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Please use this identifier to cite or link to this item: http://hdl.handle.net/10155/451

Issue Date: 1-Aug-2014
Title: Performance and emission characteristics of natural gas combined cycle power generation system with steam injection and oxyfuel combustion.
Authors: Varia, Nitin
Publisher : UOIT
Degree : Master of Applied Science (MASc)
Department : Mechanical Engineering
Supervisor : Reddy, Bale V.
Keywords: Steam injection
Combined cycle
Energy efficiency
Exergy efficiency
Turbines
CO2 Capture,
Oxyfuel
Abstract: Natural gas combined cycle power generation systems are gaining popularity due to their high power generation efficiency and reduced emission. In the present work, combined cycle power generation configuration systems studied with natural gas as primary fuel oxidizes with air and pure oxygen separately. Steam is injected in main combustion chamber and reheater combustion chamber individually and simultaneously to understand the performance of combined cycle work output and greenhouse gas emission. The effect of pressure ratio, turbine inlet temperature, isentropic efficiency, ambient temperature on combined cycle work output, thermal and exergy efficiency are carried out with and without steam injection. In present range of investigation, it is observed that the steam injection increases gas cycle efficiency and decreases the steam cycle efficiency. Ideal pressure ratio found to be 25 in all different combined cycle power generation system configurations. Maximum CO2 emission reduction (7.2%) occurs when steam is injected in reheater combustion chamber for fuel combustion with air and (3.2%) when steam injection in both combustion chambers for oxy fuel configuration. Thermal efficiency of combined cycle system increased by 8.2% when 10% steam injection in both combustion chambers. In oxyfuel combustion, higher ratio of recycle flue gas brings higher thermal efficiency and highest thermal efficiency achieved when steam is injected in main combustion chamber only. Maximum exergy destruction found in combustion chambers (57%), steam injection lowers exergy destruction by 4%. More than 10% steam in combustion chamber brings combined cycle thermal efficiency down.
Appears in Collections:Electronic Theses and Dissertations (Public)
Faculty of Engineering and Applied Science - Master Theses

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