BH. 1999. 415 p.
Introduction
Fundamental concepts of dynamic simulation
Thermodynamics and the conservation equations
Steady-state incompressible flow
Flow through ideal nozzles
Steady-state compressible flow
Control valve liquid flow
Liquid flow through the installed control valve
Control valve gas flow
Gas flow through the installed control valve
Accumulation of liquids and gases in process vessels
Two-phase systems: boiling, condensing and distillation
Chemical reactions
Turbine nozzles
Steam and gas turbines
Steam and gas turbines: simplified model
Turbo pumps and compressors
Flow networks
Pipeline dynamics
Distributed components: heat exchangers and tubular reactors
Nuclear reactors
Process controllers and control valve dynamics
Linearization
Model validation
Introduction
Fundamental concepts of dynamic simulation
Thermodynamics and the conservation equations
Steady-state incompressible flow
Flow through ideal nozzles
Steady-state compressible flow
Control valve liquid flow
Liquid flow through the installed control valve
Control valve gas flow
Gas flow through the installed control valve
Accumulation of liquids and gases in process vessels
Two-phase systems: boiling, condensing and distillation
Chemical reactions
Turbine nozzles
Steam and gas turbines
Steam and gas turbines: simplified model
Turbo pumps and compressors
Flow networks
Pipeline dynamics
Distributed components: heat exchangers and tubular reactors
Nuclear reactors
Process controllers and control valve dynamics
Linearization
Model validation