One of the world’s largest petrochemical manufacturers, our client has a long history of investing in technology and innovations that improve efficiency. In this case, it was seeking a solution to enhance the controls in one of its flagship facilities in the Middle East. The focus was optimizing turbomachinery performance to deliver sustainability and cost savings. CCC set out to equip the manufacturer’s Middle East facility with CCC inside, a solution that reflects the client’s penchant for innovation and desire to enhance environmental and economic value.
The facility’s existing DCS system was obsolete and could not support end user’s operational vision. The process air compressors shared the same discharge header but lacked load-sharing controls to prevent them from working against one another. Often, one would be loaded and the other unloaded — a condition that caused high power consumption and unnecessary recycling. Without a high-quality control system, the plant was left to solve the load-sharing issue by detuning or placing the machines in a “manual” mode. This resulted in overall inefficient process control. The plant was also experiencing frequent surge events stemming from issues with its receiver lines and unstable compressor loading.
Simplistic DCS or PLC process controls often lack the robust algorithms that operators require to truly optimize turbomachinery performance. The turbomachinery algorithms were poorly documented, and the logic was complex to understand and troubleshoot without specialized legacy engineering software. Local support was also limited for the turbomachinery applications. We developed CCC Inside to solve these key challenges.
In this client’s case, we knew that delivering our best-in-class algorithms inside the Honeywell Experion PKS — the company’s flagship DCS — would solve the compressor network and surge issues while enhancing energy, economic and overall performance. It would deliver that value while still allowing our client to maintain a flattened architecture. From project award through commissioning, our turbomachinery controls experts optimized every step — despite the customer’s tight deadline for implementing CCC Inside for Honeywell Experion PKS.
Execution Phase
The project’s demanding timeline required high levels of flexibility from our execution team, particularly when it came to knowledge building around the customer’s legacy DCS and understanding its existing implementation and limitations. The lack of documentation and legacy engineering software required a diagnostic approach to determining detailed sequencing algorithms for these specific machines.
Another challenge was related to instrumentation. As typical with this type of machine, the instrumentation was located in a less-than-ideal position on the piping, which led to less- accurate mapping of the actual operating point position of the compressors.
Commissioning Phase
Our experts were tasked with commissioning six compressors during a brief plant shutdown window. We would also need to navigate the client’s strict communications policy, which prohibited the use of phones or Internet onsite and thus eliminated remote support.
At CCC, we understand the significant role that turbomachinery controls play in plant safety and efficiency. Through CCC Inside for Honeywell Experion PKS, we transitioned the plant to Honeywell’s flagship DCS and implemented a world-class controls system inside it. This solution addressed the load-sharing challenge and protected the plant from potentially damaging surge events, all while maintaining the customer’s preferred flattened architecture. With our solution, the client gained high-quality Antisurge Control algorithms including main control response, Recycle Trip and Safety On, allowing them to maintain the safest and most efficient operation.
The most efficient way to operate a network of compressors is to employ the widest possible operating envelope without recycling. To accomplish this, CCC Inside’s control system ensures that all compressors reach their surge control lines and open their antisurge valves simultaneously, if necessary. The system also uses the Antisurge and Performance algorithms to achieve two key objectives: manipulate the recycle valves so that they protect the compressors from surging and manipulate the compressor suction throttle valve to maintain a common discharge header pressure within the required set point. In doing so, our system prevents the recycle valve from opening unless necessary, protects the facility against surge and curbs energy consumption and related emissions. The CCC Inside control solution allows smooth, bumpless and fully automatic loading and unloading of the individual compressors in the network, while keeping the air header pressure very stable.
During the execution and commissioning phases, our team leveraged world-class turbomachinery controls expertise to deliver a truly optimized solution.
Execution Phase
To meet the project’s tight timeline, our execution team conducted a diagnostic survey of the existing system and discussed its limitations together with a panel of senior turbomachinery advisors, following CCC’s proven execution process. The CCC engineering team executed critical optimization design decisions in cooperation with the end user, including:
CCC and Honeywell DCS teams collaborated closely to integrate the design and deliver the best value for the end user in terms of autonomous operations and optimization. The project leveraged Honeywell LEAP™ methodology and decoupled hardware and software testing and commissioning work to maximize efficiency.
Commissioning Phase
After completing our in-depth execution process, we made numerous optimizations during commissioning to deliver the highest quality solution for our customer. These included:
By equipping their plant with CCC Inside for Honeywell Experion PKS, our customer solved the Loadsharing problem that was causing significant energy loss and safety hazards. After implementing CCC Inside with properly tuned high-quality Antisurge Control, our customer did not experienced a single surge event.
The CCC Inside solution also eliminated the operators’ previous anxiety about system behavior. Because the old system didn't protect from surge and caused uneven load distribution, they had to check the compressor operations frequently and often take manual action to stabilize them.
The user has gained a world-class solution that reduces repair costs, eliminates unnecessary process shutdowns, enhances startup and control availability, and provides improved visibility into the turbomachinery performance. By working with Honeywell and CCC, the user has full support coverage, and help and consultancy at any time. The result is measurable economic and environmental value that continues to position our client as a leader in petrochemical manufacturing innovation.