South Korean Petrochemical Company,
Yeosu, South Korea
South Korea’s petrochemical company is located in the town of Yeosu. The plant started from 350,000 tons of ethylene per year production and expanded to 1,000,000 tons per year now. There are twelve naphtha cracking furnaces in this plant. The naphtha used as the feedstock for this plant is fed to a pyrolysis (steam cracking) furnace, where it is combined with steam and heated to 980 to 1,080° C. Within this temperature range, the feedstock molecules "crack" to produce ethylene as well as methane, hydrogen, ethylene, propylene, butadiene, benzene, toluene, xylene, and other co-products. After the pyrolysis reaction is quenched, the rest of the plant separates the desired products into streams that meet the various product specifications. The process steps include distillation, compression, process gas drying, hydrogenation (of acetylenes), and heat transfer.
All of the processes at this ethylene plant are controlled by a Yokogawa CENTUM CS 3000 production control system that was engineered, installed, and commissioned by Yokogawa Korea. To further enhance operations at this plant, Yokogawa Korea introduced the Exapilot operation efficiency improvement package in 2006.
Pyrolysis reaction process
The Challenges and the Solutions
(1) Automation of naphtha cracker decoking
The pyrolysis reaction process in the ethylene plant employs naphtha cracking units (NCU), quench units, compressors, and dryer-equipped separators. The NCUs' operating temperature is carefully controlled to ensure efficient production. During the pyrolysis reaction, coke forms inside the NCU coils, resulting in decreased heat transfer and a decline in reaction efficiency. In the worst case, the coils can crack or rupture. To prevent this from happening, the plant operators need to perform a decoking process. For each of the twelve NCUs in this ethylene plant, this must be done either every 60 days that the furnace is in operation or when the furnace temperature reaches 1,080° C, whichever comes first. An important consideration in this is scheduling as the plant's operators in the central control room have a very demanding workload.
The managers of this plant decided to automate this complex, non-routine process. After taking one year to plan the methodology and the necessary parameters and sequence of procedures, they decided to use Yokogawa's Exapilot solution to optimize the execution of the overall process. Using Exapilot, they created a program in flowchart format that specified all the necessary procedures and parameters. No special programming knowledge was required in this, and the resulting flowchart could also be printed out for use as a standard operating procedure manual.
On the Exapilot program screen, the icon corresponding to the procedure that is currently being implemented is highlighted with a different color, making it easy for operators to monitor the progress of the process. These icons can also be used by field and board operators to confirm DCS data settings and issue instructions to be carried out at specific points in the process. As a result, the NCUs at this plant are now operating more safely and efficiently.
(2) Automation of dryer regeneration
Three dryers are located adjacent to the separation unit: the charge gas dryer, hydrogen dryer, and propylene dryer. To maintain the efficiency of all subsequent processes, each of these dryers needs to be regenerated when it becomes saturated with moisture. This regeneration process is complex, requiring the operation of numerous valves. Exapilot is used to ensure that this essential process is carried out correctly, safely, and efficiently.
The leader of the naphtha cracking department at the Yeosu plant explained that Exapilot is easy to understand and use, allowing them to create flowcharts of standardized procedures based on the expertise of their best operators, and to easily make corrections whenever a procedure needs to be changed. Operators are now able to interactively navigate through the complex processes of decoking and dryer regeneration. Thanks to the near complete automation of these processes, operator workload has been drastically reduced and safety has been enhanced. The personnel here are now striving to improve many other processes at this large petrochemical plant and believe that this and other Yokogawa solutions are helping to make them more globally competitive. They plan to keep working together with Yokogawa Korea to realize this goal.
Summary of customer's benefits
- Reduced operator workload
- Fewer operator errors
- Safer operations
- Reduced steam consumption
- Lower maintenance costs
Chemical plants rely on continuous and batch production processes, each posing different requirements for a control system. A continuous process calls for a robust and stable control system that will not fail and cause the shutdown of a production line, whereas the emphasis with a batch process is on having a control system that allows great flexibility in making adjustments to formulas, procedures, and the like. Both kinds of systems need to be managed in available quality history of product, and to be able to execute non-routine operations. With its extensive product portfolio, experienced systems engineers, and global sales and service network, Yokogawa has a solution for every plant process.
Petrochemical companies’ needs are extremely diverse. To come out ahead in today’s highly competitive marketplace, producers are striving to improve quality and productivity. Yokogawa provides tailor-made solutions for these needs based on its long and wide-ranging experience in this field.
Agile Project Execution bietet neue technische Möglichkeiten und ändert die Art und Weise, in der Projekte ausgeführt und geplant werden können. Dies dient dazu, Risiken zu reduzieren und den Projektplan flexibler zu gestalten.
Unsere Prozessleitsysteme (PLS) ermöglichen die Automation und Regelung von Industrieprozessen und optimieren die Produktion von Unternehmen in der Prozessindustrie. Mehr als 10.000 Anlagen vertrauen zur Erreichung ihrer Produktionsziele auf das PLS von Yokogawa.