Deep Sea Outfall of Natural Gas Fired Combined Cycle Power Plant Cooling Water Application and Modeling
Abstract
Combined Cycle Power Plants
are in wide demand throughout the world, because they are characterized by
short construction times, low investment costs, high operating efficiencies and
low exhaust emissions. This type of power plants can reach fuel to electricity
conversion efficiencies of 60%, at the same time it has minimal environmental
impacts. The most important reason for this is the use of natural gas, which is
a very clean fuel containing little or no sulfur, particulate matter and other
unwanted ingredients.
This study was investigated
the effect of cooling water from natural gas combined power plant to Black Sea
region of Turkey. The parameters, which affect the marine ecosystem, were
determined and in addition temperature, suspended solid, COD values were
measured. Modelling of these measured values was performed throughout discharge
line with the CORMIX-2 software developed by EPA (Environmental Protection
Agency) as environmentally purpose.
Keywords
References
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- [7] Doneker R. L. And Jirka H. G. “CORMIX-GI systems for mixing zone analysis of brine wastewater disposal” Desalination, vol. 139, issue 1-3, pp. 263-274, Sep. 2001.
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- [9] D.J. Baumgartner, W.E. Frick and P.J. Roberts, Dilution Models for Effluent Discharges, 3rd ed., USEPA, Newport, OR, 1994.
Abstract
References
- [1] Basaran, T., “Global Energy, Environment, Economic System and Hydrogen”, Hydrogen Energy Course Project Report, Sabancı University, Istanbul, 2009
- [2] Zhao, Y., “An Integrated Framework for Gas Turbine Based Power Plant Operational Modeling and Optimization”, Georgia Institute of Technology, PHD Thesis, Atlanta, USA, April 2005
- [3] I. S. Ondryas, D. A. Wilson, M. Kawamoto and G. L. Haub “Options in gas turbine power augmentation using inlet air chilling”, Trans ASME Journal of Engineering for Gas Turbines and Power, vol.113, issue 2, pp. 203-211, April 1991.
- [4] Kehlhofer, R., Combined Cycle Gas & Steam Turbine Power Plants, 3rd ed.,Penwell Publishing Company, Oklahama, USA, 1997.
- [5] Ross, D.A. and Degends, E.T., Recent sedimentation of Black Sea. In Degends, E.T. and Ross, D.A. (Eds.), The Black Sea-Geology-Chemistry-Biology the American Association of Petroleum Geologists, No. 20, 183-199. 1974
- [6] Akturk, “Heavy metals ın sedıments of the black sea,” In. Eng. Master of Science, Bogazici Institute of Environmental Science, Istanbul, Turkey, 2005.
- [7] Doneker R. L. And Jirka H. G. “CORMIX-GI systems for mixing zone analysis of brine wastewater disposal” Desalination, vol. 139, issue 1-3, pp. 263-274, Sep. 2001.
- [8] L.R. Davis, Fundamentals of Environmental Discharge Modeling. CRC Mechanical Engineering Series, Boca Raton, CRC Press, 1999.
- [9] D.J. Baumgartner, W.E. Frick and P.J. Roberts, Dilution Models for Effluent Discharges, 3rd ed., USEPA, Newport, OR, 1994.
Details
| Subjects | Engineering |
|---|---|
| Journal Section | Makaleler |
| Authors | |
| Publication Date | February 25, 2017 |
| Published in Issue | Year 2017 Volume: 2 Issue: 1 |
