Development of a gas turbine performance analysis program and its application

Energy

Volumn 36, Issue 8, 2011, Pages 5274-5285

  Lee, Jong Jun ^a   Kang, Do Won ^a   Kim, Tong Seop ^a  

^a Inha University   (South Korea)

Author keywords

Deviation; Gas turbine; Recuperative cycle; Reheat cycle; Simple cycle; Simulation

Indexed keywords

COMPUTER SIMULATION; DESIGN; GAS TURBINES; GASES; REHEAT CYCLE;

AVERAGE DEVIATION; BLADE COOLING; COMPONENT MODEL; CYCLE ENGINES; DESIGN PERFORMANCE; DESIGN SIMULATIONS; DEVIATION; GAS TURBINE CYCLES; GAS TURBINE PERFORMANCE; GASEOUS FUEL; OFF-DESIGN PERFORMANCE; PERFORMANCE PREDICTION; POWER OUT PUT; PREDICTED PERFORMANCE; PROGRAM STRUCTURES; RECUPERATIVE CYCLE; REFERENCE DATA; ROOT MEAN SQUARE DEVIATIONS; SIMPLE CYCLE; SIMULATION; THERMAL EFFICIENCY; TURBINE EXHAUST TEMPERATURES;

TURBOMACHINE BLADES;

ACCURACY ASSESSMENT; COMBUSTION; COOLING; PERFORMANCE ASSESSMENT; THERMODYNAMICS; TURBINE;

EID: 79961028795     PISSN: 03605442     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.energy.2011.06.032     Document Type: Article

References (49)

1. Kiehl J.T., Trenberth K.E. Earth's annual global mean energy budget. American Meteorological Society 1997, 78:197-208.
2. Litynski J.T., Plasynski S., McIlvried H.G., Mahoney C., Srivastava R.D. The United States department of energy's regional carbon sequestration partnerships program validation phase. Environment International 2008, 34:127-138.
3. Dennis RA, Harp R. Overview of the U.S. Department of Energy's Office of Fossil Energy advanced turbine program for coal based power systems with carbon capture. ASME paper GT2007-28338; 2007.
4. Oluyede EO, Phillips JN. Fundamental impact of firing syngas in gas turbines. ASME paper GT2007-27385; 2007.
5. Rieger M., Pardemann R., Rauchfuβ H., Meyer B. Effects of ASU integration on IGCC performance and gas turbine operation. VGB Power Tech 2008, 5:102-107.
6. Lee J.J., Kim Y.S., Cha K.S., Kim T.S., Sohn J.L., Joo Y.J. Influence of system integration options on the performance of an integrated gasification combined cycle power plant. Applied Energy 2009, 86:1788-1796.
7. Kim Y.S., Lee J.J., Cha K.S., Kim T.S., Sohn J.L., Joo Y.J. Performance analysis of a syngas-fed gas turbine considering the operating limitations of its components. Applied Energy 2010, 87:1602-1611.
8. Kim Y.S., Lee J.J., Kim T.S., Sohn J.L. Effects of syngas type on the operation and performance of a gas turbine in integrated gasification combined cycle. Energy Conversion and Management 2011, 5:2262-2271.
9. Li Y.G. Performance-analysis-based gas turbine diagnostics: a review. Proceedings of the IMechE, Part A: Journal of Power and Energy 2002, 216:363-374.
10. Mathioudakis K., Stamatis A., Tsalavoutas A., Aretakis N. Performance analysis of industrial gas turbines for engine condition monitoring. Proceedings of the IMechE, Part A: Journal of Power and Energy 2001, 215:173-184.
11. Diakunchak I.S. Performance deterioration in industrial gas turbines. Journal of Engineering for Gas Turbines and Power 1992, 114:161-168.
12. Microsoft, Visual studio, ver. 8.0; 2005.
13. Sonntag R.E., Van Wylen G.J. Introduction to thermodynamics 1991, John Wiley & Sons, New York, p. 729-730. 3rd ed.
14. Moran M.J., Shapiro H.N. Fundamentals of engineering thermodynamics 2006, John Wiley & Sons, New York, p. 720-723. 5th ed.
15. Saravananmuttoo H.I.H., Rogers G.F.C., Cohen H. Gas turbine theory 2001, Prentice Hall, [chapter 6]. 5th ed.
16. Drummond C, Davison CR. Improved compressor maps using approximate solutions to the Moore Greitzer model. ASME paper GT2009-60148; 2009.
17. Celis C, Paula de M, Pinto R. Barbosa S, Ferreira SB. Modeling of variable inlet guide vanes affects on a one shaft industrial gas turbine used in a combined cycle application. ASME paper GT2008-50076; 2008.
18. Song T.W., Kim J.H., Kim T.S., Ro S.T. Performance prediction of axial flow compressors using stage characteristics and simultaneous calculation of inter-stage parameters. Proceedings of the IMechE, Part A: Journal of Power and Energy 2001, 215:89-98.
19. Kim J.H., Song T.W., Kim T.S., Ro S.T. Model development and simulation of transient behavior of heavy duty gas turbines. Transactions of ASME Journal of Engineering for Gas Turbines and Power 2001, 123(3):589-594.
20. Kim J.H., Song T.W., Kim T.S., Ro S.T. Dynamic simulation of full start-up procedure of heavy duty gas turbines. Transactions of ASME Journal of Engineering for Gas Turbines and Power 2002, 124(3):510-516.
21. Kim TS, Ro ST. Comparative evaluation of the effect of turbine configuration on the performance of heavy-duty gas turbines. ASME paper 95-GT-334; 1995.
22. Muir D.E., Saravanamuttoo H.I.H., Marshall D.J. Health monitoring of variable geometry gas turbine for the Canadian navy. Transactions of ASME Journal of Engineering for Gas Turbines and Power 1989, 111:244-250.
23. Klapproth J.F., Stone A. Effects of stage characteristics and matching on axial-flow-compressor performance. Transactions of ASME Journal of Engineering for Gas Turbines and Power 1958, 80:1273-1293.
24. Turns S.R. An introduction to combustion: concept and applications 2000, McGraw-Hill, New York, p. 9-78. 2nd ed.
25. Young J.B., Wilcock R.C. Modelling the air-cooled gas turbine part 2-coolant flows and losses. Journal of Turbomachinery 2002, 124(2):214-221.
26. Cleeton J.P.E., Kavanagh R.M., Parks G.T. Blade cooling optimization in humid-air and steam-injected gas turbines. Applied Thermal Engineering 2009, 29(16):3274-3283.
27. Kurzke J. Performance modeling methodology: efficiency definitions for cooled single and multistage turbines. ASME paper GT-2002-30497; 2002.
28. Chiesa P., Macchi E. A thermodynamic analysis of different options to break 60% electric efficiency in combined cycle power plants. Transactions of ASME Journal of Engineering for Gas Turbines and Power 2004, 126(4):770-785.
29. Torbidoni L., Horlock J.H. Calculation of the expansion through a cooled gas turbine stage. Journal of Turbomachinery 2006, 128(3):559-563.
30. Young J.B., Horlock J.H. Defining the efficiency of a cooled turbine. Journal of Turbomachinery 2006, 128(4):658-667.
31. Dixon S.L. Fluid mechanics and thermodynamics of turbomachinery 2005, Elsevier Butterworth-Heinemann, London, p. 120-132. 5th ed.
32. Dugan Jr. JF. Compressor and turbine matching. NASA SP-36; 1965 [chapter XVII].
33. Consonni S, Lozza G, Macchi E. Turbomachinery and off-design aspects in steam-injected gas cycles. 23rd intersociety energy conversion engineering conference; 1988. p. 99-108.
34. Kim T.S., Hwang S.H. Part load performance analysis of recuperated gas turbines considering engine configuration and operation strategy. Energy 2006, 31:260-277.
35. Hwang S.S., Yoon S.H., Kim T.S. Design and off design characteristics of the alternative recuperated gas turbine cycle with divided turbine expansion. Transactions of ASME Journal of Engineering for Gas Turbines and Power 2007, 129:428-435.
36. Lee J.J., Yoon J.E., Kim T.S., Sohn J.L. Performance test and component characteristics evaluation of a micro gas turbine. Journal of Mechanical Science and Technology 2007, 21(1):169-180.
37. Lee J.J., Jeon M.S., Kim T.S. The influence of water and steam injection on the performance of a recuperated cycle microturbine for combined heat and power application. Applied Energy 2010, 87(4):1307-1316.
38. Eldrid R, Kaufman L, Marks P. The 7FB: the next evolution of the F gas turbine. General electric report, GER-4194, GE Power Systems, Schenectady, New York, USA; 2001. (). http://site.ge-energy.com/prod_serv/products/tech_docs/en/downloads/ger4194.pdf.
39. Frank JB. GE gas turbine performance characteristics. General electric report GER-3567H, GE Power Systems, Schenectady, New York, USA; 2000. (). http://site.ge-energy.com/prod_serv/products/tech_docs/en/downloads/ger3567h.pdf.
40. Jansen M., Schulenberg T., Waldinger D. Shop test result of the V64.3 gas turbine. Transactions of ASME Journal of Engineering for Gas Turbines and Power 1992, 114:676-681.
41. Kim JH. Analysis on transient behavior of gas turbines for power generation. PhD thesis. Korea: Seoul National University; 2000.
42. Farmer R. Gas turbine world handbook 2009, Pequot Publishing Inc.
43. Available from: http://mysolar.cat.com/cda/files/126873/7/dsm50pg.pdf.
44. Lundberg W.L., Veyo S.E., Moeckel M.D. A high-efficiency solid oxide fuel cell hybrid power system using the Mercury 50 advanced turbine systems gas turbine. Transactions of ASME Journal of Engineering for Gas Turbines and Power 2003, 125:51-58.
45. Joh HL, Hong EK, Lee BJ, Jang CH, Chae DK. Acceptance thermal performance test results for Poryong combined cycle power plant. KEPRI report. TM.C97GS04.G2003.08, Korea Electric Power Research Institute, Daejeon, Korea; 2003.
46. Dan W, Caroline M. Thermal performance of the ABB GT24 combustion turbine, EPRI interim report, TR-113978, Electric Power Research Institute, Palo Alto, California, USA; 1999.
47. Yoon S.H., Jeong D.H., Kim T.S. Analysis of operation conditions of a reheat cycle gas turbine for a combined cycle plant. Journal of Fluid Machinery 2006, 6:35-44. [in Korean].
48. Jeong D.H., Yoon S.H., Lee J.J., Kim T.S. Evaluation of component characteristics of a reheat cycle gas turbine using measured performance data. Journal of Mechanical Science and Technology 2008, 22:350-360.
49. Aspen Technology. Aspen One HYSYS, ver. 2006.5; 2006.