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The Power of Flexibility: Turbine Inlet Air Chilling Benefits
Gas turbines are constant volume air intake machines; consequently, air mass flow and resultant power output fall as ambient temperatures rise and air density falls. The purpose of Turbine Inlet Air Chilling (TIAC) is to restore the power output of a combustion turbine at elevated ambient temperatures to its rated capacity or better. As the critical 'operating system' of the TIAC enhancement, the control technology also plays an integral role in maximizing operational flexibility.
Revision Date: 11/6/2015
Tags: 221112 - Fossil Fuel 化石燃料, Rockwell Automation, Stellar Energy, Control System, Chiller, Temperature, Optimization, Air Intake, Automation, Power Engineering
Gas Turbine Air Filter System Optimization
Proper air filtration is critical to the overall performance and reliability of gas turbines. This article discusses various aspects of the air filtration and conditioning process including inlet cooling, filters and water wash cycles.
Revision Date: 2/25/2015
Tags: 221112 - Fossil Fuel 化石燃料, Air Filter, Air Inlet House, Chiller, Optimization, Air Filtration, Power Engineering
ARCTIC Overview by Luke Buntz, Kiewit - Hot Topic Hour March 14, 2013
Luke discussed the ARCTIC (Absorption Refrigeration Cycle Turbine Inlet Conditioning) System.
Revision Date: 3/14/2013
Tags: 221112 - Fossil Fuel 化石燃料, Kiewit Power Engineers, Chiller, Air Intake, Cooling
Inlet Pretreatment for Gas Turbines Webinar - Hot Topic Hour March 14, 2013
Gas turbine performance and maintenance are greatly affected by the cleanliness and physical properties of the incoming air.
Revision Date: 3/14/2013
Tags: 221112 - Fossil Fuel 化石燃料, W. L. Gore, Nederman, TDC Filter, Kiewit Power Engineers, Chiller, HEPA Filter, Air Filter, Cooling, Air Filtration, Air Intake
Air Inlet System: Make it Right!
This article describes the proper filters and cooling equipment for gas turbine air inlet systems.
Revision Date: 11/29/2012
Tags: 221112 - Fossil Fuel 化石燃料, HEPA Filter, Chiller, Evaporative Cooler, Fogging System, Air Inlet House, Air Filter, Air Filtration, Air Intake, Combined Cycle Journal
Chillers using waste heat can reduce gas turbine fuel consumption per MW while boosting output. Barry Kellar, President of Freudenberg Filtration - North America, was the speaker in a recorded McIlvaine InterWEBview on “Sustainability.” Part of this presentation is devoted to the Villedon eee.sy or energy efficiency enhancement system. Fruedenberg not only furnishes the gas turbine inlet filters but also the cooling of the air entering the turbine based on vapor absorption technology. Waste heat from the system is used as the energy source, so capacity increases of up to 22 percent are achieved without parasitic power consumption. Barry was one of the keynote speakers at Filtration 2010 in Philadelphia. Freudenberg was one of the exhibitors along with a number of other companies familiar to the power industry.
Revision Date: 12/17/2010
Tags: 221112 - Fossil Fuel 化石燃料, Freudenberg Filtration Technologies, Air Filter, Chiller, Energy Efficiency, Cooling, Air Intake, Air Filtration
Barry Kellar, President of Freudenberg Filtration - North America, was a key note speaker on “Sustainability” at Filtration 2010 in Philadelphia. Part of this presentation is devoted to the Villedon eee.sy or energy efficiency enhancement system. Fruedenberg not only furnishes the gas turbine inlet filters but also the cooling of the air entering the turbine based on vapor absorption technology. Waste heat from the system is used as the energy source, so capacity increases of up to 22 percent are achieved without parasitic power consumption.
Revision Date: 12/1/2010
Tags: 221112 - Fossil Fuel 化石燃料, INDA, Freudenberg Filtration Technologies, Air Filter, Chiller, Efficiency, Air Filtration, Air Intake, Cooling