FEATURE HAZARDOUS AREAS OPENING NEW POSSIBILITIES WITH SMART INSTRUMENTATION


Developments in smart instrumentation and asset management systems are offering a raft of new opportunities for industrial process operators. Providing real-time access to an expanded array of information, these developments can help to dramatically improve process performance. This article, from ABB, explains the key developments that have taken place and the benefits they can bring in a process environment


S


ince 1983, when smart instrumentation first appeared in process and power plants, ongoing


advances in sensor and microprocessor technology have helped to provide users with a steadily growing store of information. Today’s plant engineers and operators have


access to such functions as power management, maintenance systems, process automation, asset optimisation, and safety systems. Standards such as NAMUR NE107 are steadily improving the Human Machine Interface (HMI), making it easier to commission, configure, and manipulate instrument parameters.


BENEFITS OF SMART INSTRUMENTS With the introduction of intelligent instruments in fieldbus networks, process engineers can now access an increasing array of data that can be used to optimise process performance. Remote configuration and calibration, detailed process variables data and diagnostics are all available at a fraction of traditional costs, without compromising informational value. The development of bus communications has


drastically increased the amount of transmissible information. Also, bidirectional communication of digital information can take place between a field device and a system, and between field devices. To make the most of communication


improvements and to satisfy more advanced needs, big changes are taking place within field devices, especially those with wireless capabilities.


WIRELESS POSSIBILITIES Potentially valuable information acquired by process instruments is often left stranded in the field that could be monitored if a communications pathway back to the host control system were created. Many instruments have a built-in HART communication protocol normally used during


With the arrival of WirelessHART wireless adapters, cost-effective and secure communication to remote condition monitoring applications can now be achieved


instrument commissioning. With the arrival of WirelessHART wireless adapters, cost-effective and secure communication to remote condition monitoring applications can now be achieved. By having a wireless communication pathway,


plant assets can be maximised, and unplanned plant shutdowns reduced, with both helping to reduce costs and maximise productivity. In addition to the measured value, status


and alarm messages provide valuable information about plant conditions as well as the reliability of the measured values.


MULTIVARIABLE TRANSMISSION As bus communication supports multivariable transmission, an instrument can transmit multiple measured variables via a single cable compared to traditional analogue transmission systems which require a cable for each variable. Using a bus communication system enables the


transmission of multiple data such as control signals, limit signals, and valve opening signals. By combining multiple sensor systems,


measurement and control capabilities can be expanded to simultaneously measure variables such as pressure, temperature and flowrate, helping to effectively monitor a wide range of applications. With such information made available, outside forces such as environmental effects can be compensated for and process control becomes quicker and more efficient.


ASSET MANAGEMENT Equipment uptime for continuous production represents an important factor in improving process plant productivity and overall profitability. Smart instruments can play a key role in optimising the maintenance function toward this end. In some applications, maintenance problems can


occur in cases where long impulse lines transfer pressure to remotely mounted pressure transmitters. These lines may plug as often as once a week, which can dramatically affect measurement reliability. Smart pressure transmitters equipped with Plugged Impulse Line Detection (PILD) can quickly alert maintenance departments to measurement problems. In this situation, a diagnostic message can be displayed while sending a digital and/or analogue alarm. The operating conditions of critically important


rotating machinery can also be monitored. Permanently installed sensors make it possible to communicate vibration information continuously. Vibration levels of support machinery can also be measured periodically in the field by plant personnel using portable equipment. Furthermore, a complete picture of operating


10 SPRING 2020 | INDUSTRIAL COMPLIANCE


With the introduction of intelligent instruments in fieldbus networks, process engineers can now remotely access an increasing array of data that can be used to optimise process performance


conditions can be provided by data processing via health management software. The ability to overlay frequencies, and match fault frequencies to peaks, allows trained personnel to efficiently analyse the data. Alarm reports enable decision makers to quickly evaluate a situation and take appropriate action to prevent a breakdown.


NAMUR STANDARDS ABB smart instruments follow the NAMUR NE107 “Traffic Light” principle for identifying fault levels, which can be adapted by the customer, depending on the application. This type of focused asset management supports


maximum productivity while incurring minimum costs. Productivity is maximised by adopting predictive maintenance strategies to assure reliability of essential production assets, and by using field-based diagnostics to identify and avoid potential trouble. Careful planning and execution of plant turnarounds minimises their duration and extends intervals between them. A predictive maintenance program can be


expected to bring a one to three per cent improvement in product throughput, generating enough additional revenue for payback in three to six months.


SUMMARY Despite the numerous benefits of smart instrumentation, there still remains a long way to go before the benefits of field-based intelligence are fully embraced throughout the process industries. However, growing pressure from all the key areas impacting on business today, from tough trading conditions and health and safety issues to energy costs and environmental concerns, are all driving plant operators to look for ways to work smarter. Intelligent instrumentation can help them do that.


ABB www.abb.com/measurement 


Page 1  |  Page 2  |  Page 3  |  Page 4  |  Page 5  |  Page 6  |  Page 7  |  Page 8  |  Page 9  |  Page 10  |  Page 11  |  Page 12  |  Page 13  |  Page 14  |  Page 15  |  Page 16  |  Page 17  |  Page 18  |  Page 19  |  Page 20  |  Page 21  |  Page 22  |  Page 23  |  Page 24  |  Page 25  |  Page 26  |  Page 27  |  Page 28  |  Page 29  |  Page 30  |  Page 31  |  Page 32