the working fluid comes out in the exhaust gases that can be used to do external work, such as directly producing thrust in a turbojet engine, or rotating a second, independent turbine (known as a power turbine) which can be connected to a fan, propeller, or electrical generator. Join 'Engineering World' like many others to get access to very special perks: https://www.youtube.com/channel/UCh2wZoBynUkHmTX2GOwAKKg/join Also, kindly consider subscribing to our channel if you liked the video: https://geni.us/SubscribeChannel Watch some of our other interesting videos: Are Wind Turbines really Environmentally Friendly? Link: https://youtu.be/MVHzfUWul2Y Which is the best seaplane ever made? Link: https://youtu.be/XNQ9hnJMiY8 Can SpaceX rockets really land from the space? Link: https://youtu.be/aH9JQ4Kash0

https://wn.com/How_Gas_Turbines_Work_(Detailed_Video)

A gas turbine, also called a combustion turbine, is a type of continuous combustion, internal combustion engine. The main elements common to all gas turbine engines are: 1. An upstream rotating gas turbine compressor; 2. A combustor; 3. A downstream turbine on the same shaft as the compressor. A fourth component is often used to increase efficiency (on turboprops and turbofans), to convert power into mechanical or electric form (on turboshafts and electric generators), or to achieve greater thrust-to-weight ratio (on afterburning engines). The working principle of a gas turbine is a Brayton cycle with air as the working fluid. Atmospheric air flows through the compressor that brings it to higher pressure. Energy is then added by spraying fuel into the air and igniting it so the combustion generates a high-temperature flow. This high-temperature high-pressure gas enters a turbine, where it expands down to the exhaust pressure, producing a shaft work output in the process. The turbine shaft work is used to drive the compressor; the energy that is not used for compressing the working fluid comes out in the exhaust gases that can be used to do external work, such as directly producing thrust in a turbojet engine, or rotating a second, independent turbine (known as a power turbine) which can be connected to a fan, propeller, or electrical generator. Join 'Engineering World' like many others to get access to very special perks: https://www.youtube.com/channel/UCh2wZoBynUkHmTX2GOwAKKg/join Also, kindly consider subscribing to our channel if you liked the video: https://geni.us/SubscribeChannel Watch some of our other interesting videos: Are Wind Turbines really Environmentally Friendly? Link: https://youtu.be/MVHzfUWul2Y Which is the best seaplane ever made? Link: https://youtu.be/XNQ9hnJMiY8 Can SpaceX rockets really land from the space? Link: https://youtu.be/aH9JQ4Kash0

• published: 09 Feb 2019
• views: 271684

1:13

How does a gas turbine work? - Bang Goes the Theory - BBC One

• Order: Reorder
• Duration: 1:13
• Uploaded Date: 06 Mar 2014
• views: 70794

Subscribe and 🔔 to the BBC 👉 https://bit.ly/BBCYouTubeSub Watch the BBC first on iPlayer 👉 https://bbc.in/iPlayer-Home Programme website: http://www.bbc.co.uk/p...

Subscribe and 🔔 to the BBC 👉 https://bit.ly/BBCYouTubeSub Watch the BBC first on iPlayer 👉 https://bbc.in/iPlayer-Home Programme website: http://www.bbc.co.uk/programmes/p01tbjg9 Gas turbines provide an extremely flexible source of electricity, and Jem builds his own to reveal how such a simple device can be so responsive. #bbc All our TV channels and S4C are available to watch live through BBC iPlayer, although some programmes may not be available to stream online due to rights. If you would like to read more on what types of programmes are available to watch live, check the 'Are all programmes that are broadcast available on BBC iPlayer?' FAQ 👉 https://bbc.in/2m8ks6v.

https://wn.com/How_Does_A_Gas_Turbine_Work_Bang_Goes_The_Theory_BBC_One

Subscribe and 🔔 to the BBC 👉 https://bit.ly/BBCYouTubeSub Watch the BBC first on iPlayer 👉 https://bbc.in/iPlayer-Home Programme website: http://www.bbc.co.uk/programmes/p01tbjg9 Gas turbines provide an extremely flexible source of electricity, and Jem builds his own to reveal how such a simple device can be so responsive. #bbc All our TV channels and S4C are available to watch live through BBC iPlayer, although some programmes may not be available to stream online due to rights. If you would like to read more on what types of programmes are available to watch live, check the 'Are all programmes that are broadcast available on BBC iPlayer?' FAQ 👉 https://bbc.in/2m8ks6v.

• published: 06 Mar 2014
• views: 70794

4:20

3D animation of industrial gas turbine working principle

• Order: Reorder
• Duration: 4:20
• Uploaded Date: 09 Jul 2014
• views: 1592794

Industrial gas turbines from MAN Diesel & Turbo cover the 7 -13 MW range. This animation explains the working principle of these heavy duty machines by example ...

Industrial gas turbines from MAN Diesel & Turbo cover the 7 -13 MW range. This animation explains the working principle of these heavy duty machines by example of the new MGT series. A twin shaft version serves for mechanical drive applications while the design of the single shaft version is dedicated for power generation. You'll see some basic similarities to jet engines. GERMAN Industriegasturbinen von MAN Diesel & Turbo decken das Leistungsspektrum von 7-13 MW ab. Diese Animation erklärt ihr Arbeitsprinzip anhand der neuen MGT-Serie. Ein Zweiweller dient als mechanischer Antrieb, während die Einweller-Variante zur Stromerzeugung konzipiert ist. Die Funktionsweise hat einige Gemeinsamkeiten mit Flugzeugtriebwerken. SPANISH Las turbinas de gas industriales de MAN Diesel & Turbo abarcan todo el espectro de prestaciones en el rango de potencias 7-13 MW. Esta animación explica su principio de funcionamiento tomando como ejemplo la nueva serie MGT. Una turbina de dos árboles sirve para propulsión mecánica, mientras que la variante monoárbol ha sido concebida para la generación de energía. Su principio de funcionamiento presenta aspectos comunes a las turbinas aeroderivadas. FRENCH Les turbines à gaz industrielles de MAN Diesel & Turbo couvrent la plage de puissance de 7 à 13 MW. Cette animation explique leur principe de fonctionnement sur la base de la nouvelle série MGT. Une turbine bi-arbre sert d'entraînement mécanique, tandis que la variante mono-arbre est conçue pour la production d'électricité. Leur fonctionnement présente certains points communs avec les réacteurs d'avions. PORTUGUESE As turbinas a gás industriais da MAN Diesel & Turbo cobrem o espectro de potências de 7-13 MW. Esta animação explica o seu princípio de funcionamento com base na nova série MGT. A variante de dois eixos funciona como acionamento mecânico, enquanto que a variante de um eixo foi concebida para a produção de corrente. O modo de funcionamento tem alguns pontos em comum com os grupos motopropulsores de aviões. ITALIAN Le turbine a gas industriali di MAN Diesel & Turbo coprono la gamma di prestazioni da 7 a 13 MW. La presente animazione ne illustra il principio operativo sulla base della serie MGT. Un bialbero funge semplicemente da azionamento meccanico, mentre la variante monoalbero è concepita per generare corrente. Il funzionamento ha alcune cose in comune con il motore degli aerei. CHINESE MAN Diesel & Turbo 工业燃气轮机覆盖 7 至 13 MW 的功率范畴。 本片以新型的 MGT 系列为例, 显示了其工作原理。 其中一个双轴机用于机械驱动， 而单轴构造设计用于发电。 这种运行模式与飞机引擎有许多共同之处。 RUSSIAN Промышленные газовые турбины MAN Diesel & Turbo охватывают диапазон мощности от 7 до 13 МВт. Данная анимация разъясняет принцип работы на примере новой серии MGT. Двухвальная машина предназначена для механического привода, в то время как одновальный вариант сконструирован для выработки электроэнергии. Принцип действия имеет некоторые общие черты с авиационными двигателями. ARABIC تغطي توربينات الغاز الصناعية الخاصة بشركة MAN Diesel & Turbo طيف القدرة ما بين 7-13 ميجا وات. وتوضح الرسوم المتحركة مبدأ العمل على أساس سلسلة MGT الجديدة. وصُمم التوربين ثنائي العمود للاستخدام كمحرك للأقراص الميكانيكية، بينما صُمم المتغير أحادي العمود لتوليد الكهرباء. وهناك بعض أوجه الشبه بين طريقة عمل هذه التوربينات وطريقة عمل محركات الطائرات. JAPANESE MANディーゼル&ターボの工業ガスタービンは７～１３メガワットの性能スペクトルを遮蔽しています。このアニメーションは新しいMGTシリーズを基に作業原理を説明しています。２つのシャフトの方は別の発電用の１つのシャフトが着意する間メカニカル駆動として用いられます。この機能方法は飛行機エンジンと幾つかの共通点を持ち合わせています。

https://wn.com/3D_Animation_Of_Industrial_Gas_Turbine_Working_Principle

Industrial gas turbines from MAN Diesel & Turbo cover the 7 -13 MW range. This animation explains the working principle of these heavy duty machines by example of the new MGT series. A twin shaft version serves for mechanical drive applications while the design of the single shaft version is dedicated for power generation. You'll see some basic similarities to jet engines. GERMAN Industriegasturbinen von MAN Diesel & Turbo decken das Leistungsspektrum von 7-13 MW ab. Diese Animation erklärt ihr Arbeitsprinzip anhand der neuen MGT-Serie. Ein Zweiweller dient als mechanischer Antrieb, während die Einweller-Variante zur Stromerzeugung konzipiert ist. Die Funktionsweise hat einige Gemeinsamkeiten mit Flugzeugtriebwerken. SPANISH Las turbinas de gas industriales de MAN Diesel & Turbo abarcan todo el espectro de prestaciones en el rango de potencias 7-13 MW. Esta animación explica su principio de funcionamiento tomando como ejemplo la nueva serie MGT. Una turbina de dos árboles sirve para propulsión mecánica, mientras que la variante monoárbol ha sido concebida para la generación de energía. Su principio de funcionamiento presenta aspectos comunes a las turbinas aeroderivadas. FRENCH Les turbines à gaz industrielles de MAN Diesel & Turbo couvrent la plage de puissance de 7 à 13 MW. Cette animation explique leur principe de fonctionnement sur la base de la nouvelle série MGT. Une turbine bi-arbre sert d'entraînement mécanique, tandis que la variante mono-arbre est conçue pour la production d'électricité. Leur fonctionnement présente certains points communs avec les réacteurs d'avions. PORTUGUESE As turbinas a gás industriais da MAN Diesel & Turbo cobrem o espectro de potências de 7-13 MW. Esta animação explica o seu princípio de funcionamento com base na nova série MGT. A variante de dois eixos funciona como acionamento mecânico, enquanto que a variante de um eixo foi concebida para a produção de corrente. O modo de funcionamento tem alguns pontos em comum com os grupos motopropulsores de aviões. ITALIAN Le turbine a gas industriali di MAN Diesel & Turbo coprono la gamma di prestazioni da 7 a 13 MW. La presente animazione ne illustra il principio operativo sulla base della serie MGT. Un bialbero funge semplicemente da azionamento meccanico, mentre la variante monoalbero è concepita per generare corrente. Il funzionamento ha alcune cose in comune con il motore degli aerei. CHINESE MAN Diesel & Turbo 工业燃气轮机覆盖 7 至 13 MW 的功率范畴。 本片以新型的 MGT 系列为例, 显示了其工作原理。 其中一个双轴机用于机械驱动， 而单轴构造设计用于发电。 这种运行模式与飞机引擎有许多共同之处。 RUSSIAN Промышленные газовые турбины MAN Diesel & Turbo охватывают диапазон мощности от 7 до 13 МВт. Данная анимация разъясняет принцип работы на примере новой серии MGT. Двухвальная машина предназначена для механического привода, в то время как одновальный вариант сконструирован для выработки электроэнергии. Принцип действия имеет некоторые общие черты с авиационными двигателями. ARABIC تغطي توربينات الغاز الصناعية الخاصة بشركة MAN Diesel & Turbo طيف القدرة ما بين 7-13 ميجا وات. وتوضح الرسوم المتحركة مبدأ العمل على أساس سلسلة MGT الجديدة. وصُمم التوربين ثنائي العمود للاستخدام كمحرك للأقراص الميكانيكية، بينما صُمم المتغير أحادي العمود لتوليد الكهرباء. وهناك بعض أوجه الشبه بين طريقة عمل هذه التوربينات وطريقة عمل محركات الطائرات. JAPANESE MANディーゼル&ターボの工業ガスタービンは７～１３メガワットの性能スペクトルを遮蔽しています。このアニメーションは新しいMGTシリーズを基に作業原理を説明しています。２つのシャフトの方は別の発電用の１つのシャフトが着意する間メカニカル駆動として用いられます。この機能方法は飛行機エンジンと幾つかの共通点を持ち合わせています。

• published: 09 Jul 2014
• views: 1592794

4:28

Gas Turbine Engine, How it Works ?

• Order: Reorder
• Duration: 4:28
• Uploaded Date: 09 Feb 2013
• views: 430590

This video lecture describes working of gas turbines in a conceptual way. Here we will go through how gas turbines produce propulsive power in a jet engine airc...

This video lecture describes working of gas turbines in a conceptual way. Here we will go through how gas turbines produce propulsive power in a jet engine aircraft, by executing Brayton cycle..

https://wn.com/Gas_Turbine_Engine,_How_It_Works

This video lecture describes working of gas turbines in a conceptual way. Here we will go through how gas turbines produce propulsive power in a jet engine aircraft, by executing Brayton cycle..

• published: 09 Feb 2013
• views: 430590

0:32

Airoplane engine working...gas turbine...sucks...blow...#airoplane

• Order: Reorder
• Duration: 0:32
• Uploaded Date: 04 Nov 2024
• views: 33

https://youtube.com/playlist?list=PLwYfFZzLrsFs5UQn0Hlgv941qGje8Fmwr&feature=shared @Studywithintrovert

https://youtube.com/playlist?list=PLwYfFZzLrsFs5UQn0Hlgv941qGje8Fmwr&feature=shared @Studywithintrovert

https://wn.com/Airoplane_Engine_Working...Gas_Turbine...Sucks...Blow..._Airoplane

https://youtube.com/playlist?list=PLwYfFZzLrsFs5UQn0Hlgv941qGje8Fmwr&feature=shared @Studywithintrovert

• published: 04 Nov 2024
• views: 33

3:38

How A Combined Cycle Power Plant Works | Gas Power Generation | GE Power

• Order: Reorder
• Duration: 3:38
• Uploaded Date: 16 Feb 2016
• views: 636672

Take this 360 degree tour and discover what our Combined Cycle Power Plant is all about. See you next time you flip on a light switch! Learn more: https://www.g...

Take this 360 degree tour and discover what our Combined Cycle Power Plant is all about. See you next time you flip on a light switch! Learn more: https://www.ge.com/gas-power/resources/education/combined-cycle-power-plants #GEPower #PoweringForward Subscribe for More: https://bit.ly/2N82PfY Work for GE: https://invent.ge/2F0yg76 GE Power Social Accounts: Visit GE Power: https://invent.ge/2Blgkr1 Find GE Power on Linkedin: https://bit.ly/2L34UaT Follow GE Power on Twitter: https://bit.ly/2MVIVoh Like GE Power on Facebook: https://bit.ly/2OMQcaz Follow GE Power on Instagram: https://bit.ly/2MuWG0c About GE Power: GE Power is a world energy leader providing equipment, solutions and services across the energy value chain from generation to consumption. Operating in more than 180 countries, our technology produces a third of the world’s electricity, equips 90 percent of power transmission utilities worldwide, and our software manages more than forty percent of the world’s energy. For more information please visit www.ge.com/power, and follow GE Power on Twitter and on LinkedIn. https://www.youtube.com/c/GEPower

https://wn.com/How_A_Combined_Cycle_Power_Plant_Works_|_Gas_Power_Generation_|_Ge_Power

Take this 360 degree tour and discover what our Combined Cycle Power Plant is all about. See you next time you flip on a light switch! Learn more: https://www.ge.com/gas-power/resources/education/combined-cycle-power-plants #GEPower #PoweringForward Subscribe for More: https://bit.ly/2N82PfY Work for GE: https://invent.ge/2F0yg76 GE Power Social Accounts: Visit GE Power: https://invent.ge/2Blgkr1 Find GE Power on Linkedin: https://bit.ly/2L34UaT Follow GE Power on Twitter: https://bit.ly/2MVIVoh Like GE Power on Facebook: https://bit.ly/2OMQcaz Follow GE Power on Instagram: https://bit.ly/2MuWG0c About GE Power: GE Power is a world energy leader providing equipment, solutions and services across the energy value chain from generation to consumption. Operating in more than 180 countries, our technology produces a third of the world’s electricity, equips 90 percent of power transmission utilities worldwide, and our software manages more than forty percent of the world’s energy. For more information please visit www.ge.com/power, and follow GE Power on Twitter and on LinkedIn. https://www.youtube.com/c/GEPower

• published: 16 Feb 2016
• views: 636672

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2:40

How a Gas Turbine Works | Gas Power Generation | GE Power

This video explains how a gas turbine, the heart of the power plant, produces an electric ...

published: 06 Jan 2016

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How a Gas Turbine Works | Gas Power Generation | GE Power

How a Gas Turbine Works | Gas Power Generation | GE Power

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• published: 06 Jan 2016
• views: 1384841

This video explains how a gas turbine, the heart of the power plant, produces an electric current that delivers power to our people. Put that in your power plant and spin it. Learn more: https://www.ge.com/gas-power/resources/education/what-is-a-gas-turbine #GasTurbine #GEPower #PoweringForward Subscribe for More: https://bit.ly/2N82PfY Work for GE: https://invent.ge/2F0yg76 To learn more, visit: https://powergen.gepower.com/ GE Power Social Accounts: Visit GE Power: https://invent.ge/2Blgkr1 Find GE Power on Linkedin: https://bit.ly/2L34UaT Follow GE Power on Twitter: https://bit.ly/2MVIVoh Like GE Power on Facebook: https://bit.ly/2OMQcaz Follow GE Power on Instagram: https://bit.ly/2MuWG0c About GE Power: GE Power is a world energy leader providing equipment, solutions and services across the energy value chain from generation to consumption. Operating in more than 180 countries, our technology produces a third of the world’s electricity, equips 90 percent of power transmission utilities worldwide, and our software manages more than forty percent of the world’s energy. For more information please visit www.ge.com/power, and follow GE Power on Twitter and on LinkedIn. How a Gas Turbine Works | Gas Power Generation | GE Power https://www.youtube.com/c/GEPower

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1:16

How a Gas Turbine Works

So how does a gas turbine engine work? This video takes you through the working principles...

published: 27 Mar 2019

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How a Gas Turbine Works

How a Gas Turbine Works

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• published: 27 Mar 2019
• views: 317770

So how does a gas turbine engine work? This video takes you through the working principles of gas turbine engines and the types of applications they are used in. Website: https://www.solarturbines.com Follow us on social media: Linkedin: https://www.linkedin.com/company/SolarTurbines/ Instagram: https://www.instagram.com/SolarTurbines/ Facebook: https://www.facebook.com/SolarTurbines/ Twitter: https://twitter.com/SolarTurbines Solar Turbines Incorporated, headquartered in San Diego, California, is a wholly owned subsidiary of Caterpillar Inc. Solar manufactures the world’s most widely used family of mid-sized industrial gas turbines, ranging from 1 to 23 megawatts. More than 15,000 Solar units are operating in more than 100 countries with more than 2.8 billion operating hours. Solar is a leading provider of energy solutions, featuring an extensive line of gas turbine-powered compressor sets, mechanical drive packages, and generator sets.   Solar’s customers put the company’s products to work in many areas, including production, processing and pipeline transmission of natural gas and crude oil, and generation of electricity and thermal energy for processing applications, such as manufacturing chemicals, pharmaceuticals, and food products.

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9:35

What is a Gas Turbine? (For beginners)

▶ Want to learn industrial automation? Go here: http://realpars.com ▶ Want to train your t...

published: 08 Apr 2019

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What is a Gas Turbine? (For beginners)

What is a Gas Turbine? (For beginners)

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• published: 08 Apr 2019
• views: 791719

▶ Want to learn industrial automation? Go here: http://realpars.com ▶ Want to train your team in industrial automation? Go here: http://realpars.com/business ▶ Check out the full blog post over at https://realpars.com/gas-turbine ============================= Two of the most common applications of Gas Turbines in modern industries are Turbo Generators and Turbo Compressors. We try to approach a Gas Turbo Generator (GTG) to better feel the subject. In a Gas Turbine Power Plant, there’s a Generator which is an electrical machine. But to generate electricity this generator needs a Prime Mover which for my example is a Gas Turbine. Gas Turbine transforms the chemical energy in the fuel (i.e. natural gas or the similar fuel) into mechanical energy. The mechanical energy generated by the Turbine exit shaft is then transferred through a gearbox to the Generator’s shaft. Now my generator can create electrical energy. This primitive form of electrical energy normally has a low or medium level of voltage and to better manage the power loss in transmission lines, this voltage should be increased by step-up transformers. Such transformers give an adequate level of voltage to the electrical energy to be transmitted through the transmission lines and delivered to the grid. After this brief overview of a sample Gas Turbine application, I’m going to dig down into the Gas Turbine mechanism in more detail. First, imagine a rocket in which some fuel is going to burn and create a high-pressure exhaust gas. Based on energy conservation law, the chemical energy of the fuel is transformed into mechanical energy in the high-pressure exhaust gas. When a rocket is fired, the thrust of this exhaust gas moves the rocket forward. This amount of rocket science is enough for me and now suppose I fix the rocket body with a robust mechanical structure to prevent its movement. What will happen? The high-pressure exhaust gas should be released and it will have no way but backward! Now keep this structure in mind and imagine I put a set of turbine blades in the path of this high-pressure back-fired exhaust. You see that the release of mechanical energy which is mostly in a “linear” backward direction will mostly transform into kind of “rotational” movement of turbine shaft and so far I’d say it’s a big success, i.e. transforming the chemical energy of fuel gas into rotational mechanical energy of turbine shaft. Now I have a “Prime Mover” for my generator in the above power plant example. Also, this prime mover concept can be used in different applications like turbo compressors or the likes. Now that I got the basics of Gas Turbines, let’s focus on a modern Gas Turbine and its components. Most likely you know about “Fire Triangle” or “Combustion Triangle” which illustrates the necessary ingredients of fire or combustion, i.e. “Fuel”, “Air”, and “Heat”. To transform the chemical energy of the fuel gas into mechanical energy, the fuel should be burnt in the “Combustion Chamber” of a gas turbine, so I need air and heat added to the fuel. Air is let into the gas turbine through “Air Intake” and mixed with a proper amount of natural gas. The Air/Gas ratio is determined based on the specific heating value of the gas and quality of the air, amount of moisture, altitude from sea level and so on. Now an ignition system steps in and makes the initial sparks, so hereby heat is provided. When the fire is established and stabilized in the combustion chamber, the ignition system will be put out of service. The most critical process in normal turbine operation is to manage the combustion and produce a proper amount of high-pressure exhaust gas. This exhaust gas is applied to the turbine blades and after rotating the turbine shaft, conducted to the exhaust stack. This was the simplest way to address major parts of Gas Turbines and as one of the most sophisticated man-made machines, a Gas Turbine deserves more elaboration. Also, there are different technologies which some manufacturers use as their proprietary technology and were not considered in this video. ============================= Missed our most recent videos? Watch them here: https://realpars.com/temperature-sensor https://realpars.com/connect-vfd-to-plc https://realpars.com/wiring-diagram-to-plc-program ============================= To stay up to date with our last videos and more lessons, make sure to subscribe to this YouTube channel: http://goo.gl/Y6DRiN ============================= TWEET THIS VIDEO https://ctt.ac/0JdF3 ============================= Like us on Facebook: https://www.facebook.com/therealpars/ Follow us on Twitter: https://twitter.com/realpars Follow us on LinkedIn https://www.linkedin.com/company/realpars #RealPars #Gasturbine #Turbocompressor

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16:09

How Gas Turbines Work (Combustion Turbine Working Principle)

Gas turbines are versatile and efficient engines that have revolutionised power generation...

published: 19 Nov 2023

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How Gas Turbines Work (Combustion Turbine Working Principle)

How Gas Turbines Work (Combustion Turbine Working Principle)

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• published: 19 Nov 2023
• views: 84236

Gas turbines are versatile and efficient engines that have revolutionised power generation and propulsion systems worldwide. In this comprehensive video, we look at how gas turbines work, their main parts, and their various designs. You will learn: • The fundamental concept behind gas turbines and the Brayton cycle. • The key components of a gas turbine, including the compressor, combustor, turbine, and exhaust system. • The different types of gas turbine and their unique characteristics. • The diverse applications of gas turbines in power generation, aviation, and other industries. • Gas turbine efficiency. This video is taken from our Power Engineering Fundamentals video course: https://courses.savree.com/courses/power-engineering-fundamentals #saVRee_Nuggets, #saVRee, #saVRee_snacks

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3:29

How Gas Turbines Work? (Detailed Video)

A gas turbine, also called a combustion turbine, is a type of continuous combustion, inter...

published: 09 Feb 2019

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How Gas Turbines Work? (Detailed Video)

How Gas Turbines Work? (Detailed Video)

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• published: 09 Feb 2019
• views: 271684

A gas turbine, also called a combustion turbine, is a type of continuous combustion, internal combustion engine. The main elements common to all gas turbine engines are: 1. An upstream rotating gas turbine compressor; 2. A combustor; 3. A downstream turbine on the same shaft as the compressor. A fourth component is often used to increase efficiency (on turboprops and turbofans), to convert power into mechanical or electric form (on turboshafts and electric generators), or to achieve greater thrust-to-weight ratio (on afterburning engines). The working principle of a gas turbine is a Brayton cycle with air as the working fluid. Atmospheric air flows through the compressor that brings it to higher pressure. Energy is then added by spraying fuel into the air and igniting it so the combustion generates a high-temperature flow. This high-temperature high-pressure gas enters a turbine, where it expands down to the exhaust pressure, producing a shaft work output in the process. The turbine shaft work is used to drive the compressor; the energy that is not used for compressing the working fluid comes out in the exhaust gases that can be used to do external work, such as directly producing thrust in a turbojet engine, or rotating a second, independent turbine (known as a power turbine) which can be connected to a fan, propeller, or electrical generator. Join 'Engineering World' like many others to get access to very special perks: https://www.youtube.com/channel/UCh2wZoBynUkHmTX2GOwAKKg/join Also, kindly consider subscribing to our channel if you liked the video: https://geni.us/SubscribeChannel Watch some of our other interesting videos: Are Wind Turbines really Environmentally Friendly? Link: https://youtu.be/MVHzfUWul2Y Which is the best seaplane ever made? Link: https://youtu.be/XNQ9hnJMiY8 Can SpaceX rockets really land from the space? Link: https://youtu.be/aH9JQ4Kash0

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1:13

How does a gas turbine work? - Bang Goes the Theory - BBC One

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published: 06 Mar 2014

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How does a gas turbine work? - Bang Goes the Theory - BBC One

How does a gas turbine work? - Bang Goes the Theory - BBC One

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• published: 06 Mar 2014
• views: 70794

Subscribe and 🔔 to the BBC 👉 https://bit.ly/BBCYouTubeSub Watch the BBC first on iPlayer 👉 https://bbc.in/iPlayer-Home Programme website: http://www.bbc.co.uk/programmes/p01tbjg9 Gas turbines provide an extremely flexible source of electricity, and Jem builds his own to reveal how such a simple device can be so responsive. #bbc All our TV channels and S4C are available to watch live through BBC iPlayer, although some programmes may not be available to stream online due to rights. If you would like to read more on what types of programmes are available to watch live, check the 'Are all programmes that are broadcast available on BBC iPlayer?' FAQ 👉 https://bbc.in/2m8ks6v.

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4:20

3D animation of industrial gas turbine working principle

Industrial gas turbines from MAN Diesel & Turbo cover the 7 -13 MW range. This animation e...

published: 09 Jul 2014

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3D animation of industrial gas turbine working principle

3D animation of industrial gas turbine working principle

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• published: 09 Jul 2014
• views: 1592794

Industrial gas turbines from MAN Diesel & Turbo cover the 7 -13 MW range. This animation explains the working principle of these heavy duty machines by example of the new MGT series. A twin shaft version serves for mechanical drive applications while the design of the single shaft version is dedicated for power generation. You'll see some basic similarities to jet engines. GERMAN Industriegasturbinen von MAN Diesel & Turbo decken das Leistungsspektrum von 7-13 MW ab. Diese Animation erklärt ihr Arbeitsprinzip anhand der neuen MGT-Serie. Ein Zweiweller dient als mechanischer Antrieb, während die Einweller-Variante zur Stromerzeugung konzipiert ist. Die Funktionsweise hat einige Gemeinsamkeiten mit Flugzeugtriebwerken. SPANISH Las turbinas de gas industriales de MAN Diesel & Turbo abarcan todo el espectro de prestaciones en el rango de potencias 7-13 MW. Esta animación explica su principio de funcionamiento tomando como ejemplo la nueva serie MGT. Una turbina de dos árboles sirve para propulsión mecánica, mientras que la variante monoárbol ha sido concebida para la generación de energía. Su principio de funcionamiento presenta aspectos comunes a las turbinas aeroderivadas. FRENCH Les turbines à gaz industrielles de MAN Diesel & Turbo couvrent la plage de puissance de 7 à 13 MW. Cette animation explique leur principe de fonctionnement sur la base de la nouvelle série MGT. Une turbine bi-arbre sert d'entraînement mécanique, tandis que la variante mono-arbre est conçue pour la production d'électricité. Leur fonctionnement présente certains points communs avec les réacteurs d'avions. PORTUGUESE As turbinas a gás industriais da MAN Diesel & Turbo cobrem o espectro de potências de 7-13 MW. Esta animação explica o seu princípio de funcionamento com base na nova série MGT. A variante de dois eixos funciona como acionamento mecânico, enquanto que a variante de um eixo foi concebida para a produção de corrente. O modo de funcionamento tem alguns pontos em comum com os grupos motopropulsores de aviões. ITALIAN Le turbine a gas industriali di MAN Diesel & Turbo coprono la gamma di prestazioni da 7 a 13 MW. La presente animazione ne illustra il principio operativo sulla base della serie MGT. Un bialbero funge semplicemente da azionamento meccanico, mentre la variante monoalbero è concepita per generare corrente. Il funzionamento ha alcune cose in comune con il motore degli aerei. CHINESE MAN Diesel & Turbo 工业燃气轮机覆盖 7 至 13 MW 的功率范畴。 本片以新型的 MGT 系列为例, 显示了其工作原理。 其中一个双轴机用于机械驱动， 而单轴构造设计用于发电。 这种运行模式与飞机引擎有许多共同之处。 RUSSIAN Промышленные газовые турбины MAN Diesel & Turbo охватывают диапазон мощности от 7 до 13 МВт. Данная анимация разъясняет принцип работы на примере новой серии MGT. Двухвальная машина предназначена для механического привода, в то время как одновальный вариант сконструирован для выработки электроэнергии. Принцип действия имеет некоторые общие черты с авиационными двигателями. ARABIC تغطي توربينات الغاز الصناعية الخاصة بشركة MAN Diesel & Turbo طيف القدرة ما بين 7-13 ميجا وات. وتوضح الرسوم المتحركة مبدأ العمل على أساس سلسلة MGT الجديدة. وصُمم التوربين ثنائي العمود للاستخدام كمحرك للأقراص الميكانيكية، بينما صُمم المتغير أحادي العمود لتوليد الكهرباء. وهناك بعض أوجه الشبه بين طريقة عمل هذه التوربينات وطريقة عمل محركات الطائرات. JAPANESE MANディーゼル&ターボの工業ガスタービンは７～１３メガワットの性能スペクトルを遮蔽しています。このアニメーションは新しいMGTシリーズを基に作業原理を説明しています。２つのシャフトの方は別の発電用の１つのシャフトが着意する間メカニカル駆動として用いられます。この機能方法は飛行機エンジンと幾つかの共通点を持ち合わせています。

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4:28

Gas Turbine Engine, How it Works ?

This video lecture describes working of gas turbines in a conceptual way. Here we will go ...

published: 09 Feb 2013

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Gas Turbine Engine, How it Works ?

Gas Turbine Engine, How it Works ?

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• published: 09 Feb 2013
• views: 430590

This video lecture describes working of gas turbines in a conceptual way. Here we will go through how gas turbines produce propulsive power in a jet engine aircraft, by executing Brayton cycle..

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0:32

Airoplane engine working...gas turbine...sucks...blow...#airoplane

https://youtube.com/playlist?list=PLwYfFZzLrsFs5UQn0Hlgv941qGje8Fmwr&feature=shared @Study...

published: 04 Nov 2024

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Airoplane engine working...gas turbine...sucks...blow...#airoplane

Airoplane engine working...gas turbine...sucks...blow...#airoplane

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• published: 04 Nov 2024
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https://youtube.com/playlist?list=PLwYfFZzLrsFs5UQn0Hlgv941qGje8Fmwr&feature=shared @Studywithintrovert

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3:38

How A Combined Cycle Power Plant Works | Gas Power Generation | GE Power

Take this 360 degree tour and discover what our Combined Cycle Power Plant is all about. S...

published: 16 Feb 2016

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How A Combined Cycle Power Plant Works | Gas Power Generation | GE Power

How A Combined Cycle Power Plant Works | Gas Power Generation | GE Power

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• published: 16 Feb 2016
• views: 636672

Take this 360 degree tour and discover what our Combined Cycle Power Plant is all about. See you next time you flip on a light switch! Learn more: https://www.ge.com/gas-power/resources/education/combined-cycle-power-plants #GEPower #PoweringForward Subscribe for More: https://bit.ly/2N82PfY Work for GE: https://invent.ge/2F0yg76 GE Power Social Accounts: Visit GE Power: https://invent.ge/2Blgkr1 Find GE Power on Linkedin: https://bit.ly/2L34UaT Follow GE Power on Twitter: https://bit.ly/2MVIVoh Like GE Power on Facebook: https://bit.ly/2OMQcaz Follow GE Power on Instagram: https://bit.ly/2MuWG0c About GE Power: GE Power is a world energy leader providing equipment, solutions and services across the energy value chain from generation to consumption. Operating in more than 180 countries, our technology produces a third of the world’s electricity, equips 90 percent of power transmission utilities worldwide, and our software manages more than forty percent of the world’s energy. For more information please visit www.ge.com/power, and follow GE Power on Twitter and on LinkedIn. https://www.youtube.com/c/GEPower

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Gas turbine

A gas turbine, also called a combustion turbine, is a type of internal combustion engine. It has an upstream rotating compressor coupled to a downstream turbine, and a combustion chamber in between.

The basic operation of the gas turbine is similar to that of the steam power plant except that air is used instead of water. Fresh atmospheric air flows through a compressor that brings it to higher pressure. Energy is then added by spraying fuel into the air and igniting it so the combustion generates a high-temperature flow. This high-temperature high-pressure gas enters a turbine, where it expands down to the exhaust pressure, producing a shaft work output in the process. The turbine shaft work is used to drive the compressor and other devices such as an electric generator that may be coupled to the shaft. The energy that is not used for shaft work comes out in the exhaust gases, so these have either a high temperature or a high velocity. The purpose of the gas turbine determines the design so that the most desirable energy form is maximized. Gas turbines are used to power aircraft, trains, ships, electrical generators, or even tanks.

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This page contains text from Wikipedia, the Free Encyclopedia - https://wn.com/Gas_turbine

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How a Gas Turbine Works | Gas Power Generation | G...

How a Gas Turbine Works...

What is a Gas Turbine? (For beginners)...

How Gas Turbines Work (Combustion Turbine Working ...

How Gas Turbines Work? (Detailed Video)...

How does a gas turbine work? - Bang Goes the Theor...

3D animation of industrial gas turbine working pri...

Gas Turbine Engine, How it Works ?...

Airoplane engine working...gas turbine...sucks...b...

How A Combined Cycle Power Plant Works | Gas Power...

Latest News for: gas turbine

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China unveils high-capacity hydrogen gas turbine to optimize clean energy use

People Daily 27 Dec 2024

26 (Xinhua) -- A Chinese new energy equipment firm has announced the successful ignition of the world's first 30MW-class pure hydrogen gas turbine, offering a key solution for renewable energy storage and utilization.

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Unpacking solar-project data analytics

PV Magazine 27 Dec 2024

From pv magazine 12/24-01/25 ... Solar PV is not quite there yet.” ... Rethinking KPIs ... The oil and gas industry, for instance, has been standardized. If you go to an oil rig or a gas turbine in any country in the world, the standards are similar,” he said.

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Opinion: Here’s the best climate news you missed this year

Chatanooga Times Free Press 26 Dec 2024

Historically, that's always been a gas turbine, and spiraling prices for methane since the Russian invasion of Ukraine in February 2022 have meant daily peaks have often hit levels north of $10 a kilowatt-hour.

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Al Masaood and Hengst unite to introduce filtration solutions in UAE

GCC Business News 26 Dec 2024

The partnership appoints Al Masaood as the exclusive distributor for Hengst’s gas turbine and turbomachinery filtration solutions in the UAE ... Latest . Emirates NBD joins National Incubator Network to boost startups ....

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JERA and BP-led partnerships win Japanese offshore wind auction

Splash24/7 25 Dec 2024

The project, set to be one of the largest offshore wind farms in Japan, will have 41 15MW wind turbines ... It will consist of 30 wind turbines, each with an individual capacity of 15 MW ... Turbines will be supplied by Siemens Gamesa.

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Can Biden’s green boom survive Trump’s wrecking ball?

Deccan Herald 25 Dec 2024

That’s partly because hydropower offers some of the same flexibility to back up wind and solar power that gas turbines provide; making it not just a source of clean energy but also an enabler of other ...

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Defense requires agility, not tanks

Taipei Times 25 Dec 2024

By Harun Talha Ayanoglu ... The delivery schedule comprises three phases. 38 tanks this year, 42 next year and the remaining 28 in 2026 ... Unlike diesel-powered tanks, the M1A2 uses a 1500 horsepower gas turbine engine fueled by gasoline or jet fuel ... .

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Stakes involved in Iran’s partnership with Eurasian Union

Press TV 24 Dec 2024

Barter arrangements have involved exchanging Russian metals for Iranian automobile parts and gas turbines, while the two countries have held talks with Azerbaijan to revive the rail component of the ...

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Olu: Underutilisation Marring Operations in Onne, Port Harcourt Ports

This Day 23 Dec 2024

Josiah John Olu, recently spoke to journalists on the state of Onne Port, Onne Oil and Gas Free Zone and other issues ... We provide support services to the Oil and Gas Free Zone and the maritime sector ... You don’t even have a turbine.

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NV Energy’s plan to build solar, battery plants, more approved

Las Vegas Review-Journal 21 Dec 2024

“Nevada’s IRP and resource procurement processes are fundamentally flawed, resulting in more reliance on gas turbines that do not best serve Nevadans,” said Emily Walsh, clean energy policy advisor at WRA.

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How scientists created unidirectional path for sound that could transform wave tech

Interesting Engineering 21 Dec 2024

Basics of wave mechanics ... Source ... These limitations inspired Professor Noiray to consider parallels with annular combustors used in jet engines and gas turbines, where sound waves and flames interact to produce self-sustaining oscillations ... Source ... .

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How Chinese espionage conquered Western capitalism

The Daily Telegraph 21 Dec 2024

Sir Keir Starmer has been busily attempting to defrost relations with Beijing ... The information he appropriated and sent to an accomplice in China related to the design and manufacture of gas and steam turbines and was thought to be worth millions ... .

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Why is gas turbine fuel adaptable? Features and Applications

GetNews 20 Dec 2024

Fuel adaptability is a key factor for the future sustainability of gas turbines ... In this article, we will explore why gas turbine fuel adaptability is essential and the role of advanced materials in achieving this adaptability.

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Photos: An inside look at SaskPower's new power plant

Moosejaw Today 20 Dec 2024

One generator is natural gas-fired that combusts compressed air and natural gas, which drives a turbine and generator and sends power to the grid ... Gas turbine and generator ... Furthermore, the gas turbine ...

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Duos Technologies partners with Fortress Investment to build Texas Panhandle data center

Amarillo Globe-News 20 Dec 2024

This will be powered by up to 500 megawatts of natural gas self-generation and up to 200MW of wind turbine generation and "alternative fuel sources for redundancy," according to a company news release.

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