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LIST OF PUBLICATIONS

  1. Water Injection a Concern? Add a Compressor to Boost GT Output, Combined Cycle Journal, Spring 2004
  2. Lower Fuel Costs Sometimes Beat Higher Output, Power Engineering, February, 2004
  3. New Compressed Air Energy Storage Concept Can Improve the Profitability of Existing Simple Cycle, Combined Cycle, Wind energy and landfill gas Combustion Turbine- based Power plants, Turbo-Expo June 2004 Vienna
  4. Power Augmentation of Heavy Duty and Two-Shaft Small and medium capacity Combustion Turbines with Application of the Humid Air Injection and Dry Air Injection Technologies, Baltimore JPGC March 2004"
  5. New Compressed Air Energy Storage Concept Can Improve the Profitability of Existing Simple Cycle, Combined Cycle, Wind Energy, and Landfill Gas Combustion Turbine-based Power Plants, Baltimore Turbo Expo March 2004
  6. Humid Air Injection Power Augmentation Technology has Arrived, ASME Turbo Expo June 2003
  7. Humid Air Injection Turns to Off-the Shelf Equipment to Enhance Viability for Combustion Turbine Power Augmentation, July 2003 in Power Engineering
  8. Fr 7B Peakers are Prime Prospects for Humid Air Injection Technology, Gas Turbine World, September-October 2003
  9. New Compressed Air Energy Storage Concept Can Improve the Profitability of Existing Simple Cycle, Combined Cycle, Wind Energy and Landfill Gas Combustion Turbine- based Power plants, 2003 EESAT Conference
  10. Power Augmentation of Heavy Duty and Two-Shaft Small and Medium capacity Combustion Turbines with Application of the Humid Air Injection and Dry Air Injection Technologies, PowerGen 2003
  11. Air Injected Power Augmentation Validated by Fr 7FA Peaker Tests, Gas Turbine World April-May 2002
  12. Evaluation of Cascaded Humidified Advanced Turbine (CHAT) Cycles for Natural Gas and Syngas, Galveston DOE Turbine systems Conference, Galveston, Texas, March 25-26, 2002
  13. Cascaded Humidified Advanced Turbine (CHAT) Cycles for Next Generation Turbine Systems, Power Generation Conference/Turbo-Expo 2001
  14. DOE Studying CHAT Plants for New Generation of Gas Turbines, Gas Turbine World, May-June, 2001
  15. Evaluation of Cascaded Humidified Advanced Turbine (CHAT) Cycles, Power Gen Conference 2001
  16. Injection Humidified and Heated Air to Meet Peak Power Demands, ASME Turbo-Expo, May 2000
  17. 12 MW Demo Plant Proposed to Prove out CHAT Technology. Gas Turbine World, 1999.
  18. Hybrid Technology for Distributed Power Generation. Power Gen International ‘99.
  19. 12 MW Cascaded Humidified Advanced Turbine (CHAT) Plant with 45-46% Efficiency is Ready for Demonstration. Power Gen International ‘99.
  20. 12 MW CHAT System Approaching Hardware Stage. Gas Turbine World, 1999.
  21. Humidified Air Injection Raises Peak Turbine Output, Power Engineering. November 1999.
  22. Compressed Air Inflates Gas Turbine Output. Power Engineering, March 1999.
  23. 110 MW McIntosh CAES Plant Over 90% Availability and 95% Reliability. Gas Turbine World, 1998
  24. CHAT Technology: An Alternative Approach to Achieve Advanced Turbine Systems Efficiencies with Present Combustion Turbine Technology. ASME Turbo Expo ‘98, Stockholm, Sweden.
  25. AEC CAES Plant Delivers on Its Promises: Plant Performance and Lessons Learned. Power Gen ’97 Conference, Dallas, TX.
  26. Operating Experience and Lessons Learned At Alabama Electric Cooperative's 110-MW 26-Hour CAES Plant, Power-Gen Conference, Anaheim, CA, 1995.
  27. Transient Analysis of the Cascaded Humidified Advanced Turbine (CHAT), ASME Cogen-Turbo IX, Vienna, Austria, 1995 (ASME 95-CTP-028).
  28. The Cascaded Humidified Advanced Turbine (CHAT), ASME Cogen-Turbo IX, Vienna, Austria, 1995 (ASME 95-CTP-005).
  29. Cascaded Humidified Advanced Turbine. Power Engineering, May 1995.
  30. The Cascaded Humidified Advanced Turbine (CHAT) and Its Integration with Coal Gasification (IGCHAT), Thirteenth EPRI Conference on Coal Gasification and Advanced Cycle Power Plants, San Francisco, CA, 1994.
  31. Combustion Studies of Natural Gas and Syn-Gas with Humid Air , EPRI 1994, TR-103382
  32. Compressed Air Energy Storage Thermal Performance Improvements, Joint ASME/IEEE Power Generation Conference, Kansas City, 1993.
  33. Engineering Studies of the CASH and CASHING Cycles, Twelfth EPRI Conference on Gasification Power Plants, San Francisco, CA, 1993.
  34. Combustion Studies of Natural Gas and Syn-Gas with Humid Air, Twelfth EPRI Conference on Gasification Power Plants, San Francisco, CA, 1993.
  35. Turbomachinery for CASH Cycles, Twelfth EPRI Conference on Gasification Power Plants, San Francisco, CA, 1993.
  36. Engineering and Economic Evaluation of the IGCASH Cycle, Twelfth EPRI Conference on Gasification Power Plants, San Francisco, CA, 1993.
  37. Selection and Investigation of a CAES Site in the Southern U.S., Second International Conference on Compressed Air Energy Storage, San Francisco, CA, 1992.
  38. Technical and Economic Characteristics of Compressed-Air Energy Storage Concepts with Air Humidification, Second International Conference on Compressed Air Energy Storage, San Francisco, CA, 1992.
  39. Cost and Performance of Alternative CAES Configurations and CAES Technology Development, Second International Conference on Compressed Air Energy Storage, San Francisco, CA, 1992.
  40. Selection of Preferred CAES Plant Concept on a Depleted Gas Field for TVA and Considerations for Conceptual Plant Engineering, Second International Conference on Compressed Air Energy Storage, San Francisco, CA, 1992.
  41. Alabama Electric Cooperative's (AEC) Compressed Air Energy Storage (CAES) Plant Technical Accomplishments and Lessons Learned, Second International Conference on Compressed Air Energy Storage, San Francisco, CA, 1992.
  42. AEC 110-MW CAES Plant Shop and Performance Testing, Second International Conference on Compressed Air Energy Storage, San Francisco, CA, 1992.
  43. Performance and Economic Characteristics of Compressed-Air Storage with Air Humidification (CASH) Power Plant with Integrated Gasification and Natural Gas Firing, Fifth International Conference and Exhibition for the Power Generating Industries, Orlando, FL, 1992.
  44. AEC 110 MW CAES Plant: Status of Project, Journal of Engineering for Gas Turbines and Power, October 1992.
  45. Application of Humidification to Integrated Coal Gasification/ Compressed Air Storage Power Plants (IGCASH), 11th Conference on Gasification Power Plants, San Francisco, CA, 1992.
  46. Compressed Air Energy Storage, Survey of Advanced CAES Development, ASME Joint Power Generation Conference, San Diego, CA, 1991.
  47. Use of Circulating Fluidized Bed Combustors in Energy Storage Systems, ASME Joint Power Generation Conference, San Diego, CA, 1991.
  48. Conceptual Engineering of a 300-MW CAES Plant. Part 2; Conceptual Engineering and Cost Evaluation, ASME Joint Power Generation Conference, San Diego, CA, 1991.
  49. Analysis of Integrated Coal Gasification System/Compressed Air Energy Storage Power Plant Concepts, ASME Joint Power Generation Conference, San Diego, CA, 1991.
  50. Application of Air Saturation to Integrated Coal Gasification/CAES Power Plants, ASME Joint Power Generation Conference, San Diego, CA, 1991.
  51. Development of Reheat Combustor-Power Turbine Package, ASME International Gas Turbine and Aero Congress and Exposition, Orlando FL, 1991. (ASME 91-GT-331).
  52. Conceptual Engineering of a 300-MW CAES Plant, Part 1: Cost Effectiveness Analysis, ASME International Gas Turbine and Aeroengine Congress and Exposition, Orlando FL, 1991. (ASME 91-GT-61).
  53. Geological Screening for Compressed Air Energy Storage Plants, American Power Conference, Chicago, IL, 1991.
  54. AEC 110 MW CAES Plant, Status of Project, American Power Conference, Chicago, IL, 1991.
  55. Analysis of Temperature Transients of Underground Storage in a Salt Dome During CAES Plant Operation, Solution Mining Research Institute Fall Meeting, Paris 1990.
  56. Integrated Compressed Air Energy Storage Concepts with Utilization of Coal Gasification, ASME Cogen-Turbo III, Nice, France, 1989.
  57. Site Analysis and Turbomachinery Characteristics for Compressed Air Energy Storage Plants for the Pacific Gas and Electric Company, ASME Cogen-Turbo III, Nice, France, 1989.
  58. CAES Plant Performance and Economics as a Function of Underground Salt Dome Storage Transient Processes, ASME Gas Turbine and Aeroengine Congress and Exposition, Toronto, 1989. (ASME-89-GT-143).
  59. Advanced Compressed Air Energy Storage Concepts with Utilization of the Low Pressure Expander Exhaust Gas Heat for Steam Generation, ASME Gas Turbine and Aeroengine Congress and Exposition, Toronto, 1989. (ASME-89-GT-221).
  60. Reheat 110 MW Gas Turbine with Intercooling for Alabama Electric Cooperative, 1988 ASME Cogen-Turbo, Montreux, Switzerland, 1988.
  61. Compressed Air Energy Storage Plant with Thermal Energy Storage For Utilization and Storage of Compression Heat Used for Generation of Steam, 1987 ASME Cogen-Turbo, Montreux, Switzerland, 1987.
  62. Preliminary Engineering of a Second-Generation Compressed Air Energy Storage Plant. Alternative Energy Conference, Philadelphia, PA, 1987.
  63. Preliminary Engineering for a 50 MW Compressed Air Energy Storage Plant for Alabama Electric Cooperative, Inc., Joint Power Generation Conference, Portland, OR, 1986.
  64. Advanced Compressed Air Energy Storage Plants with Utilization of Thermal Energy Storage Systems, Joint Power Generating Conference, Portland, OR, 1986.
  65. Circulating Fluidized Bed Combustor Utilization with Compressed Air Energy Storage Plants, Joint Power Generation Conference, Portland, OR, 1986.
  66. Advanced Recuperator for Compressed Air Energy Storage Plants, Joint Power Generation Conference, Portland, OR, 1986.
  67. Compressed Air Energy Storage: Plant Integration, Turbomachinery Development, International Gas Turbine Conference, Beijing, China, 1985.
  68. Mini-Compressed Air Energy Storage (CAES) Design, Performance and Economics, American Power Conference, Chicago, IL, 1985.
  69. Garbage Burning Power Plant, Turbine Island Design Specifics, American Power Conference, Chicago, IL, 1984.
  70. Turbomachinery Engineering and Optimization for 25 MW and 50 MW Compressed Air Energy Storage Systems, AIAA/EPRI International Gas Turbine Conference, Amsterdam, Holland, 1984.
  71. Dynamic Characteristics of 25 MW and 50 MW Compressed Air Energy Storage Plants, Conference on Energy Storage, Boston, MA, 1984.
  72. Compressed-Air Energy Storage (CAES): Overview, Performance and Cost Data for 25 MW and 220 MW Plants, Joint Power Generation Conference, Toronto, Canada, 1984.
  73. Heat Rejection System Optimization for Compressed Air Energy Storage Power Plants, International Conference, San Francisco, CA, 1982.
  74. Optimization Design Considerations for Gas Turbine Based Cogeneration Plant with Steam Supply to Desalination Plant, International Gas Turbine Conference, London, England, 1982.
  75. Turbomachinery Cycle Optimization for CAES Applications, International Conference, Seattle, WA, 1981.
  76. Optimization Design Considerations for Cogeneration Plants, Joint Power Conference, St. Louis, MO, 1981.
  77. Optimization of Gas Turbine Cycles with Variable Number of Combustion, Compressor, and Inter-Cooler Stages, Joint Power Conference, St. Louis, MO, 1981.
  78. Optimization of Integrated Cogeneration Power Plants and Desalination Plant Systems for a Range of Power and Water Supply Requirements, International Congress on Desalination and Water Reuse, Bahrain, 1981.
  79. A Novel Approach to the Exploration of Tidal Energy, Proceedings of Northeastern University, Boston, MA, 1981.
  80. Specification Considerations for the Floating Combined Cycle Power Plants, International Conference on the Floating Plants, Paris France, 1980.

 

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