Gaz Türbinli Kojenerasyon Tesislerinin Performans Analizleri

Volume: 37 Number: 1 March 1, 2017
  • Rabi Karaali
  • İlhan Tekin Öztürk
EN TR

Gaz Türbinli Kojenerasyon Tesislerinin Performans Analizleri

Abstract

In this study, some improving methods of gas turbine cogeneration cycles are applied on a simple cogeneration cycle. These methods are preheating air, preheating air and fuel, inlet air cooling by using evaporative cooling and absorption cooling. These cogeneration systems are evaluated with respect to energy efficiency (energy utilization factor), exergetic efficiency, electric and heat power, electric-heat energy rate, artificial thermal efficiency and fuel energy saving ratio and are compared with each other. In these analyses, the thermodynamic parameters such as compressing ratio, air and fuel mass ratio and compressor inlet temperatures of the cycles are used. It is concluded that these parameters can be listed from most effective to least effective as air fuel ratio, pressure ratio and compressor inlet temperature. It is also concluded that the most efficient cycle is found to be the air-fuel preheated cycle for obtaining more electric power and less heat power, and the simple cycle is the most suitable one for obtaining more heat power and less electric power

Keywords

Details

Primary Language

English

Subjects

-

Journal Section

-

Authors

Rabi Karaali This is me

İlhan Tekin Öztürk This is me

Publication Date

March 1, 2017

Submission Date

March 1, 2017

Acceptance Date

-

Published in Issue

Year 2017 Volume: 37 Number: 1

APA
Karaali, R., & Öztürk, İ. T. (2017). Gaz Türbinli Kojenerasyon Tesislerinin Performans Analizleri. Journal of Thermal Science and Technology, 37(1), 25-33. https://izlik.org/JA94SE29AF
AMA
1.Karaali R, Öztürk İT. Gaz Türbinli Kojenerasyon Tesislerinin Performans Analizleri. Journal of Thermal Science and Technology. 2017;37(1):25-33. https://izlik.org/JA94SE29AF
Chicago
Karaali, Rabi, and İlhan Tekin Öztürk. 2017. “Gaz Türbinli Kojenerasyon Tesislerinin Performans Analizleri”. Journal of Thermal Science and Technology 37 (1): 25-33. https://izlik.org/JA94SE29AF.
EndNote
Karaali R, Öztürk İT (March 1, 2017) Gaz Türbinli Kojenerasyon Tesislerinin Performans Analizleri. Journal of Thermal Science and Technology 37 1 25–33.
IEEE
[1]R. Karaali and İ. T. Öztürk, “Gaz Türbinli Kojenerasyon Tesislerinin Performans Analizleri”, Journal of Thermal Science and Technology, vol. 37, no. 1, pp. 25–33, Mar. 2017, [Online]. Available: https://izlik.org/JA94SE29AF
ISNAD
Karaali, Rabi - Öztürk, İlhan Tekin. “Gaz Türbinli Kojenerasyon Tesislerinin Performans Analizleri”. Journal of Thermal Science and Technology 37/1 (March 1, 2017): 25-33. https://izlik.org/JA94SE29AF.
JAMA
1.Karaali R, Öztürk İT. Gaz Türbinli Kojenerasyon Tesislerinin Performans Analizleri. Journal of Thermal Science and Technology. 2017;37:25–33.
MLA
Karaali, Rabi, and İlhan Tekin Öztürk. “Gaz Türbinli Kojenerasyon Tesislerinin Performans Analizleri”. Journal of Thermal Science and Technology, vol. 37, no. 1, Mar. 2017, pp. 25-33, https://izlik.org/JA94SE29AF.
Vancouver
1.Rabi Karaali, İlhan Tekin Öztürk. Gaz Türbinli Kojenerasyon Tesislerinin Performans Analizleri. Journal of Thermal Science and Technology [Internet]. 2017 Mar. 1;37(1):25-33. Available from: https://izlik.org/JA94SE29AF