What is Thermal Scanning?

Thermal scanning is the use of a special type of scanner (camera-like device) that records the temperature distribution of an object by detecting infrared radiation.  Normally, humans are unable to see into the infrared spectrum and instead have a very narrow field of vision, as shown below.  However, with special equipment, we are able to detect and convert this infrared data into a visual image.

Diagram of infrared spectrum and visible spectrum

What is Infrared Radiation?

Everything with a temperature above absolute 0 (-273.13°C or 0°K) releases infrared radiation. In operating electrical and mechanical equipment, that heat forms a measurable pattern that can be captured through thermal scanning, even when there are no visible signs of a problem.

Using thermography, this data is converted into a thermal image showing how heat is distributed across a surface. Although the image itself is quite simple, interpreting it requires technical knowledge and understanding of operating conditions. Reliable interpretation depends on how those patterns compare under load, within expected operating ranges and in the context of the site and conditions at the time of inspection.

What is a thermal image?

In practical terms, it is a visual snapshot of surface temperatures taken during a thermal scan. Colour variations indicate differences in heat across an asset, helping highlight areas that may be operating outside expected conditions. When reviewed alongside load and site context, a thermal image provides valuable insight into developing faults.

However, accurately measuring temperature is more complex than it first appears. Different materials emit infrared radiation at different rates due to their ‘emissivity’, which directly affects how heat is recorded during thermal scanning. This is one of the reasons thermography must be carried out by trained professionals who understand how surface type, finish and environment influence the readings. Emissivity is a technical topic in its own right and is explored in more detail separately.

What Can Thermal Scanning Detect?

Because thermography focuses on surface temperature differences, it is well-suited to identifying heat-related issues that are not visible during a visual inspection. These conditions are more common than many people expect and are frequently found in electrical equipment, solar installations and areas of energy loss.

In electrical systems, heat is often an unwanted byproduct of increased resistance. As faults develop, issues such as loose connections, load imbalance or component degradation cause resistance to rise, leading to elevated operating temperatures. Depending on the component and load, temperatures can exceed 400°C prior to failure, significantly increasing the risk of electrical fire if left unaddressed.

Thermographic results are assessed comparatively, not in isolation. Identified hot spots are reviewed against surrounding surfaces and components, against similar equipment operating under comparable conditions, and, where available, against a previous thermal image of the same asset. This approach helps determine whether a temperature variation reflects normal operation or a developing fault.

Thermographic scans are commonly used on:

  • Electrical switchboards and distribution boards.
  • Transformers and high-voltage equipment.
  • Circuit breakers and cable terminations.
  • Motors, pumps and generators.
  • Bearings and conveyor systems.
  • Solar panels and associated connections.

What Can't Thermal Scanning Detect?

Thermal scanning can only detect the surface energy of an object. It does not see through walls, clothing, glass or other solid materials. While popular media often suggests otherwise, thermal scanners record infrared energy emitted from the surface of an object, not what lies beneath it. For this reason, results must be interpreted with a clear understanding of asset construction, access and operating conditions at the time of inspection.

Types of Thermal Imaging

Mechanical thermography

Mechanical thermography uses high-resolution infrared cameras to assess heat patterns in operating mechanical equipment. Scans are typically carried out while assets are under normal load to identify issues caused by friction, wear or misalignment. It is commonly used on pumps, bearings, generators, motors, conveyor lines and rollers. Learn more about mechanical thermography and how it supports early fault detection and planned maintenance.

Electrical thermography

Electrical thermography involves scanning live electrical systems with calibrated infrared cameras to identify abnormal heat caused by faults or inefficiencies. Inspections are commonly carried out on cables, circuit breakers, switchgear and transformers while equipment is operating under load. Learn more about electrical thermography and how it supports electrical safety, compliance and risk management.

Cold room leak detection

Cold room leak detection uses thermal scanning to identify areas where temperature loss indicates insulation failure or air leakage. Scans commonly reveal issues at insulation panel joints, floor-to-ceiling junctions, corners, door seals and service penetrations such as electrical and plumbing points. Learn more about cold room leak detection and how it supports energy efficiency and temperature control.

Why are Thermal Scans Helpful?

Thermal scans are typically scheduled as part of routine maintenance, rather than triggered by a visible fault. This allows developing issues to be picked up while the equipment is still operating normally. In many cases, abnormal heat can be traced back to loose connections, load imbalance or early component wear, well before failure occurs. Addressing these issues early reduces the likelihood of fire risk, equipment damage or an unplanned shutdown later on.

Thermal scanning also supports wider safety and operational outcomes:

  • Reduces risk of injury by identifying electrical and mechanical hazards before they expose staff or customers to fire or electric shock.
  • Limits shutdown costs by allowing issues to be addressed during planned maintenance.
  • Reduces repair costs by preventing secondary damage caused by prolonged overheating.
  • Supports regulatory compliance through documented, insurer-ready inspection evidence.
  • Highlights energy inefficiencies by revealing heat loss and abnormal operating conditions.

When to Do a Thermal Scan

Thermal scans are typically carried out as part of a regular, insurance-compliant inspection program, particularly where electrical assets present a higher risk profile. Ongoing inspections help demonstrate due diligence and provide documented evidence for insurers and auditors.

The need for thermal scanning, including how often it is performed, depends on how the equipment is used and the environment it operates in. These requirements vary across sectors, which is why many organisations align inspections with thermal scanning for your industry.

Thermal scans are commonly recommended:

  • Before and after major electrical or mechanical system upgrades.
  • On main switches or distribution boards with ageing or outdated equipment.
  • Where assets operate in dusty or corrosive environments.
  • When electrical equipment is installed near combustible materials or exposed to open air.
  • On circuits operating close to their maximum rated capacity.

Who Should Conduct Thermal Scans?

Thermal scans should be carried out by accredited professionals with the qualifications, experience and reporting capability to support insurance and audit requirements. Thermal Scanners specialises in electrical thermography and compliance testing across commercial, industrial and government infrastructure. Our work is led by highly qualified engineers, supported by large-scale project experience, detailed audit-ready reporting and fast turnaround times. 

If you need advice on inspection scope, compliance requirements or scheduling, you can contact us to discuss your site or portfolio.

High-Rise Thermal Imaging: A Preventive Measure in Melbourne’s Skyline

In the heart of Melbourne, the skyline is dominated by towering high-rise buildings. Ensuring the safety and efficiency of these structures is a top priority. At Thermal Scanners, we offer advanced thermal imaging services, including electrical thermography, tailored specifically for high-rise buildings.

The Power of Thermal Imaging

Thermal imaging is a unique technology that captures the heat emitted by objects. Using infrared cameras, thermal imaging translates heat energy into a visual image, known as a thermogram. These images highlight temperature variations, enabling the identification of hotspots that may indicate potential issues.

Electrical Thermography in High-Rise Buildings

In the context of high-rise buildings, electrical thermography is an invaluable tool. It provides a non-invasive method to detect excess heat in electrical systems, often a sign of electrical faults. These faults can lead to costly repairs, unexpected downtime, and even fire hazards.

Melbourne high-rise buildings

Uncovering Thermal Faults in High-Rise Buildings

Thermal faults in high rise buildings can be attributed to several causes:

  1. Overloading: When an electrical system or component is pushed beyond its capacity, it can result in significant heat build-up, leading to potential thermal faults.
  2. Loose Connections: Electrical connections can loosen over time, causing increased resistance and subsequent heat generation.
  3. Corrosion: Corrosion can increase resistance in an electrical system, leading to overheating and potential thermal faults.
  4. Insulation Failure: Insulation is crucial for maintaining appropriate temperature levels within electrical systems. When insulation fails, it can result in excess heat and potential thermal faults.
Thermal fault on a 3 phase circuit breaker.

The Advantage of Thermal Imaging in Melbourne’s High-Rise Buildings

In Melbourne’s high-rise buildings, thermal imaging is a key component of preventive maintenance. It offers a clear, efficient method to detect potential issues before they escalate into major problems. By identifying and addressing thermal faults early, building managers can prevent costly repairs, avoid downtime, and ensure the safety of their buildings.

At Thermal Scanners, we are committed to providing reliable thermal imaging services. Our professional team uses advanced thermal imaging cameras to detect potential thermal faults in your high-rise building’s electrical systems. We provide detailed inspection reports, allowing you to take the necessary steps to address any issues identified.

Don’t let a thermal fault compromise the safety and efficiency of your high-rise building. Discover the benefits of our thermal imaging services today. Call us now for a quote and ensure the longevity of your building.

Maximising Efficiency: Electrical Thermal Inspection

Are you tired of managing costly electrical system failures and unexpected downtime? As a business owner or facility manager, it’s essential to keep your electrical system running smoothly for your success. Regular electrical thermal inspections can help. With advanced thermal scanning technology, Thermal Scanners can identify potential issues before they become major problems, saving you time and money in the long run. In this post, we’ll demonstrate how regular electrical thermal inspections can help you enhance efficiency, improve system performance, and ensure the safety of your staff and customers. Let’s explore how this powerful tool can benefit your business.

 

Understanding the Basics of an Electrical Thermal Inspection

Electrical thermal inspection is a non-invasive method of inspecting electrical equipment and components, which can identify potential faults or failures before they occur. The process involves using infrared cameras to detect temperature variations in electrical systems, which can indicate to us potential issues. Normally humans are unable to see into the infrared spectrum and instead have a very narrow field of vision as shown below.  However, with special equipment we are able to detect and convert this infrared data into a visual image.

Normal field of vision for humans:

Image showing Visible Light spectrum

What are the common problems in electrical systems?

  • Underrated cables / equipment
  • Rust and degradation
  • Unbalanced loads
  • Loose terminations
  • Malfunctioning equipment

Compared to visual inspections or load testing, electrical thermal inspections are more effective at identifying potential problems early on, before they can cause significant damage or downtime. By conducting regular electrical thermal inspections, businesses can improve electrical system performance.

 

The Benefits of Electrical Thermal Inspection for Preventive Maintenance

Electrical thermal inspections are an excellent tool for businesses to perform preventative maintenance on their electrical systems. By using infrared cameras to detect temperature variations in electrical equipment, potential problems can be identified before they cause major damage or downtime. There are many benefits to conducting regular electrical thermal inspections as part of a preventative maintenance program.

Thermal Imager used by Thermal Scanners

Top 5 benefits to conducting electrical thermal inspections

  1. Early detection of potential issues before they become major problems
  2. Improved safety for workers and equipment
  3. Reduced energy consumption and costs
  4. Increased equipment lifespan and reduced maintenance costs
  5. Improved compliance with regulations and standards

By taking advantage of the benefits of electrical thermal inspections, businesses can improve the reliability and efficiency of their electrical systems. Preventative maintenance can reduce costs, extend the lifespan of equipment, and ensure compliance with safety and industry standards. Overall, electrical thermal inspections are an excellent investment in the long-term success of a business.

 

Common Electrical System Issues That Can Be Detected with an Electrical Thermal Inspection

Electrical thermal inspections are a powerful tool for identifying common electrical system issues that can cause major problems if left undetected. Some common electrical system issues that can be detected with an electrical thermal inspection include:

  1. Loose connections – electrical connections that are loose or corroded can cause increased resistance and heat, leading to equipment failure or fire.
  2. Overheating – when electrical components are working too hard, they can generate excess heat, leading to equipment failure and potential fire hazards.
  3. Insulation defects – faulty insulation can cause electrical leakage, leading to overheating and the potential for electrical fires.
  4. Load imbalances – uneven electrical loads can cause equipment to overheat and fail prematurely.
  5. Circuit breaker issues – faulty circuit breakers can cause equipment to operate at the wrong voltage, leading to increased energy consumption and equipment failure.
Loose cable connection on circuit breaker

By detecting these issues early with an electrical thermal inspection, businesses can take corrective action and prevent major damage or downtime.

Electrical Thermal Inspection vs. Traditional Inspection Methods

There are two main options for inspecting electrical systems: electrical thermal inspection and traditional inspection methods. While both can be effective, businesses should consider some key differences between the two when choosing which is best for their needs.

Electrical thermal inspection uses infrared cameras to detect temperature variations in electrical equipment. It’s non-invasive and can detect hidden issues that visual inspection may miss. Traditional inspection methods, on the other hand, are more comprehensive and may include load testing to identify issues not caught by thermal scanning alone.

To help you better understand the differences between these two inspection methods, the following comparison table outlines some key points to consider:

 

CriteriaElectrical Thermal InspectionTraditional Inspection Methods
Methodology   Uses infrared cameras to detect temperature

variations in electrical equipment

Typically involves visual inspection and/or load testing
Invasiveness    Non-invasiveCan be invasive depending on the type of testing performed
Hidden Issues     Can identify hidden issues that may not be apparent     

through visual inspection

May not identify hidden issues that can be detected through

thermal scanning

SpeedCan be performed quickly and efficientlyMay take longer to complete depending on the scope of testing
CostCan be more cost-effective than traditional

inspection methods

May be more expensive depending on the type and scope of testing

 

Is an Electrical Thermal Inspection right for your business?

Deciding whether to choose electrical thermal inspection or traditional inspection methods depends on your business’s specific needs. If you want a non-invasive, cost-effective way to detect hidden issues in your electrical system, electrical thermal inspection may be the right option for you. However, if you require a more comprehensive inspection that includes load testing and other types of assessments, traditional inspection methods may be a better fit.

Electrical thermal inspections are beneficial for businesses across different industries. Thermal Scanners can identify potential issues early on, reducing the risk of equipment failure, downtime, and safety hazards. Additionally, regular electrical thermography maintenance can help extend the life of electrical equipment and lower overall maintenance costs. As technology advances, we can expect more developments in the electrical thermal inspection industry. By investing in regular electrical thermal inspections, businesses can enhance their performance, safety, reduce maintenance expenses, and avoid legal and regulatory issues.

Schedule a free quote with us today to learn more.

Case Study: Melbourne Electrical Fault

Thermal Scanners were contacted to perform Thermal Imaging on a tavern located in Melbourne in order for them to maintain their insurance policy.  The Melbourne tavern was constructed within the last 20 years and had a relatively modern electrical system in place with a total of 5 switchboards including:

  • Main Switch Board With 2 sections,
  • 2 x Distribution Boards, and
  • TAB Sub Board

In order to perform the most accurate survey, Thermal Scanners organised to conduct the thermal survey during the busy lunch period for the Melbourne tavern, in which the largest amount of electrical load would be on the site.  It was noted that the site was drawing large electrical load due to the temperatures found on the Main Isolator being 50°C, whereas a low load would cause the Isolator to be closer to ambient temperature.

Main Isolator Under A Heavy Electrical Load

The elevated temperature is not a problem as this is still operating well within the operating temperatures of both the isolator and cable, however it is good to note that the survey will be performed under sufficient load.  When completing a Thermal Imaging Survey, Thermal Scanners also complete a visual check of all the boards, cables and equipment to ensure that they are safe and have no damage such as corrosion, evidence of a fire and that the boards are appropriately secured.  The Melbourne Tavern had no visual faults during the survey, however when carrying out the Thermal Survey a hot spot was located on the Neutral Bar.

Hot Screw Connection On Neutral Bar

This fault found on the Melbourne Taverns Neutral Bar is what we would categorise as a level 2 thermal exception requiring investigation in the very near future.  At first it appeared like this fault was most likely due to a loose connection where the connecting cable is loose and creating a high resistance location.  Although when examined closer in the visual spectrum we can see that the screw used is actually of a different material composition.

Neutral Bar, Incorrect Screw Material

These two different materials connecting and passing electrical current through them create a hot resistance connection.  This problem is then a simple rectification for the Melbourne Tavern to have their preffered electrical contractor attend site and replace the neutral bar screw to the correct material composite.

If you want any more information on a Thermal Survey, or the work that we perform then don’t hesitate to reach out through our website.

Thermal Scanning Electrical

Thermal Scanning is the use of a thermal imager to detect heat energy, which can then be converted into a visible image (for more detail see What Is Thermal Scanning).  One of the major applications for thermal imaging is to verify the health of electrical systems, leading to early detection of faults, even before the human eye can see them.  

Why can thermal scanning be used on electrical systems?

Thermal scanning can be utilised on any electrical system as it creates heat energy as a waste byproduct, or sometimes even as the main purpose such as a heater! Both heat and electrical energy are measured in the same way; joules of energy or watts if we account for time.  The amount of energy is directly proportional to the amount of voltage and current being used.

Thus, when we examine a 20 Amp fuse operating at more than 20 Amps of current with a thermal camera, we can see the elevated temperature when compared to other similar components.  In this case the amount of current was verified by attaching a clamp meter and measured at 30 amps; indicating that either the fuse needs to be resized or the load rebalanced to ensure an optimal electrical configuration.

Electrical Thermal Scanning
Electrical Thermal Scanning of an over-loaded Fuse

What benefits are there of getting thermal scanning completed on my electrical infrastructure?

As mentioned, thermal scanning is able to pick up issues before they become apparent to the naked eye.  Some of these benefits include:

  • Minimising the risk of fire and damage due to failure of components,
    • Which ensures peace of mind for you as the owner.
  • Reduce cost of repairs by only replacing faulty components,
    • When the location of a fault is known the component can be replaced or repaired quickly without having to replace multiple items!
  • Scheduling in shutdowns so they can be completed with other works,
    • As we find faults early, this allows problems to be fixed with other routine maintenance.
  • Preventing unexpected loss of power,
    • When components fail they can either do so by catching fire, exploding or just failing.  Some of these are worse than others, but all will result in the loss of power potentially costing millions of dollars in down time.
  • Identify overloaded circuits or under rated cables, and
    • When cables and fuses aren’t rated properly the chances of failure increase, however thermal scanning can detect these problems quickly and efficiently.
  • Ensuring longevity of components through balanced loads.
    • Unbalanced loads are one of the more common problems in electrical,  where the phases haven’t been balanced causing excessive heat generation through specific components.

Thermal imaging can detect a range of different problems with electrical infrastructure which can range from the obvious overheating components to something as simple as loose and poorly terminated connections.  Some of the major ones we encounter on a daily base include:

  • Loose terminations,
  • Underrated cables,
  • Rust and degradation,
  • Unbalanced loads, and
  • Malfunctioning equipment.

To help put into perspective how bad some of these faults can be even before failure, we have provided an image of one of the worst thermal faults we have ever found with a peak temperature above 500°C!

Even in the above photo (without feeling the heat), it would be extremely difficult to detect this fault without the use of thermal imaging, even though this component is about to fail and potentially catch fire!