資源・素材学会 年次大会

Integrating a numerical reservoir and power plant thermodynamic model is a fundamental instrument for a synthetic and operative for the Patuha geothermal field, West Java, Indonesia. This study defines which power plant cycle or combination of power plant cycles gives the best production sustainability for a specific generating capacity. Numerical reservoir modelling was used to simulate the effect of Dry-Steam Cycle Unit (DSCU), and Integrated Geothermal Combined-Cycle Unit (IGCCU) was selected for field development strategy options. TOUGH2 was used to simulate the effects of these technologies on reservoir production sustainability. The selection of power plant technology and field production strategy clearly affects the performance of the reservoir. The simulation results clarify that the IGCCU is less sustainable if hot fluid is produced only from the steam zone. However, the energy extraction from the brine zone is proven advantageous to maintain the steam zone pressure. In addition, higher injection rates into the brine zone from the IGCCU power plant can yield higher electrical power.