ANSYS CO-SIMULATION
Flownex® SE is able to couple to a range of Ansys products which opens a new frontier in co-simulation. This gives users the ability to simulate complete and integrated engineering systems fast and accurately. Some of the product offerings include:
ANSYS FLUENT
ANSYS CFX
ANSYS MECHANICAL
CASE STUDIES
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 used valve throttling to regulate condensate flow, wasting more than 30% of the developed pump head under normal operation.
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 used valve throttling to regulate condensate flow, wasting more than 30% of the developed pump head under normal operation.
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 used valve throttling to regulate condensate flow, wasting more than 30% of the developed pump head under normal operation.
CS-075: Optimising combustions and heat recovery in a thermal oxidiser
Fire protection systems are installed in power stations, petrochemical plants, warehouses, etc. to extinguish or suppress a fire.
This case demonstrates a transient analysis of the boiler head fire safety system of a coal fired power station using Flownex.
CS-074: Transient Analysis of a Boiler Fire Safety System
Fire protection systems are installed in power stations, petrochemical plants, warehouses, etc. to extinguish or suppress a fire.
This case demonstrates a transient analysis of the boiler head fire safety system of a coal fired power station using Flownex.
CS-072: Thermal-fluid Modelling of the Transient Behaviour of a Capacity-Controlled Underground Refrigeration Unit
The modular and mobile Air-Cooling Unit (ACU) was developed to perform spot cooling in remote underground locations for where traditional cooling approaches proved less effective. Flownex was used to study the transient response of the ACU to fluctuating feedwater and air supply.
