Intercooling, Regeneration, Reheating in Gas Turbine | Methods to Improve Thermal Efficiency скачать в хорошем качестве

Intercooling, Regeneration, Reheating in Gas Turbine | Methods to Improve Thermal Efficiency

In this video, we will discuss Methods to Improve Thermal Efficiency of Gas Turbine, there are three methods those are Intercooling in gas turbine, Regeneration in gas turbine, Reheating or Preheating in gas turbine. We also discuss working of Gas Turbine, Regenerator, Preheater or Reheater, intercooler, what are the processes on temperature and entropy diagram Timestamps 0:00 - Start 0:03 - Methods to Improve Thermal Efficiency of Gas Turbine 0:10 - Regeneration Method of Gas Turbine 0:16 - Isentropic Compression Process in Regeneration Method of Gas Turbine 0:24 - Preheating of Compressed Air in Regeneration Method of Gas Turbine 0:34 - Combustion Process at Constant Pressure in Regeneration Method of Gas Turbine 0:40 - Isentropic Expansion Process in Regeneration Method of Gas Turbine 0:44 - Heat Reject from Turbine Exhaust and Preheating of Compressed Air in Regeneration Method of Gas Turbine 1:09 - Heat Rejection to Atmosphere at Constant Pressure in Regeneration Method of Gas Turbine 1:13 - Intercooling Method of Gas Turbine 1:28 - Compression Perform in First Compressor in Intercooling Method of Gas Turbine 1:32 - Intercooling is done at Constant Pressure in Intercooling Method of Gas Turbine 1:36 - Compression Perform in Second Compressor in Intercooling Method of Gas Turbine 1:38 - Combustion at Constant Pressure in Intercooling Method of Gas Turbine 1:41 - Isentropic Expansion in Turbine blade in Intercooling Method of Gas Turbine 1:45 - Exhaust Gases Releases in Atmosphere in Intercooling Method of Gas Turbine 2:00 - Reheating Method of Gas Turbine 2:09 - Isentropic Compression in Reheating Method of Gas Turbine 2:17 - Combustion at Constant Pressure in Reheating Method of Gas Turbine 2:22 - Isentropic Expansion in High Pressure Turbine blade in Reheating Method of Gas Turbine 2:27 - Secondary Combustion at Constant Pressure in Reheating Method of Gas Turbine 2:31 - Isentropic Expansion Process in Reheating Method of Gas Turbine 2:36 - Exhaust Gases releases in Atmosphere in Reheating Method of Gas Turbine 2:50 - Compare between Regeneration, Intercooling and Reheating Method of Gas Turbine #Regeneration #Intercooling #Reheating This Video Topic is from Power Engineering Subject, you can also watch below mentioned videos related to Power Engineering Subject: Catalytic Converter (2 way and 3 way) -    • Catalytic Converter Working Principle: 2 w...   Turbojet Engine and Turboprop Engine -    • Turbojet Engine and Turboprop Engine Worki...   Ramjet Engine -    • Ramjet Engine Working Animation | Ram Comp...   Valve Timing Diagram of 2 & 4 Stroke Petrol [SI] & Diesel [CI] Engine -    • Valve Timing Diagram of 2 & 4 Stroke Petro...   Valve Timing Diagram of 2 Stroke Petrol Engine [SI engine] -    • Valve Timing Diagram of 2 Stroke Petrol En...   Valve Timing Diagram of 2 Stroke Diesel Engine [CI engine] -    • Valve Timing Diagram of 2 Stroke Diesel En...   Valve Timing Diagram of 4 Stroke Petrol Engine [SI engine] -    • Valve Timing Diagram of 4 Stroke Petrol En...   Valve Timing Diagram of 4 Stroke Diesel Engine [CI engine] -    • Valve Timing Diagram of 4 Stroke Diesel En...   Faculty - Shubham Kola Email ID - [email protected] From - Maharashtra ( India ) YouTube Channel ( Shubham Kola ) -    / @ifinfotech   Disclaimer - video is for educational purpose only. Copyright Disclaimer Under Section 107 of the Copyright Act 1976, allowance is made for "fair use" for purposes such as criticism, comment, news reporting, teaching, scholarship, and research. Fair use is a use permitted by copyright statute that might otherwise be infringing. Non-profit, educational or personal use tips the balance in favour of fair use. The content in this video is collected from books, media, internet space etc. This is strictly for educational and information purposes and is not intended to be advice or recommendation of any kind whatsoever. The faculty is not a subject expert. The faculty is sharing his knowledge in the form of videos. The faculty giving small basics information on mechanical engineering topics. We endeavour to keep the information up to date and correct, we make no representations or warranties of any kind, express or implied, about the completeness, accuracy, reliability, suitability or availability with respect to the video or the information, related graphics contained in the video for any purpose. any reliance you place on such information is therefore strictly at your own risk. In no event will we be liable for any loss or damage without limitation, indirect or consequential loss or damage, or any loss or damage whatsoever arising from loss of data or profits arise out of, or in connection with, the use of this video.