Executive Summary
PTT Aromatics and Refining Public
Company Limited, Rayong, Thailand
This project was conducted for PTT Aromatics and Refining Public Company Limited (PTTAR), which was established in September 2007 through the amalgamation of Aromatics (Thailand) Public Company Limited (ATC) and Rayong Refinery Public Company Limited (RRC) and was Thailand's no.1 integrated oil refiner and aromatics producer. In October 2011, PTTAR was amalgamated with PTT Chemical Public Company Limited to form the current PTT Global Chemical Public Company Limited.
PTTAR's AR1 crude oil refinery at the Map Ta Phut industrial estate in Rayong started operation in 1996 and was capable of converting 280,000 barrels per day. By 2006, after 10 years in use, the refinery's original Foxboro IA Series (v4.3) distributed control system (DCS) was beginning to show its age. To decrease downtime and maintenance costs, the decision was made to replace it with a more modern control system.
In this modernization project, PTTAR chose to go with a Yokogawa control system solution and work with Yokogawa Engineering Asia as its main automation contractor (MAC). The main reasons for this decision were:
- Star Petroleum Refining's refinery at the same industrial estate has had good results with a Yokogawa DCS that has been in operation there for 15 years.
- Yokogawa's proven MAC project execution capability
- Yokogawa's excellent local support
- Yokogawa's experience in plant revamps involving migrations from industrial automation systems such as the Foxboro IA Series DCS
- Yokogawa's knowledge of the process technologies that PTTAR had licensed from Shell
Pre-revamp central control room with legacy system
Post-revamp central control room with CENTUM CS 3000
The Challenges and the Solutions
The main process facilities, utilities, oil movement system (OMS), and other facilities at this PTTAR refinery involved a total of about 7,000 IO points. In addition to the DCS, Yokogawa was also responsible for the migration of numerous manufacturing execution system (MES) applications and provision of interfaces for 25 subsystems. To undertake all this work and abide by a tight shutdown schedule that sought to reduce production losses, Yokogawa undertook this project in the following two phases:
Phase 1: OMS replacement by June 2008
Phase 2: Process and utility replacement by February 2011
(1) Replacement of the entire control system
In addition to the DCS system revamp, the migration of advanced process control (APC) packages, OMS, operation training system (OTS), alarm management system, and analyzer system all fell within the scope of this project. Yokogawa was also in charge of modifying the PI database and the subsystem interface to ensure that the new systems all worked together properly. The modifications to the PI database involved a detailed site survey and the collection of information on the existing PI server configuration, which helped in determining the specifications for the generation of the PI database.
The migration to Yokogawa's CENTUM CS 3000 DCS involved the replacement of about 40 PCs as well as Foxboro IA controllers in a total of 39 system cabinets. To reduce costs, it was jointly decided with the customer during the design phase that existing equipment such as the CCTV controllers and the LAN would be reused.
(2) Foxboro IA migration
For this undertaking, Yokogawa Engineering Asia had full access to the expertise and knowhow that Yokogawa has acquired in Foxboro IA system migration projects, covering everything from IO modules to function blocks and the interface with Foxboro IA subsystems.
The following figure provides an overview of the database migration procedure for the Foxboro IA system. As described below, there were two paths for converting from the Foxboro IA database to the CENTUM CS 3000 database.
- Discussion with the customer to identify the typical loops that were to be generated using Yokogawa's yGet engineering tool
- The generation of MS Excel-based tag information from the Foxboro IA database and piping & instrumentation diagrams (P&ID). Integration of the typical loops with the tag information enabled the automatic creation of the CENTUM database.
Foxboro IA database migration procedure
(3) Phased project execution and hybrid cutover (cold cutover & hot cutover)
In Phase 1, the OMS was replaced with a Yokogawa system. As much of the OMS information such as tags and graphics was linked to the refinery's process and utility units, we paid careful attention to disabling this information in the Foxboro IA system. We also posted a message on the existing Foxboro IA and prompted operators to handle the OMS operations using the Yokogawa OMS.
To ensure that normal plant operations could continue unhindered, Yokogawa employed a hybrid system cutover procedure that involved the installation of a temporary mini-DCS to control certain loops that needed to continue operating during the cutover process.
Yokogawa chose to keep the existing marshalling cabinets in their current position and connect the field signals to the new DCS system boards inside. When this was complete, the old termination boards and system cables were removed from the cabinets.
Customer Satisfaction
Our customer said: "No amount of detailed planning and extensive work should be considered as too much when embarking into an upgrade project of this nature. Instead of treating vendors as "vendors," take them as "partners," like the way we did with Yokogawa and their subcontractors, and build close relationships between the team members. If you do that you will then be better prepared to expect the unexpected and your road to success will be guaranteed."
Working with our customer as a team
Enjoying off-time with our customer
Key Project Achievements
- Replacement of Foxboro IA system functions (7,000 IO)
- Close "One Team" cooperation between PPTAR and Yokogawa Engineering Asia, Yokogawa Software Engineering (WuXi), and Yokogawa Philippines.
- Smooth and safe cutover from Foxboro IA to Yokogawa CENTUM system
- Perfect integration with existing subsystems
- Complete migration of existing APCs to Yokogawa's Exasmoc and Exarqe
- Successful modification of PI server database
- Replacement of existing analyzer system and OTS system with Yokogawa systems
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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Platform for Advanced Control and Estimation (Advanced Process Control)
APC를 위한 Yokogawa의 모든 포괄적인 플랫폼은 다변수 제어, 품질 추정, 복잡한 계산, 사용자 인터페이스 정의를 하나의 애플리케이션에 통합하여 구축 시간을 대폭 단축하고 유지보수를 단순화 할 수 있도록 강력한 성능을 제공합니다.
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Distributed Control System (DCS)
10,000개가 넘는 플랜트의 운영자는 매년 생산 목표를 달성하기 위해 Yokogawa의 DCS 기술과 솔루션을 신뢰합니다.