CS-031: COMBINED CYCLE POWER PLANT
This case study demonstrates the modeling of a Combined Cycle (CC) power plant of a High Temperature Gas-Cooled Reactor (HTGR). The nuclear reactor is not modeled in detail as the focus of this case study is not on the reactor but on the CC Power Conversion Unit (PCU).
Share This:
Share This:
More Case Studies
You might also be interested in these CASE STUDIES
CS-089: Simulating Tailings Transfer Upgrades
This case study describes how Flownex was used to model axial turbines stage-by-stage using a nozzle-based approach that reproduces turbine behavior accurately even when limited geometric data is
CS-082: Accurate Stage by Stage Axial Turbine Modelling with Minimal Geometry
This case study describes how Flownex was used to model axial turbines stage-by-stage using a nozzle-based approach that reproduces turbine behavior accurately even when limited geometric data is
CS-080:Predicting Combustor Wall Temperatures Using Thermal Fluid Network Modelling
This case study shows how Flownex thermal-fluid network model was used to predict the temperature distribution along the conical bluff body of an academic combustor. The model is
CS-081: Exhaust Gas Recirculation on Gas-Turbine Engine
This case study shows how Flownex was used to evaluate and optimize condensate extraction pump (CEP) flow control at a 4100 MW coal-fired power station. The plant originally
CS-078: Emergency Vent Flare Ice Build-Up Estimation
This case study shows how Flownex was used to evaluate and optimize condensate extraction pump (CEP) flow control at a 4100 MW coal-fired power station. The plant originally
CS-077: Optimization of condensate extraction pump’s flow control
This case study shows how Flownex was used to evaluate and optimize condensate extraction pump (CEP) flow control at a 4100 MW coal-fired power station. The plant originally