Oilfield SCADA systems are taking on a higher and more business-critical responsibility as oil and gas producers modify their operations in the digital oilfield.
The systems are no longer simple operations-monitoring tools that create great volumes of data in static displays. In its place, modern oilfield SCADA systems can gather production data from every operation data sources together with IT-level databases contextualize and present that data to workers in real time as significant, actionable information.
Users can monitor operations at whatever level is generally applicable to them, and dive deeper into manufacture or asset data if necessary to look into particular issues.
Modern oilfield SCADA systems can effortlessly integrate with a producer’s existing infrastructure, while also accommodating the rising number of industrial Internet of Things (IIoT) devices and other new technologies being accepted in oil and gas manufacturing.
For instance, current oilfield SCADA systems can integrate new data concentrators that can correspond on several networks and bond to multiple vendors’ technologies. They also can hold up edge-computing devices, which accumulate and analyze data closer to its foundation. And they can hold up new protocols like MQTT, which more oil and gas operators are accepting as means for carrying data across their procedures.
Delivering Results Today
A lot of oil and gas companies by now are harvesting the profits of modern SCADA systems. One such company is an operator with huge onshore operations that span numerous fields.
The corporation lacked real-time visibility interested in its operations and was hindered by several data silos that could consequence in missing or poor-quality data. These data-related tests resulted in staff spending 50 percent of their time manually extracting, influencing and authenticating data to create decisions.
Workers can apply the oilfield SCADA system to view high-level production summaries, recognize issues and drill down into individual issues. The system can also send notifications to workers by means of their mobile devices as necessary, and it supports prognostic analytics to potentially get in advance of downtime issues.
The system can even auto-discover new resources on the architecture, which could aid the company reduce implementation time for a deliberate expansion that will considerably grow the number of wells in the company’s procedures.
Better Analytics to Drive Decisions
A contemporary SCADA system is just one of many technologies that aid brings the digital oilfield to life. But it has one of the most significant roles to participate. The modern SCADA simultaneously supports several best-in-class analytics from a diversity of vendors; permitting the correct analytics solutions to be applied to attain key business goals. This can range from predictive analytics for improving uptime to model-based analytics for observing and optimizing production.
A modern SCADA system can distribute all this information live, with regular updates. This can produce a far more vibrant decision-making environment than conventional systems, which can deliver stale information and presents minimal opportunities for digging deeper into data.
Advances in SCADA technologies are assisting progress not only what information workers observe, but as well how and where they observe it. Modern SCADA systems permit workers to view information from a lot of sources and on various devices. They also can significantly lessen the quantity of time employees spend controlling data to create the information they require.
A modern SCADA system automates these procedures. It effortlessly contextualizes, combines, and collects, data from several sources into text or graphical information on flexible consoles. This can save considerable time – and headaches – compared to manual data-management procedures. It also can offer information in a more sensitive and easy-to-understand set-up.
The dashboards in the system can be simply designed and customized for each individual end user, depending on the type of information and viewing format that is necessary. An administrative or operations manager might use dashboards that exhibit production-target information for every site, whilst an operator could have a dashboard that transmits information for one specific site or advantage type.
Dashboards also can be modified for everyone who has remote access to the SCADA system, for instance a support provider or centralized expert.
Modern oilfield SCADA systems, in addition take advantage of responsive design. Dashboards will mechanically adjust to a worker’s screen size and orientation – for example a Smartphone, tablet, or computer screen– to give the visualization that’s accurate for each user.
Greater Ease of Use
SCADA systems include historically been difficult technologies to modify and maintain. Modern systems, though, are scalable and flexible. They can be effortlessly adapted to operators’ needs without interference from vendors or specialized employees, and be effortlessly integrated with new or legacy technologies.
For instance, oil and gas production sites are continuously changing. Companies frequently require modifying or replacing processing equipment or bring in new technologies. These changes can be time consuming, and they need that producers make corresponding changes in their SCADA systems. Failing to continue with these changes can wear away a producer’s data reliability.
Beyond technology transforms, modern oilfield SCADA systems as well benefit maintenance technicians, for instance, who might include a goal of reducing downtime on gas lift compressors. They can basically go into a dashboard, choose the gas compressors from a chosen field, and start viewing reports on their presentation.
The modern systems as well let users create automated workflows. This could consist of generating an alarm for the maintenance team or by design generating a work order in a business system if definite predefined actions happen. Users in addition can make content explanations, like leaving remarks in the system to notify operators concerning a faulting pressure transmitter and providing meticulous instructions if the alarms take place.