Operability analysis of chemical process network based on dissipativity

Author

Setiawan, Ridwan ; Jie Bao

Author_Institution

Sch. of Chem. Sci. & Eng., Univ. of New South Wales, Sydney, NSW, Australia

fYear

2009

Firstpage

847

Lastpage

852

Abstract

Interaction between process units often leads to operability problems. Modern chemical plants consist of a large number of process units with with complex interconnection, such as recycle and bypass streams, as well as heat integration. This paper presents a new approach to plantwide operability analysis from a network perspective. The plantwide process is represented by a network of process units. The interactions between process units are analyzed using the dissipativity theory, explicitly based on the network topology and dynamic features of the distinct subsystems. The proposed is scalable and thus applicable for large complex chemical processes.

Keywords

chemical engineering; chemical industry; control system analysis; control system synthesis; network topology; process control; process design; bypass streams; chemical plants; chemical process network; dissipativity theory; heat integration; network topology; operability analysis; process units; recycle streams; Australia; Chemical analysis; Chemical engineering; Chemical processes; Control design; Control systems; Network topology; Process design; Recycling; Stability analysis;

fLanguage

English

Publisher

ieee

Conference_Titel

Asian Control Conference, 2009. ASCC 2009. 7th

Conference_Location

Hong Kong

Print_ISBN

978-89-956056-2-2

Electronic_ISBN

978-89-956056-9-1

Type

conf

Filename

5276113