Hameed Hamza, N., A. Hamzah, D., Al-Farhany, K., F. Al-Dawody, M., Nikolaevich Efimov, N. (2021). Simulation of temperature distribution in gas turbine stator blade subjected to different internal coolant gases. Alustath, 14(3), 166-172. doi: 10.30772/qjes.v14i3.851
Naseer Hameed Hamza; Dhafer A. Hamzah; Khaled Al-Farhany; Mohamed F. Al-Dawody; Nikolai Nikolaevich Efimov. "Simulation of temperature distribution in gas turbine stator blade subjected to different internal coolant gases". Alustath, 14, 3, 2021, 166-172. doi: 10.30772/qjes.v14i3.851
Hameed Hamza, N., A. Hamzah, D., Al-Farhany, K., F. Al-Dawody, M., Nikolaevich Efimov, N. (2021). 'Simulation of temperature distribution in gas turbine stator blade subjected to different internal coolant gases', Alustath, 14(3), pp. 166-172. doi: 10.30772/qjes.v14i3.851
Hameed Hamza, N., A. Hamzah, D., Al-Farhany, K., F. Al-Dawody, M., Nikolaevich Efimov, N. Simulation of temperature distribution in gas turbine stator blade subjected to different internal coolant gases. Alustath, 2021; 14(3): 166-172. doi: 10.30772/qjes.v14i3.851

Simulation of temperature distribution in gas turbine stator blade subjected to different internal coolant gases

Al-Qadisiyah Journal for Engineering Sciences
Volume 14, Issue 3, September 2021, Pages 166-172    PDF (847.86 K)
Document Type: Research Paper
DOI: 10.30772/qjes.v14i3.851
Authors
Naseer Hameed Hamza1; Dhafer A. Hamzah2; Khaled Al-Farhany2; Mohamed F. Al-Dawody3; Nikolai Nikolaevich Efimov* 4
1Department of Mechanical Engineering, Collage of Engineering, University of Al-Qadisiyah, Ad-Diwaniyah, Iraq.
2Department of mechanical engineering, University of Al-Qadisiyah, Al-Qadisiyah, 58001, Iraq
3Department of mechanical engineering, University of Al-Qadisiyah, Al-Qadisiyah, Iraq.
4Department of Thermal Power Plants and Heat Engineering, Platov South-Russian State Polytechnic University (NPI), 346428, Novocherkassk, The Russian Federation
Abstract
The gas turbine blade stator is subjected to a severe high temperature of hot incoming gases from the combustor. In order to avoid the melting of the stator, film and internal cooling techniques are applied by using a bypass stream of air from the compressor as a coolant fluid. These techniques have their own merits, but it is limited by some constraints like the value of specific heat of air. In this paper different gases with higher specific heat are used as a coolant in order to increase the thermal capacity of coolant fluid which in turn increases the amount of transferred heat. The selected gases are Helium, Steam, and Ammonia are applied in COMSOL Multiphysics® in order to simulate the cooling process and the temperature distribution. At first, the air is applied and the results show a good agreement with previous literature and then the other coolants to compare their results with the air. The results show that the Helium affects the cooling process strongly and it cools the blade to safer limits rather than air by about 50%, but it increases von Mises stress by about 71% in comparison with air. The two other coolants also have a good and effective cooling performance, but they almost show an identical performance.
Keywords
Simulation; Internal cooling; Coolant gases; Von Mises stress; Gas turbine blade
Statistics
Article View: 71
PDF Download: 127


Journal Management System. Powered by ejournalplus.com