Fiber Optic Systems for Asset Protection
HAWK’s Fiber Optic Sensing allows for real time measurements of long assets such as pipelines, conveyers and fences by monitoring changes that occur in a fiber optic cable affixed to the asset. This revolutionary technology has the ability to protect assets, equipment, and perimeters. HAWK’s Fiber Optic System is modular in design and can monitor up to 80km (50mi) in real-time 24/7. This type of intelligent monitoring is critical to operating efficiently and protecting valuable assets.
The Praetorian Fiber Optic Sensing System has the capability to monitor conveyor health, pipeline leak detection, monitor ground disturbances, identify manual and machine excavation, vehicle movement, hot tapping both above and underground, perimeter security monitoring and rail network health. Rather than traditional point instruments, the Fiber Optic Sensing System is distributed alongside the equipment, thereby the entire cable is able to sense disturbances to the application. The intuitive Fiber Optic System can sense sound (acoustics and vibration), acting as a hyper sensitive microphone at every point in the fiber, listening for potential problems. It can also sense temperature, acting as a thermometer to detect heat or thermocouple at every point along the fiber, feeling for potential problems. The Fiber Optic System can also sense strain, detecting tiny changes in stress and strain in the application therefore predicting breakages and failures before they have a chance to occur.
The Fiber Optic Sensing System uses a combination of Rayleigh backscatter and time of flight technology to determine the presence, location, intensity and frequency of vibrations along an optical fiber in real time. The Fiber Optic Sensing System can be operated directly or connected to an existing Control System such as a SCADA. The Fiber Optic System can provide alarm notifications (red, amber, and green) depending on the condition of the components. Reporting and alarms can be sent to smart phones, tablets and computers via SMS and email alerts. The report includes the location of an alarm, the alarm classification, its longitude and latitude, the alarm intensity as well as the time and date.
The Praetorian Conveyor Health Monitoring System (CHMS) is a plant & site wide single solution for detecting when critical parts of the idler are beginning to fail. The early detection warnings allow operators to control down time and avoid catastrophic costly unplanned shutdowns. HAWK's Praetorian Fiber Optic Sensing detects abnormalities in conveyor idler performance that other technologies cannot.
The Praetorian Fiber Optic Sensing System can be installed along a fence or perimeter and can detect, identify and report any movements. This system has limitless applications and can be installed on anything from explosive storage areas to farms and ranches. The fast processing speed and pulse rate allow the Fiber Optic System to detect minute interferences that may otherwise go unnoticed. Some examples of detectable activates include intruder movement along a perimeter, intruders cutting or climbing a fence, vehicle movement along a perimeter and digging, excavating or trenching. The Fiber Optic Sensing system is crucial for keeping valuable assets secure and protected.
The Praetorian Fiber Optic Sensing System can be installed on a buried or unburied pipeline and can immediately detect pipeline leakage, ground disturbances, manual and machine excavation, theft, hot tapping and vehicle movement. The Fiber Optic System continually monitors large spans of pipeline, looking for vibration and temperature changes. Once a detection occurs, the system alerts the operator or security personal to the exact location of disturbance in the pipeline. This type of real-time intelligent monitoring is critical to operating efficiently and protecting valuable assets.
The Praetorian Fiber Optic Sensing System can monitor buried and unburied data cables, wires and power transmission lines. Monitoring for wear, damage or corrosion of the cable is extremely difficult and often power failure or data outage is the first sign of a problem. These cables are typically installed in areas that have multiple uses by various stake holders and in the event of a failure can be logistically difficult and expensive to access for repair. The Praetorian Fiber Optic Sensing System can be installed either near the power cables or embedded within the power cable itself. It can monitor disturbances, identify manual and machine excavation, vehicle movement, ground condition assessment and detects hotspots. HAWK’s Fiber Optic Sensing System requires no additional field infrastructure such as power or communication and does not require maintenance or calibration after commissioning.
Tailings Dams are massive structures used all over for the bulk storage of mineral processing wastes. These earthen structures can measure tens of kilometers in length and width and be hundreds of meters tall. In terms of total volume tailings dams are the largest manmade structures in existence. However, over the last 20 years the rate of tailings dams failing has doubled. Failures of tailings dams are perhaps the worst possible case scenario for any mineral extraction operation. Events causing loss of life in the hundreds or even thousands, Environmental fines reaching billions of dollars and the loss of facility infrastructure and production are a confronting prospect. HAWK has developed a solution to prevent tailings dams failure. HAWK's Praetorian Geological Stress Detection System utilizes fiber optic sensing technology for the real time monitoring of field strain within earthen structures. This revolutionary technology uses fiber optic cables that are then inserted into the structure through drilled boreholes. These cables monitor field strain and deflection caused by dam loading and report both the borehole position and depth where the strain or deflection is occurring within the retaining wall structure. Sensitivities achievable with the Praetorian Geological Stress Detection System means that potential issues with ground shift can be detected and intercepted well in advance of visually symptoms of structural issues.