1 AIT Asian Institute of Technology

Use of automation technology to upgrade some processes of COSEVCO factory in Danang, Vietnam

AuthorNguyen Quoc Dinh
Call NumberAIT Thesis no. ISE-01-41
Subject(s)Process control--Computer programs

NoteA thesis submitted in partial fulfillment of the requirements for the degree of Master of Engineering, School of Advanced Technologies
PublisherAsian Institute of Technology
Series StatementThesis ; no. ISE-01-41
AbstractNowadays, the most advanced and modern automation technologies with a lot of remarkable advantages have been applied very popularly to many various fields in industry in order to improve productivity as well as reduce production expenses. One of these fields is Ceramic tile manufacturing technology. In COSEVCO factory in Danang City, Vietnam, there are a few processes equipped with simple PLC of OMRON. These processes are controlled and monitored locally by local specific computers, hence, it is impossible to monitor globally all performances of the whole factory and to cooperate operation among the different components in the factory. To obtain a high automation level for performance of roller kiln, after studying carefully the ceramic tile manufacturing procedure, identifying process parameter, variables and number of inputs/output of Programmable Logic Control (PLC) program, the design and programming of an automatic control system is essential with the assistance of engineering tool of Process Control System (PCS7) software of SIEMENS. In Continuos Function Chart (CFC) Editor, we used some predefined function blocks that are available in CFC's library. Besides, with programming language Structured Control Language (SCL), we created some user function blocks that simulate the working principle of main devices in roller kiln. After that, by interconnecting among these above blocks, a created control system can exactly control temperature at the various areas in roller kiln according to technical requirements as well as regulate perfectly speed of roller driving motors as desired by using PID control. To optimize some operating sequences of roller kiln, some basic blocks such as valves, fans, combustion chamber and automatic ignition have been selectivity run in Sequential Function Chati (SFC) Editor. Furthermore, by using Window Control Center (WinCC V5.0) software of SIEMENS, we designed some Human Machine Interface (HMI). From the control center window, operator can monitor all basic components of roller kiln on the screen such as fans, valves and their present working status or reset/set the temperatme or speed control in roller kiln. In addition, to get the updated and detailed data with trend and table or alarm messages, there are four sub-windows built in Graphic Designer that operator can access. They are windows of alarm logging configuration, operating sequence of fans, speed control of roller driving motors and temperature control window. Thanks to HMI, operators in the plant can monitor globally the whole process from the graphics-oriented output any time as well as being able to control the system directly from any connected remote computer controller without visiting the real process area. The model of automatic control system developed in this study not only can become an useful reference for roller kiln in the real plant but also can be extended to implement a full-scale automation for the entire Ceramic tile manufacturing line.
Year2001
Corresponding Series Added EntryAsian Institute of Technology. Thesis ; no. ISE-01-41
TypeThesis
SchoolSchool of Advanced Technologies (SAT)
DepartmentDepartment of Industrial Systems Engineering (DISE)
Academic Program/FoSIndustrial Systems Engineering (ISE)
Chairperson(s)Afzulpurkar, Nitin V.
Examination Committee(s)Bohez, Ir. Erik L.J;Ullah, A.M.M Sharif;
Scholarship Donor(s)Ministry Of Education and Training (MOET), Vietnam ;
DegreeThesis (M.Eng.) - Asian Institute of Technology, 2001


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