6533b86dfe1ef96bd12c9ecf
RESEARCH PRODUCT
Once t hrough m ultistage fl ash d esalination: gPROMS d ynamic and s teady s tate m odeling
David BogleAndrea CipollinaHala Al-fulaijHisham Ettouneysubject
Engineeringbusiness.industryDifferential equationOcean EngineeringFlashingPollutionDesalinationSystem dynamicsSystem modelVolumetric flow rateAlgebraic equationApplied mathematicsbusinessSimulationWater Science and Technologydescription
This study focuses on modeling the steady state and dynamic behavior of the multistage flash desalination process (MSF) using gPROMS. This modeling tool allows for simultaneous coding of the system dynamics and steady state performance. In addition, it allows the use of the most efficient solvers for a set of non-linear differential and algebraic equations describing the MSF process. The system model and analysis are based on actual plant data that includes 21 flashing stages and a capacity of 378 kg/s (32,000 m3/d). The simulated unit is part of a massive MSF installation in Doha, Kuwait. System's dynamic behavior is simulated by a step change in the input values of the main operating parameters, such as the feed flow rate and the top brine temperature. Finally, the analysis of model predictions for both steady-state operation and system dynamics have been compared to actual plant data, showing a good agreement between predicted and measured trends.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2010-06-01 | Desalination and Water Treatment |