Affiliation:
1. Department of Mechanical Convergence Engineering, Hanyang University, Seoul 04763, Republic of Korea
Abstract
The final feedwater temperature is the temperature of the feedwater supplied to the boiler in the power plant applied with the Rankine cycle. In thermal power plants adopting a regenerative cycle, it is generally known that the heat transfer of the boiler is reduced, and the efficiency of the power plant is increased. However, the output of the power plant is reduced when the final feedwater temperature is increased. In this study, the net output and efficiency of the power plants depending on the final feedwater temperature under the condition of constant boiler heat transfer rate were analyzed for five cases. The results show that there is a final feedwater temperature at which the net output and the net efficiency are maximized. The additional output of the power plant obtained by increasing the final feedwater temperature has the effect of reducing CO2 emissions. If the final feed water temperature is below 308.3 °C, the net output and the final feed water temperature are proportional for all cases. When the final feedwater temperature increases by 1 °C, the net output increases by 63.02 kW and CO2 emissions are reduced by 60.52 kgCO2/h on average.
Funder
Korea Institute for Advancement of Technology
Reference41 articles.
1. UNFCCC (2022, January 15). Adoption of the Paris Agreement. Available online: https://unfccc.int/resource/docs/2015/cop21/eng/l09r01.pdf.
2. Potential contribution of fusion power generation to low-carbon development under the Paris Agreement and associated uncertainties;Gi;Energy Strategy Rev.,2020
3. Development of Ultra-Supercritical (USC) Power Plant;Chang;Trans. Korean Soc. Mech. Eng.,2012
4. 500MW class standard coal-fired retrofit demonstration project;Song;J. KSME,2015
5. Decomposition Analysis on GHG Emissions of Domestic Electricity Generation Sector;Kim;Korean Energy Econ. Rev.,2018