P Performance Improvement of PT. X’s Gas Turbine System using theCompressor Inlet-Air Chilling Method; Thermodynamic AnalysisApproachThe performance of one of the production machines at PT. X has decreased due to thedecline in the performance of the Gas Turbine System (STG) as the engine driving theproduction. The decrease in STG performance is indicated by the turbine exhaust gastemperature reaching the maximum limit (trip temperature) even though fuelconsumption is still below normal operation. The purpose of this research is to improvethe performance of STG. Based on the analysis of the STG performance decreasingindicators, the solution to improve STG performance is focused on increasing the STGworking ratio by reducing the compressor power consumption. The technology chosenin this research is cooling the compressor inlet air with the chilling technique. Thechilling method has the advantage that it is easy to control and able to increase theaverage performance higher than other inlet air cooling methods. The research beginsby analyzing the STG process/operational datas, performing analytical calculations ofthe actual STG performance without and with chilling and comparing them, andcalculating the chiller cooling capacity needed. Analytical calculations of the actualconditions without chilling at temperature and relative humidity of the air were 33oCand 63.48% respectively, giving turbine-power power, 2,279.83kW, STG efficiency27.5% and working ratio 50.6%. The chilling method by reducing the temperature ofthe air into the compressor to 13.4oC at 80% relative humidity gives a turbine-powerpower of 2,463.95kW, an STG efficiency of 28.5% and a working ratio of 54.5%. Theincreases in power output, efficiency and working ratio of STG were about 8.08%, 1%and 3.9% respectively. A chiller with a cooling capacity of 657.15 kW is required toincrease the performance of the STG. These results indicate that from thethermodynamic analysis approach, the chilling method can improve output power,thermal efficiency and work ratio.