Browsing NTNU Open by Author "Soundararajan, Rengarajan"
Now showing items 1-5 of 5
-
Coal Based Power Plants Using Oxy-Combustion for CO2 Capture: Pressurized Coal Combustion to Reduce Capture Penalty
Soundararajan, Rengarajan; Gundersen, Truls (Journal article; Peer reviewed, 2012)The goal of this paper is to design and study a new variation of an oxy-combustion coal based power plant with CO2 capture that employs a pressurized coal combustor. The concept is compared with an atmospheric pressure ... -
Design of Steam Cycles for Oxy-combustion Coal based Power Plants with Emphasis on Heat Integration
Soundararajan, Rengarajan; Anantharaman, Rahul; Gundersen, Truls (Journal article; Peer reviewed, 2014)The Oxy-combustion method of CO2 capture is considered to have several advantages over other methods for CO2 capture from coal based power plants. The capture process is energy intensive and hence expensive. Heat integration ... -
Efficiency loss analysis for oxy-combustion CO2 capture process: Energy and Exergy analysis
Soundararajan, Rengarajan (Master thesis, 2011)Natural gas combined cycles with oxy-fuel combustion is expected tobe an important component of the future carbon constrained energyscenario. An oxy-combustion power cycle enables the fuel to burn in anitrogen free environment ... -
Oxy-combustion coal based power plants with CO2 capture: Process integration approach to reduce capture penalty
Soundararajan, Rengarajan (Doctoral thesis at NTNU;2015:34, Doctoral thesis, 2015)This thesis presents studies on coal based power plants with CO2 capture. As coal is the single largest fuel in use today to generate electricity, technologies to improve the efficiency and reduce emissions are critical ... -
Oxy-combustion coal based power plants: study of operating pressure, oxygen purity and downstream purification parameters
Soundararajan, Rengarajan; Gundersen, Truls; Ditaranto, Mario (Journal article; Peer reviewed, 2014)Oxy-combustion coal based power plants are considered one of the cost effective ways to produce CO2 emission free electricity. Recovery of compression heat and the latent heat from the flue gases can further improve the ...