Aim Of Objective:<\/strong><\/p>\nThe course is aimed to- \nDetermine possible control objectives, input variables (manipulated variables and disturbances), model the dynamic behavior of a process, design PID controllers, frequency response and analyze stability of closed loop and open loop systems.<\/p>\n
CH3651 – Process Dynamics and Control Syllabus<\/strong><\/p>\nUnit I:<\/strong><\/p>\nIntroduction to Chemical Process Control, Mathematical description of chemical processes, Formulating Process Models, Laplace Transforms, Properties of Laplace Transforms, Solution of ODE using Laplace Transforms, Standard input forcing functions, State \u2013 Space representation, transform domain models, Impulse response models, inter-relationship between process model forms<\/p>\n
Unit II:<\/strong><\/p>\nOpen-loop systems, first order systems and their transient response for standard input functions, first order systems in series, linearization and its application in process control, second order systems and their dynamics; transportation lag, FOPDT Model, Skogestaad\u2019s rule for FOPDT and SOPDT, LeadLag systems.<\/p>\n
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Unit III:<\/strong><\/p>\nClosed-loop control systems, development of block diagram for feedback control systems, servo and regulatory problems, the transfer function for controllers and final control element, principles of pneumatic and electronic controllers, control valves, transient response of closed-loop control systems and their stability, Root locus diagram.<\/p>\n
Unit IV:<\/strong><\/p>\nIntroduction to frequency response of closed-loop systems, control system design by frequency response techniques, Bode diagram, stability criterion, tuning of controller settings, Nyquist Stability Criterion.<\/p>\n
Unit V:<\/strong><\/p>\nIntroduction to advanced control systems, cascade control, feed-forward control, Controllers for Inverse response Smith predictor controller, control of distillation towers and heat exchangers, introduction to computer control of chemical processes.<\/p>\n
Text Books:<\/strong><\/p>\n\nStephanopoulos, G. (2015). Chemical process control, 3rd Ed New Jersey: Prentice Hall.<\/li>\n Ogunnaike, B. A., & Ray, W. H. (1997). Process dynamics, modeling, and control (Vol. 1 ). New York: Oxford University Press.<\/li>\n Coughanowr, D. R., & Leblanc, S. E. (2017). Introductory concepts. Process Systems Analysis and Control, 3rd Ed, 1 -6.<\/li>\n<\/ol>\nReferences:<\/strong><\/p>\n\nSeborg, D. E., Mellichamp, D. A., Edgar, T. F., & Doyle IV, F. J. (2016). Process dynamics and control. John Wiley & Sons.<\/li>\n Bequette, B. W. (2003). Process control: modeling, design, and simulation. Prentice Hall Professional.<\/li>\n Riggs, J. B., & Karim, M. N. (2007). Chemical and Bioprocess Control: James B. Riggs, M. Nazmul Karim. Prentice Hall.<\/li>\n Luyben, W. L., Tyr\u00e9us, B. D., &Luyben, M. L. (1998). Plantwide process control (Vol. 43). New York: McGraw-Hill.<\/li>\n<\/ol>\nRelated Post:<\/strong><\/p>\n\nCH3601 – Chemical Reaction Engineering – I<\/a><\/li>\n<\/ul>\n","protected":false},"excerpt":{"rendered":"Regulation 2021 Anna University Code – CH3651 deals with the semester – VI Process Dynamics and Control Syllabus of B.Tech Chemical Engineering. Most of the semester syllabus tries to give both practical and theoretical knowledge to the students. To acquire the proper knowledge regarding the studies to prepare for the examination, need a detailed syllabus […]<\/p>\n","protected":false},"author":8,"featured_media":165723,"comment_status":"open","ping_status":"open","sticky":false,"template":"","format":"standard","meta":{"_genesis_hide_title":false,"_genesis_hide_breadcrumbs":false,"_genesis_hide_singular_image":false,"_genesis_hide_footer_widgets":false,"_genesis_custom_body_class":"","_genesis_custom_post_class":"","_genesis_layout":"","footnotes":""},"categories":[115872],"tags":[],"yoast_head":"\n
CH3651 - Process Dynamics and Control Syllabus Regulation 2021 Anna University - A Plus Topper<\/title>\n \n \n \n \n \n \n \n \n \n \n \n \n \n\t \n\t \n \n \n\t \n\t \n\t \n