Executive Summary
Fractionation Research, Inc. (FRI) is a non-profit research consortium supported by over 70 organizations, including many of the world's s largest petroleum, chemical, and engineering companies. The experimental unit is located on the Oklahoma State University campus in Stillwater, Oklahoma.
At the heart of the FRI experimental facility are two commercial-scale low and high pressure distillation columns along with the equipment needed to support their operation. The auxiliary equipment includes low and high pressure kettle reboilers, low and high pressure condensers, as well as a dedicated boiler and cooling water tower. The low pressure column has the capability to operate from a deep vacuum, while the high pressure column can operate at up to 500 psia. Each column has a 4 foot (internal diameter) by 28 foot section, but the low pressure column also has a section that is 8 feet in diameter and 12 feet high. Each column is equipped with a permanent, automated gamma ray scanner that measures liquid holdup density during the experimental runs. Strategically positioned windows on the columns allow technicians to look inside and even take video. The FRI facility also has viewing windows on one of its kettle reboilers, a feature not available anywhere else in the world. In addition, cross connections between the two columns allow the sharing of some auxiliary equipment and the parallel operation of both reboilers and condensers while the low pressure column is operating. From 2007 to 2009, the experimental unit was refurbished and debottlenecked, and has since been demonstrated to be capable of testing the full range of hydraulic capacity of all known column internal contact devices.
At this FRI facility, process control and data capture were handled by a Yokogawa Micro-XL DCS, and this has recently been replaced with a CENTUM CS 3000 system, also from Yokogawa. At the same time, FRI introduced Yokogawa's Exapilot operator support package and Exaquantum historian. FRI conducts many experiments throughout the year, and Exapilot has enabled this facility to achieve faster and safer start-ups and shut-downs, and has also helped improve another key parameter: time to steady state. This has reduced steam consumption. By providing operators real-time process data at the right time, Exaquantum helps them make quick decisions at every stage of a process.
The Challenges and the Solutions
(1) Smooth and safe start-up and shut-down
FRI normally has about 20 different test operations a year. Each test may last about two to three weeks. To minimize steam consumption, FRI needs to start up the unit quickly, smoothly, and safely. And when a test is completed, the operator has to shut down the unit smoothly and safely.
Exapilot is used to build and execute electronic, semi-automatic procedures using a modular procedural automation (MPA) methodology. Yokogawa and FRI engineers programmed Exapilot for start-ups, transitions, and shut-downs. The software is capable of providing control room technicians with all of the following:
- A step-by-step listing
- Prompts regarding next steps
- Warnings regarding next steps
- Initiation of the actual opening and closing of valves or changes at controller set-points, one at a time in sequence or more than one at the same time
- Performance of "watchdog" function for critical events
- A record of completed steps
- Status information on process changes
When the Yokogawa and FRI staff members first started working together, the learning curve was steep. The Yokogawa people needed to learn the two distillation columns, the three binary systems, and the steps associated with the starts, transitions, and stops. Fortunately, up-to-date and accurate PFDs and P&IDs were available, and these proved to be an essential asset. The FRI people needed to learn the software's capabilities and master electronic procedure building.
Several semi-automatic procedures were written. None were completely perfect when initially tested in the control room. It was very easy, however, to run a computer program in parallel with process changes, in offline mode, without handing over complete control to the computer program. FRI's best board operators were in the control room during these trial runs and had a hand in perfecting the program. With this program running under Exapilot, there is now uniformity in how starts, changes, and stops are executed.
CENTUM CS 3000 integrated with Exapilot and Exaquantum
(2) Easy data management
FRI needs to collect a lot of data from a test operation and analyze it as quickly as possible. Before Exaquantum was introduced, operators had to enter figures in a spreadsheet and then wait at least three hours to see the results of the distillation test. With Exaquantum, the process data is updated every second and displayed in a trend display along with a summary. At a glance, operators can verify the test situation and take immediate action. Data visualization is the key, giving operators a complete understanding of what is going on in the process, in real time.
In summary, the integrated use of the CENTUM CS 3000 DCS, Exaquantum, and Exapilot has reduced steam consumption and improved safety at the FRI test facility by facilitating the execution of non-routine operations.
Customer Satisfaction
According to Mike Resetarits, a technical director, "Manpower reduction is not one of the goals of semi-automatic procedures. In too many global control rooms, manpower reductions have already occurred. Additionally, many senior technicians have retired over the last 10 years. Semi-automatic procedures are intended to help, not eliminate, the present generation of technicians." He continues, "These days, in the FRI control room, the FRI technicians seem to enjoy using the semi-automatic procedure software. It collaborates, for them, their recollections, judgments, and decisions regarding next steps. They say, 'It's like having our best board "man" alongside us in the control room all of the time.'"
Unit operators are happy to use Exapilot and Exaquantum
Mike Resetarits, Technical Director
업종
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오일 및 가스관련 다운스트림
석유 및 가스 산업은 최근 몇 년간 어려움이 커지고 있습니다. 여기에는 처리할 원료의 변화하는 특성, 공정 설비 및 장비의 고령화, 에너지 비용의 상승, 정유 공장을 안전하고 효율적으로 운영할 수 있는 숙련 된 플랜트 운영자의 부족, 그리고 시장과 시장의 끊임없이 변화하는 요구 사항이 포함됩니다.
지난 수년간 Yokogawa와는 많은 어려움을 겪고 있는 산업 솔루션을 제공하기 위해 여러 다운스트림 회사와 파트너 관계를 맺어 왔습니다. Yokogawa의 VigilantPlant 솔루션은 플랜트 소유자가 플랜트 내에서 최대한의 수익성과 지속 가능한 안전을 달성하도록 도왔습니다.
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정유
끊임없이 변화하는 시장에서 정유설비는 원유 처리 장치뿐만 아니라 이익센터로도 인식됩니다. 동시에 그러한 시설에서 안전의 필요성에 대한 각별한 인식이 있습니다. 계획, 스케줄링, 관리 및 제어를 포함하는 총 생산 솔루션은 수익성, 효율성 및 환경 보호를 위한 장기 목표를 달성하는 데 필요합니다. Yokogawa는 자동화 분야에서 수년간 축적 된 전문성을 바탕으로 보다 향상된 작업성 및 보다 깨끗한 세상을위한 효율적인 솔루션을 제공합니다.
Related Products & Solutions
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Procedural Automation (Exapilot)
Modular Procedural Automation (MPA)는 공정 플랜트에서 프로시저 지식을 수집, 최적화 및 보존하기 위한 유연한 방법론을 제공하며 신뢰성, 유연성 및 수명주기 비용 요구 사항을 충족합니다.
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Distributed Control System (DCS)
10,000개가 넘는 플랜트의 운영자는 매년 생산 목표를 달성하기 위해 Yokogawa의 DCS 기술과 솔루션을 신뢰합니다.