Industrial Automation Automation Industrielle Industrielle Automation

Transcription

1 Automation Industrielle Industrielle Automation Enterprise Manufacturing Execution Supervision (SCADA) Group Control Individual Control Field Primary technology 1.4 Automation Hierarchy Jerarquía de la automación Hiérarchie de l'automation Leitsystem-Hierarchie

2 1.4 Contents 1 Introduction 1.1 Automation and its importance 1.2 Examples of automated processes 1.3 Types of plants and controls Open loop and closed loop control Continuous processes Discrete processes Mixed plants 1.4 Automation hierarchy 1.5 Control system architecture Automation hierarchy 1.4-2

3 Automation System Structure Although applications differ widely, there is little difference in the overall architecture of their control systems. Why the automation system of a power plant is not sold also for automating a brewery depends largely on small differences (e.g. explosion-proof devices), availability (24hours operation and hot repair) on regulations (e.g. Food and Drug Administration) and also tradition, customer relationship. The biggest distinction is the amount of application know-how embedded in the control system. Automation hierarchy 1.4-3

4 Large control system hierarchy (1) Planning, Statistics, Finances Production planning, orders, purchase Workflow, order tracking, resources Supervisory SCADA = Supervisory Control And Data Acquisition administration enterprise (manufacturing) execution Group control 1 Unit control Field Sensors & actors A V T 0 Primary technology Automation hierarchy 1.4-4

5 Administration Enterprise Manufacturing Supervision Group (Area) Unit (Cell) Field Large control system hierarchy (2) Finances, human resources, documentation, long-term planning Set production goals, plans enterprise and resources, coordinate different sites, manage orders Manages execution, resources, workflow, quality supervision, production scheduling, maintenance. Supervise the production and site, optimize, execute operations visualize plants, store process data, log operations, history (open loop) Controls a well-defined part of the plant (closed loop, except for intervention of an operator) Coordinate individual subgroups Adjust set-points and parameters Command several units as a whole Control (regulation, monitoring and protection) part of a group (closed loop except for maintenance) Measure: Sampling, scaling, processing, calibration. Control: regulation, set-points and parameters Command: sequencing, protection and interlocking data acquisition (Sensors & Actors*), data transmission. no processing except measurement correction and built-in protection. (*capteurs et moteurs, Messfühler & Stellglieder) Automation hierarchy 1.4-5

6 Field level the field level is in direct interaction with the plant's hardware (Primary technology, Primärtechnik) Automation hierarchy 1.4-6

7 Group level unit controllers the group level coordinates the activities of several unit controls the group control is often hierarchical, can be also be peer-to-peer (from group control to group control = distributed control system) Note: "Distributed Control Systems" (DCS) commonly refers to a hardware and software infrastructure to perform Process Automation Automation hierarchy 1.4-7

8 Local human interface at group level sometimes, the group level has its own man-machine interface for local operation control (here: cement packaging) also for maintenance: console / emergency panel Automation hierarchy 1.4-8

9 Supervisory level: Man-machine interface control room (mimic wall) 1970s... formerly, all instruments were directly wired to the control room Automation hierarchy 1.4-9

10 Mosaic interface is still in use with direct wiring Automation hierarchy

11 Supervisory level: SCADA (SCADA = Supervisory Control and Data Acquisition) - displays the current state of the process (visualization) - display the alarms and events (alarm log, logbook) - display the trends (historians) and analyse them - display handbooks, data sheets, inventory, expert system (documentation) - allows communication and data synchronization with other centres Automation hierarchy

12 Today s control rooms beamers replaces the mosaics, there is no more direct wiring to the plant. Automation hierarchy

13 Plant management - store the plant and product data for further processing in a secure way (historian), allowing to track processes and trace products -> Plant Information Management System (PIMS) - make predictions on the future behaviour of the processes and in particular about the maintenance of the equipment, track KPI (key performance indicators) -> Asset Optimisation (AO) Automation hierarchy

14 Engineering workplace The engineering workplace manages the control system, not the plant. The engineer can configure the networks and devices, load the software, assign authorizations, troubleshoot the control system,... Automation hierarchy

15 ANSI/ISA 95 standard classification the ANS/ISA standard 95 defines terminology and good practices Level 4 Business Planning & Logistics Plant Production Scheduling Operational Management, etc. Enterprise Resource Planning Level 3 Manufacturing Operations & Control Dispatching Production, Detailed Product Scheduling, Reliability Assurance,... Manufacturing Execution System Levels 2,1,0 Batch Control Continuous Control Discrete Control Control & Command System Source: ANSI/ISA Automation hierarchy

16 Example: Power plant Automation hierarchy

17 Example of generic control siemens: Siemens WinCC (Generic) Unternehmensleitebene Enterprise level Betriebsleitebene Production level Prozessleitebene Process level Automation hierarchy

18 Response time and hierarchical level Planning Level ERP (Enterprise Resource Planning) Execution Level Supervisory Level Control Level DCS PLC (Programmable Logic Controller) MES (Manufacturing Execution System) SCADA (Supervisory Control and Data Acquisition) (Distributed Control System) ms seconds hours days weeks month years Automation hierarchy

19 Data Quantity & Quality and Hierarchical Level Higher Levels When ascending the control hierarchy, data are reduced: higher level data are created (e.g. summary information) Processing and decisions becomes more complicated (requires using models). Timing requirements are slackened. Historical data are stored SCADA level Presentation of complex data to the human operator, aid to decisions (expert system) and maintenance. Requires a knowledge database in addition to the plant's database Lower Levels Lowest levels (closest to the plant) are most demanding in response time. Quantity of raw data is very large. Processing is trivial (was formerly realized in hardware). These levels are today under computer control, except in emergency situations, for maintenance or commissioning. Automation hierarchy

20 Complexity and Hierarchical level Complexity Reaction Speed ERP months Command level Führungsebene, étage de conduite MES Sys. d'exécution Ausführungssystem Supervision Prozessleitung Conduite de processus Einzelleitung, Group Control Gruppenleitung Conduite de groupe Individual Control Conduite individuelle Field Feld, terrain Site days minutes seconds 0.1s 0.1s Anlage, usine Automation hierarchy

21 Operation and Process Data base Consideration of human intervention breaches this hierarchy. Normally, the operator is only concerned by the supervisory level, but exceptionally, operators (and engineers) want to access data of the lowest levels. The operator sees the plant through a fast data base, refreshed in background. This database is the pivot for logging and simulation. knowledge base man-machine communication operator history logging process data base simulation instructor maintenance engineer actualization process data plant Automation hierarchy

22 The process database is at the centre (example: Wonderware) Automation hierarchy

23 Process Data Base and Historical Data Base The Process Data Base reflects the latest known state of the plant The Historical Data Base registers the events that happened in the plant (and is therefore a subset of the Process Data Base snapshot) Automation hierarchy

24 Assessment Describe the levels of a hierarchical control system What is the relationship between hierarchical level, the response time, data quantity and complexity? What does SCADA stands for? What is a group control used for? What is the role of a Manufacturing Execution System? What are the three functions of the operator interface? What is Enterprise Resource Planning? What is the role of the process database? Automation hierarchy

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