Editing Industrial process control (section)

==Control model==
To determine the fundamental model for any process, the inputs and outputs of the system are defined differently than for other chemical processes.<ref name="Bequette">{{cite book|last1=Bequette|first1=B. Wayne|title=Process control: Modeling, Design, and Simulation|date=2003|publisher=Prentice Hall PTR|location=Upper Saddle River, N.J.|isbn=978-0133536409|pages=57–58|edition=Prentice-Hall International series in the physical and chemical engineering science.}}</ref> The balance equations are defined by the control inputs and outputs rather than the material inputs. The control model is a set of equations used to predict the behavior of a system and can help determine what the response to change will be. The state variable (x) is a measurable variable that is a good indicator of the state of the system, such as temperature (energy balance), volume (mass balance) or concentration (component balance). Input variable (u) is a specified variable that commonly include flow rates.

The entering and exiting flows are both considered control inputs. The control input can be classified as a manipulated, disturbance, or unmonitored variable. Parameters (p) are usually a physical limitation and something that is fixed for the system, such as the vessel volume or the viscosity of the material. Output (y) is the metric used to determine the behavior of the system. The control output can be classified as measured, unmeasured, or unmonitored.