/  Modern Distributed Control Systems (DCS) - Practical Applications and Troubleshooting
Pay Attention Please ! The course location "Champs Elysees" is subject to availability . We may change the course location if there is no availability and we will let you know about the location changing directly if it changes. The exact course time will be clear before one week prior to course start date.
BMC Training provides on 21 Oct 2018 Modern Distributed Control Systems (DCS) - Practical Applications and Troubleshooting course [Electrical and Power Engineering Training] in Paris,France

Course Description

This course will cover the practical applications of the modern distributed control system (DCS). Whilst all control systems are distributed to a certain extent today and there is a definite merging of the concepts of DCS, Programmable Logic Controller (PLC) and SCADA and despite the rapid growth in the use of PLC’s and SCADA systems, some of the advantages of a DCS can still be said to be:

Integrity: The expected process down-time caused by a conventional DCS is significantly less than with using a SCADA/PLC. One incident in a refinery can cost more than the difference in price between a DCS and SCADA/PLC. Reasons for this would include redundancy, fault tolerance, diagnostic alarming on I/O errors, system design, and others.

Engineering time: A small SCADA/PLC system is easy to design and configure. As the system grows bigger, the effort involved to properly design and configure the system grows exponentially, and also the risks that things can go wrong. To design and implement a single loop PID controller in a SCADA/PLC is easy and quick.

To design and implement the base layer control on a refinery using a SCADA/PLC can be anabsolute nightmare.
Abnormal Situation Management and Intelligent Alarm Management is a very important DCS issue that provides significant advantages over PLC and SCADA systems.

Few DCS’s do justice to the process; in terms of controlling for superior performance – most of them merely do the basics and leave the rest to the operators. Operators tend to operate within their comfort zone; they don’t drive the process “like Schumacher drives his Ferrari”. If more than one adverse condition developed at the same time and the system is too basic to act protectively, the operator would probably not be able to react adequately and risk a major deviation.

Not only is the process control functionality normally underdeveloped but on-line process and control system performance evaluation is rarely seen and alarm management is often badly done. Operators consequently have little feedback on their own performance and exceptional adverse conditions are often not handled as well as they should be. This workshop gives suggestions on dealing with these issues.

The losses in process performance due to the inadequately developed control functionality and the operator’s utilisation of the system are invisible in the conventional plant and process performance evaluationand reporting system; that is why it is so hard to make the case for eliminating these losses. Accounting for the invisible losses due to inferior control is not a simple matter, technically and managerially; so it is rarely attempted. A few suggestions are given in dealing with this.

Why are DCS’s generally so underutilized ? Often because the vendor minimizes the applications software development costs to be sure of winning the job, or because he does not know enough about the process or if it is a green-field situation, enough could not be known at commissioning time but no allowance was made to add the missing functionality during the ramp-up phase. Often the client does not have the technical skills in-house to realize the desired functionality is missing or to adequately specify the desired functionality.

Most of the process control functionality that should be in a DCS can be configured in terms of well tried and virtually standard combinations of function blocks. All DCS’s have a comprehensive library of these but few operations outside the oil refining and petrochemicals industries have sufficient staff with the experience to design the control schemes required for reasonably comprehensive process stabilization (“straight lines on screens”) and constraint compliance (“operating hard up against the limits”). Optimum alarm design philosophies also need to be vigorously applied in many DCS applications.

There is a lot of misinformation about configuring continuous control schemes using the DCS function block library and the use of the IEC 61131-3 “open” programming languages and these will be examined. If the operators work load is reduced by enhanced automatic control, they should be re-trained from “knob twiddlers” to “process optimizers” so that they do not become idle “exception monitors”.

The control room operator (and process control technician) is the main user of the modern system and his requirements and wishes should influence the functional design especially as far as the operator displays, alarming and trending.

This course examines all these issues and gives suggestions in dealing with them and whilst be no means exhaustive provides an excellent starting point for you in working with DCS’s.

Course Objective

This course is designed to provide the participants with an overview of the technologies and applications of Distributed Control System. The course will cover the relationship between programmable logic controller and distributed systems. The HMI (Human Mechanical Interference) will be discussed in terms of its functionality and importance to the operation of the DCS. Interfacing to computers for implementing advanced controls strategies beyond the capacity of the DCS controllers will be covered




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Course Details
  • Code EPE44
  • Start 09:00 AM - Oct 21 2018
  • END    12:30 PM - Oct 25 2018
  • Paris , Champs Elysees
  • +44 2087206971
  • Training@bmc.net

Fees Per Person

6150 GBP + VAT
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