PSE subjects

Imagemap
PSE subjectsmodelling of physical chemical systemsplant = hierarchical agglomeration of su ...dynamics = conservationaccumulation = net flow accross boundary ...transportgrad pressure -> convective mass/volume ...grad temp -> heat, radiationgrad chem pot -> mass diffusiontranspositionphase changereactionsenergy conversionstate-variable transformationsthermodynamicsdefinition of intensitiesgeometriesseparation of flow systemssimple stationary flowcomplex flow (static/dynamic)advanced modellingnetworkstime scale assumptionsother model reduction methodsdistributed systems approximationsfinite differencefinite elementcollocationproper orthogoal decompositionfluid flowprocess designplant simulationeconomicsoptimisationHAZOPprocess controlsimulation of dynamic processescontroller -> modification of dynamicsimpose a dynamic behaviourreject parasitic excitations, distrurban ...control structuresopen loopperfect control -> inverse of the plantclosed loophierarchical systems, cascadessimple plants (SISO)first, second order combined with dead t ...fixed structure controlleron-offPID"advanced" controlmodel-based controlmodel predictive controlcombination with optimisationoff-line optimisationreal-time optimisationoptimising controlcombination with identificationadaptive controlself tuningDEDS system controlautomataPetri netsformal language approachesinterval arithmeticsladder logicsPSE (utilities)plant-process fittingstatic: parameter fittingregressiondesign of experimentsdynamic: process identificationparameter identificationoptimisationanalytical methodssurface search methodsnumeric methodsroot searchingintegrationexplicit solversimplicit solversissue : event detectioncomputinga language: Pythondomain specific languages/systemsControl: MatLab/SimulinkPlant design: Aspen / HySysAdvanced plant design: HySys/UniSim/gPro ...on-the-largedata basesreal timeGUI support
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PSE subjects
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modelling of physical chemical systems
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plant = hierarchical agglomeration of subsystems
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dynamics = conservation
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accumulation = net flow accross boundary + transposition
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transport
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grad pressure -> convective mass/volume flow
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grad temp -> heat, radiation
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grad chem pot -> mass diffusion
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transposition
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phase change
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reactions
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energy conversion
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state-variable transformations
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thermodynamics
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definition of intensities
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geometries
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separation of flow systems
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simple stationary flow
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complex flow (static/dynamic)
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advanced modelling
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networks
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time scale assumptions
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other model reduction methods
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distributed systems approximations
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finite difference
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finite element
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collocation
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proper orthogoal decomposition
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fluid flow
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process design
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plant simulation
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economics
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optimisation
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HAZOP
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process control
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simulation of dynamic processes
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controller -> modification of dynamics
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impose a dynamic behaviour
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reject parasitic excitations, distrurbances
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control structures
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open loop
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perfect control -> inverse of the plant
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closed loop
Arrow Link
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hierarchical systems, cascades
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simple plants (SISO)
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first, second order combined with dead time
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fixed structure controller
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on-off
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PID
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"advanced" control
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model-based control
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model predictive control
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combination with optimisation
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off-line optimisation
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real-time optimisation
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optimising control
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combination with identification
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adaptive control
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self tuning
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DEDS system control
Arrow Link
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automata
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Petri nets
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formal language approaches
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interval arithmetics
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ladder logics
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PSE (utilities)
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plant-process fitting
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static: parameter fitting
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regression
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design of experiments
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dynamic: process identification
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parameter identification
Arrow Link
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optimisation
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analytical methods
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surface search methods
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numeric methods
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root searching
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integration
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explicit solvers
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implicit solvers
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issue : event detection
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computing
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a language: Python
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domain specific languages/systems
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Control: MatLab/Simulink
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Plant design: Aspen / HySys
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Advanced plant design: HySys/UniSim/gProms
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on-the-large
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data bases
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real time
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GUI support