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Navigating Electrical Asset Hotspot Monitoring

What is hotspot monitoring?

Hotspot monitoring is a proactive approach that involves the continuous monitoring of electrical asset temperature to spot temperature anomalies. Abnormal temperature rises are detected by monitoring temperature variations in electrical assets like switchgear, transformers, and circuit breakers.

These anomalies in temperature trends could be a result of potential inefficiency or a sign that potential electrical failures are about to occur. Various factors, including insulation degradation, overheated connections, faulty components, loose connections, and overloaded circuits, can all result in electrical asset hotspots.

By spotting these anomalies before they become more serious issues, a maintenance team can implement proactive measures to address problems that require attention before they deteriorate into a full-blown outage, thereby reducing downtime, saving maintenance or repair costs, optimizing asset reliability, and increasing efficiency.

Basic steps of the hotspot monitoring process

Hotspot monitoring is typically carried out through:

  1. Sensor deployment: The continuous monitoring of electrical asset temperature is achieved by sensors with temperature-monitoring capabilities. These thermal sensors are installed inside electrical assets such as switchgear, circuit breakers, and transformers.
  2. Data acquisition: The temperature data from electrical assets is continuously collected from temperature sensors installed within the equipment. This data is collected and transmitted for analysis to a central monitoring system such as a BMS or SCADA.
  3. Data analysis: The analysis of the temperature data collected by the thermal sensors is performed using analytical software. This data can identify irregularities and help alert personnel to possible hotspots, helping organizations maintain a more efficient operation.
  4. Alert generation: Alerts are generated when systems detect temperature trend anomalies or irregularities from the data collected from electrical assets. These alerts are signals from specific electrical connections that a potential issue is possible and can help maintenance crews respond promptly. These alerts allow teams to take appropriate action early to address the risk and find problems in advance of more substantial issues.

Benefits of hotspot monitoring in assets

There are many benefits associated with electrical asset hotspot monitoring, such as:

  • Proactive maintenance: Taking the precise temperature readings of joints and connections in electrical equipment with a thermal camera can be challenging. Temperature measurements can be unreliable when emissivity is low because electrical components are typically formed of bare metal. By continuously measuring the temperature trend of specific points in the equipment, thermal sensors detect anomalies that allow for accurate maintenance measures or replacement.
  • Early fault detection: One of the primary functions of hotspot monitoring is to detect potential issues before they escalate into more serious faults that can lead to unplanned downtime or outages. These issues center on detecting a rise in temperature that signals a compromised electrical connection. This rise in temperature may be a result of various factors, including faulty components, insulation degradation, or overloaded circuits.
  • Energy efficiency: Maintenance personnel are able to identify energy inefficiencies and improve equipment performance by monitoring temperature fluctuations in HVAC, electrical, and industrial machinery systems. Energy consumption and operating costs can be reduced through more effective insights leading to the implementation of energy-saving strategies and by maintenance on overheating components.
  • Enhanced safety: The likelihood of potential hazards such as arc flashes or electrical fires can be identified and minimized before they occur with thermal sensors' alert generation and data analysis. Using sensors also produces human interaction with energized critical assets, which will reduce the risk of accidents or injuries, creating a safer environment.

Advancements in hotspot monitoring technology

As the electrical engineering ecosystem continues to evolve, adopting advancements in equipment management and maintenance is crucial, including developing hotspot monitoring solutions with advanced capabilities.

Such advancements in hotspot monitoring include the following features:

  1. High-precision sensors: Temperature variation in electrical assets can be precisely measured by high-precision thermal sensors that are featured in modern hotspot monitoring systems. This enables electrical personnel to identify shifts in temperature trends that could result in a potential issue.
  2. Remote monitoring capabilities: Remote monitoring is now accommodated in many hotspot monitoring systems, enabling remote access to real-time temperature data from anywhere. Remote accessibility, regardless of physical location, increases proactive decision-making, troubleshooting, and appropriate intervention.
  3. Predictive analytics: Operators are increasingly using sophisticated analytics algorithms and artificial intelligence to evaluate temperature data and forecast potential asset failure from temperature irregularities and hotspot occurrences. By leveraging IoT data analytics, the predictive maintenance model can help detect potential failures before they arise by allowing personnel to evaluate data and reveal abnormal patterns. More appropriate preventive maintenance procedures are then carried out as a result of temperature trend analysis, helping maximize asset reliability.
  4. Artificial Intelligence (AI) and Machine Learning (ML): Artificial intelligence is a global game-changer and is revolutionizing every aspect of technological endeavor. AI and ML are beginning to gain a presence in electrical asset maintenance. Hotspot monitoring systems are embedding machine learning technologies to improve predictive analytics functionality. AI in electrical maintenance can help detect intricate patterns in vast quantities of data, optimizing maintenance plans with valuable insights.
  5. Cloud-based solution: Cloud-based technology is now widely used by software platforms to store the data extracted from hotspot monitoring systems. With the scalability, flexibility, and accessibility of cloud-based solutions, engineers can work remotely with h access to data from any device.
  6. Integration with the Internet of Things (IoT): Besides artificial intelligence and machine learning, maintenance processes have been optimized by IoT. IoT hotspot monitors enable a unified platform for asset tracking, maintenance scheduling, and performance monitoring by easily integrating with existing asset management systems. Industrial Internet of Things (IIoT) requires critical assets to have monitoring sensors embedded, enabling seamless connectivity and data exchange between sensors, monitoring systems, and other smart devices. Robust automation, real-time data analysis, and digitalization of electrical assets are enabled by the integration with IoT, playing a vital role in digital connectivity and data exchange with other smart technologies for decision-making.

Hotspots in electrical assets are signs of potential failures that require corrective measures. Reduce the likelihood of an issue escalating into something more severe with continuous thermal monitoring. Hotspot monitoring has, in recent years, seen huge improvements in the way personnel manage and monitor electrical assets. Organizations can function more proactively by leveraging advancements in hotspot monitoring, and addressing potential issues before they escalate using more appropriate maintenance plans. This will increase asset reliability, and optimize the efficiency of operations.

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