Turbo Jet Engine Working | Turbo Prop Engine Components | Jet Propulsion | Applications| Basics скачать в хорошем качестве

Turbo Jet Engine Working | Turbo Prop Engine Components | Jet Propulsion | Applications| Basics

Turbo Prop Engine Working | Turbo Prop Engine Components | Jet Propulsion | Applications| Basics Hi This is Upendra Kumar Malla. Welcome to my channel .I want to provide some basic information about Mechanical engineering and Industrial safety . Watch 1000+ latest videos in playlist (    / @upendrakumarmalla   ) those videos may use full to you. Telegram group link 👇👇 https://t.me/joinchat/kBKPMSg2enQ1N2I1 App link -Google play store link https://clpdiy17.page.link/6eZ4 For Desktop / Web access - web link : https://web.classplusapp.com/login Org code: arfxv A turbojet engine is a type of air-breathing jet engine that works on the principle of the Brayton cycle. It is commonly used in aircraft propulsion. Here's a simplified explanation of how a turbojet engine works: Intake: The engine starts by taking in air from the atmosphere through the intake. The intake is designed to compress the incoming air and direct it into the engine. Compression: The compressed air enters the compressor section, consisting of multiple stages of rotating blades called compressor rotors and stationary blades called stators. The compressor increases the pressure of the air, further compressing it and squeezing it into a smaller space. Combustion: The highly compressed air is then mixed with fuel in the combustion chamber. The fuel can be a liquid or gaseous hydrocarbon, such as kerosene. The mixture is ignited by a spark, and it rapidly burns, creating a high-temperature and high-pressure gas. Expansion: The hot and pressurized gas generated in the combustion chamber flows into the turbine section. The gas expands as it passes through a series of turbine blades, causing the blades to rotate. The turbine is connected to the compressor by a shaft, so as the turbine rotates, it drives the compressor. Exhaust: The gas exits the turbine section and passes through the exhaust nozzle, which accelerates the exhaust gases and creates a high-speed jet of gas. The force of the exhaust jet propels the aircraft forward, according to Newton's third law of motion (for every action, there is an equal and opposite reaction). Thrust: The high-velocity exhaust jet generates thrust, which propels the aircraft forward. This thrust is responsible for the propulsion and movement of the aircraft through the air. Throughout the entire process, the compressor and turbine sections work together to maintain a continuous flow of air through the engine, providing the necessary compression and expansion for the efficient operation of the turbojet engine. It's important to note that modern jet engines, including turbofans and high-bypass turbofans, have evolved to improve efficiency and address various requirements. However, the basic principles of the turbojet engine remain the same. #steamturbine #gasturbine #working #steamturbineworking#powerplantengineering #mechanicalengineering #compitativeexams #turbineclassification #rocketengine #jetpropulsion #ramjetengine #turbopropengine #Pulsejetengine #rocketengineapplications