000			02383nam a2200361 4500
001			OTLid0000614
003			MnU
005			20201105133346.0
006			m o d s
008			180922s2009 mnu o 0 0 eng d
040			_aMnU _beng _cMnU
050		4	_aTA145
050		4	_aQD31.3
100	1		_aWoolf, Peter J. _eauthor
245	0	0	_aChemical Process Dynamics and Controls _cPeter Woolf
264		2	_bOpen Textbook Library
264		1	_bopenmichigan
300			_a1 online resource
490	0		_aOpen textbook library.
505	0		_aPart I Process Control Introduction -- Chapter 1: Overview -- Chapter 2: Modeling Basics -- Chapter 3: Sensors and Actuators -- Chapter 4: Piping and Instrumentation Diagrams -- Chapter 5: Logical Modeling -- Chapter 6: Modeling Case Studies -- Part II Chemical Process Controls -- Chapter 7: Mathematics for Control Systems -- Chapter 8: Optimization -- Chapter 9: PID Control -- Chapter 10: Dynamical Systems Analysis -- Chapter 11: Control Architectures -- Chapter 12: MIMO Control -- Part III Statistical Analysis for Chemical Process Control -- Chapter 13: Statistics and Probability Background -- Chapter 14: Design of Experiments
520	0		_aProcess controls is a mixture between the statistics and engineering discipline that deals with the mechanism, architectures, and algorithms for controlling a process. Some examples of controlled processes are: •Controlling the temperature of a water stream by controlling the amount of steam added to the shell of a heat exchanger. •Operating a jacketed reactor isothermally by controlling the mixture of cold water and steam that flows through the jacket of a jacketed reactor. •Maintaining a set ratio of reactants to be added to a reactor by controlling their flow rates. •Controlling the height of fluid in a tank to ensure that it does not overflow.
542	1		_fAttribution
546			_aIn English.
588	0		_aDescription based on online resource
650		0	_aEngineering _vTextbooks
650		0	_aChemistry _vTextbooks
710	2		_aOpen Textbook Library _edistributor
856	4	0	_uhttps://open.umn.edu/opentextbooks/textbooks/614 _zAccess online version
999			_c19979 _d19979