Offshore Platform Information Management
Making the most of your operational data in a demanding environment
Eugene Spiropoulos, MES Consultant, Yokogawa Marex Ltd
Introduction
Offshore and deep-water production has been a significant factor in the sustained growth of the oil and gas industries over the past decade and this trend is expected to continue beyond 2013. In the period from 2009 to 2015 the industry is expected to have grown in the order of 500 billion USD with key investment areas including, but not limited to, the Gulf of Mexico, South and Central Americas, West Africa and the North Sea in Europe.
This only tells part of the story; in many parts of the world, capital investment in offshore production is winding down due to a desire to increase profitability in changing markets, and for this challenge, technology providers such as Yokogawa, have developed and delivered solutions for fixed and floating offshore platforms, in order to improve the operational safety and profitability of an expanding industry within the increasingly competitive commercial landscape.
Yokogawa Vigilant Plant solutions and services address the unique challenges faced in the offshore industry by better utilizing business and production information as it is derived from operational activities in order to directly improve safety, operational and maintenance procedures, profitability, reducing the overall cost of achieving and maintaining production excellence.
Not easy sailing
As the global commitment to deep-water production increases, so does the environmental and safety risk, leading to operational challenges in remote environments. Extreme temperatures, subsea conditions, site inaccessibility and fragile ecological factors have a significant impact on safety. Similarly the consequences of interrupted production are magnified by location inaccessibility, extreme weather and equipment or manpower bottle-necks.
As the hub of automation and information technology in the production environment, how can platform technology provide solutions for the following?
- Health, Safety and Environment
- Production, and downtime reduction
- Operations support in the field
- Remote condition monitoring & Predictive maintenance
- Manpower utilization
Increasingly, new platforms are designed from the ground up with planned operational procedures incorporating advanced information technology for addressing the issues above; such as detailed alarm or functional safety philosophies, supported by standards based software and change management. However existing platforms without the benefit of incorporating the latest technology in the design phase as part of lessons learned, face the challenge of deriving the best possible performance from their available infrastructure.
Fortunately, the methodologies for data acquisition from legacy systems, and their integration into a cohesive, reliable core for analysis, reporting, and performance and lifecycle optimization have achieved a high level of maturity with the Vigilant Plant. The key benefits of this exist mainly in the way information is utilized to leverage higher safety and business results. High level production information solutions are often applied to long running assets, bridging the gap in performance between Greenfield and Brownfield sites.
Vigilant Plant and the intelligent platform
The Vigilant Plant solutions for offshore platforms are Information Acquisition and Management solutions built around the production control layer; which could include multiple control and functional safety systems by various vendors. Raw data from all automated systems is captured and consolidated to a secure, central repository.
Additionally, human operational activities and standard procedures can be captured and modularized to provide further context to the automated information.
Consolidating both process and alarm and event data across all systems provides an integrated, collaborative data platform. But the real benefits are what the information is used for and how it is used.
In light of the challenges discussed above, objectives of the Intelligent Platform include:
Support for Operations/Maintenance procedure
Control and Procedure can be linked and automated with Modular Procedural Automaton. This breaks control operations into modular sequences that can assembled into complex procedures, which can either provide real time guidance of best practices, or execute direct control on the DCS to minimize error and standardize results.
Communication between personnel, departments and shift teams is quite often a failure point leading to or propagating operational issues. To address this, a platform for managing task activity between operations and maintenance can be adopted but must also provide effective electronic logging, shift handover reporting, and where possible, interface directly to the information layer to automatically acquire reporting data, and interface also to the business and maintenance layer so logs, running hours or performance KPIs can be made available with minimum manual error.
Visualization of information is often overlooked which is compromised when not readily available. Information should be presented in a form that can be readily consumed for the situation at hand therefore a lot of consideration of what, how and who will use the vast amount of data collected is required. This then funnels the critical information for each objective into a relatively fewer but more valuable items.
Functional Safety Management and Reporting
Safety begins at the planning stages, and continues well into de-commissioning of the asset. Responsible asset owners and operators understand that safety considerations need to be interlaced with every factor of operation with preliminary risk analysis before or during the design phase, laying the foundation for functional safety design. But then, during operation, functional safety must be assessed and monitored to validate the risk reduction provided.
Safety Function Monitoring solutions on the intelligent platform incorporate the analyzed risk mitigation required by HAZOP or LOPA studies as a design expectation and compare this to the real plant safety performance during the plant lifecycle or risk analysis phases. By capturing all safety activation related data as it occurs, the intelligent platform not only identifies potential safety issues when things may go wrong but also provides opportunities to reduce unnecessary maintenance when things go right.
Alarm Management
With standards available today such as the ISA 18.2, and supporting technologies built around these standards, a number of tools can be deployed on the intelligent platform, starting with the capabilities of the control systems. However, implementing a well-defined Alarm Philosophy typically goes beyond the control layer. Both EEMUA 191 and ISA 18.2 define the alarm philosophy approach as a number of stages, playing a role in the design and deployment of the control system, and as a process that continues through the operational lifecycle.
For both greenfield and brownfield facilities, the advanced platform should:
- Consolidate alarms and events across all plant systems
- Identify trips and automatically present relevant information for each occurrence
- Provide automatic analysis of alarm behavior according to standards based performance factors
- Provide a means to rationalize and action on this information, using a master database capable of auditing and versioning, approving set-points and priorities based on operating modes
- Provide a means to enforce alarm decisions on the control layer, providing management of change at the operating level and closing the loop for continuous improvement.
Condition Based Monitoring and Predictive Maintenance
The information layer can be applied to condition based monitoring by utilizing two valuable properties: sub-system integration and performance calculation. Data from running equipment such as boilers, pumps, vessels can be converted in real time to present the performance condition of each unit or individual asset.
The performance degradation of these assets over time can also be tracked with extrapolation and used as basis for predictive maintenance. This increases the uptime and profitability of the platform while giving greater visibility to potential breakdowns and faulty or failing equipment.
Production Performance and Downtime Reduction
Raw process information is valuable to control operations, but for performance analysis, a lot of effort can often be wasted in data extraction and conversion before meaningful, actionable information is derived. This may be fraught with error and inconsistent practices unless the information layer is extended to automatically calculate key performance indicators from raw metrics in real time. Analyzing and categorizing the conditions and reasons for downtime events in the plant as they occur provides opportunities for local or remote exploration of production bottle-necks.
A partnership based on performance and reliability
As our customers push further into deep-water and remote production, Yokogawa responds to provide a comprehensive suite of offshore solutions to achieve the intelligent remote platform. Our development and deployment efforts carry the burden of performance and reliability in harsh environments. As new challenges arise, Yokogawa is committed to supporting the industry with the Vigilant Plant.
Contact information
업종
-
업스트림
업스트림(Upstream) 산업에는 유전 또는 해저의 원유 및 천연가스의 채취 및 생산을 위한 유정제어, 증류, 분리 및 제품 완성을 포함한 해상 및 육상 플랜트가 포함됩니다.
석유는 육상으로 옮겨져야 하는 관계로 운송 전에 분리 작업이 필요합니다. 1차 및 2차 분리 단계는 일반적으로 가스 흐름, 물 흐름 및 오일 흐름의 3단계로 분류됩니다. 가스 이동은 파이프라인을 필요로 하며, 이동하기 전에 상류 공정에서 분류 공정을 거치게 됩니다. 액체는 탱크 또는 파이프라인에 넣고 운송을 하므로 정확한 레벨 측정이 가능한 레벨계가 필요합니다.
-
오일 및 가스
Yokogawa는 해상 및 육상 시설에서 파이프라인, 터미널 및 심해 운전에 이르기까지 석유 및 가스 사업의 모든 부분에서 풍부한 경험을 보유하고 있습니다. 우리는 안전을 강화하고 정확하고 신뢰성 있는 운전을 보장하며 플랜트 효율을 높이는 솔루션을 제공합니다.
-
해상플랜트 (FPSO FLNG & FSRU)
해상 탐사 및 생산에는 열악한 조건 아래 최대의 가동 시간이 요구됩니다. 유인 및 무인 시설에서는 신뢰성이 확보된 원격 모니터링 기능을 갖춘 안정적인 통합제어 및 안전시스템 (ICSS)이 필요합니다. Yokogawa는 모든 규모 및 복잡한 자동화 단계의 해양프로젝트를 수행하는 데 있어 최첨단 기술과 광범위한 경험을 보유하고 있습니다.
Related Products & Solutions
-
Plant Resource Manager (PRM)
신뢰성 높고 안정적인 플랜트 운영을 위해 설비를 제대로 관리하고 계신가요? PRM은 플랜트 수명 주기 전반에 걸쳐 유지보수 계획의 품질을 개선하고 유지보수 비용을 최적화하는 데 기여합니다.
-
VigilantPlant
VigilantPlant is Yokogawa's automation concept for safe, reliable, and profitable plant operations.