The Technical Summary of ATEX and IECEx Solar Panels: Safety, Certification, and Design

When it comes to powering operations in hazardous environments, safety is non-negotiable. Explosive atmospheres—those that contain flammable gases, vapours, or mist—are particularly dangerous, and it is in these conditions that ATEX and IECEx -certified solar panels are designed to thrive. These specialised solar panels are engineered to prevent becoming a source of ignition, offering reliable energy solutions in industries like oil & gas, petrochemicals, mining, and offshore platforms.

In this blog, we’ll explore what ATEX and IECEx -certified solar panels are, why they are so crucial for hazardous environments, and the specific certifications and safety features that make them different from standard photovoltaic panels. If you’re seeking to understand how to integrate solar power in potentially explosive environments, this guide will provide the insights you need.

The ATEX directive, from which European Union member regulations originate, sets strict essential health and safety requirements  for equipment used in such environments. For a solar panel to be ATEX-certified, it must meet these high standards, ensuring it does not ignite potentially explosive atmospheres during operation. As a result, ATEX solar panels are favoured in industries in the EU and the UK where safety is paramount, particularly in areas like offshore oil rigs, refineries, chemical plants, and remote monitoring stations.

The IECEx certification, an internationally recognised standard, ensures that equipment used in explosive environments meets stringent safety requirements on a global scale. For a solar panel to be IECEx-certified, it must adhere to rigorous testing and assessment procedures designed to prevent the ignition of explosive gases, vapours, or dusts. This certification is particularly valuable for industries operating outside the European Union, offering assurance that equipment is safe for use in hazardous areas across various regions. IECEx-certified solar panels are highly sought after in sectors like oil & gas, mining, chemical processing, and remote energy systems, where operational safety in explosive atmospheres is critical.

Why Are Certifications Important?

One of the defining characteristics of ATEX Category 2G solar panels is their certification. Two primary certifications ensure the safety and suitability of solar panels for explosive atmospheres: ATEX and IECEx.

• ATEX Certification: Required for Category 2G Ex Solar Panels sold within the European Union, UK & EAE countries, ATEX certification ensures that the panel meets specific safety regulations to prevent potential ignition. This certification is crucial for products intended for Zone 1 applications, where flammable gases or vapours are present. ATEX compliant Category 3 solar panels are intended for Zone 2 applications.
• IECEx Certification: For international markets, IECEx certification ensures that solar panels meet stringent safety standards for use in explosive atmospheres. EPL (Equipment Protection Level) Gb solar panels are IECEx compliant for Zone 1 applications, where the risk of explosion is frequent due to the presence of flammable gases or vapours. For Zone 2 applications, where the risk is intermittent, EPL Gc solar panels are suitable. This certification is crucial for industries operating globally, ensuring that solar panels can gain national certification and be safely deployed in hazardous environments, aligning with internationally recognised safety standards.

For companies like JCE, which manufactures the SPA series of ATEX and IECEx-certified solar panels, compliance with both certification systems allows their products to be used across industries worldwide, particularly in challenging environments such as offshore oil & gas installations and chemical processing plants.

Key Features of ATEX and IECEx Solar Panels

What makes ATEX and IECEx solar panels distinct from standard solar panels is that they have been tested and comply to different standards. Let’s look at the key aspects that ensure these panels perform safely and efficiently in hazardous environments:

• Encapsulation: The solar cells are typically encapsulated between layers of tempered glass and an EVA (Ethylene Vinyl Acetate) pottant. This provides an additional protective barrier, ensuring that the panel’s electrical components are fully insulated from any external environmental hazards.
• Explosion-Proof Design: To avoid becoming a source of ignition, ATEX and IECEx panels use specialised techniques like Ex e and Ex m.

This means that for items protected by encapsulation (Ex m), there is no contact between hot or sparking parts and the explosive atmosphere.  For items protected by increased safety (Ex e) the design prevents sparks or hot surfaces.

• Ingress Protection (IP Ratings): Most ATEX and IECEx -certified panels have an IP66 rating, which ensures they are highly resistant to dust and water ingress. This level of protection is especially important for industries like oil & gas or offshore platforms, where environmental conditions can be harsh.
• Temperature Ratings: ATEX and IECEx panels are typically rated for high-temperature environments, and their design ensures that their surface temperatures remain below the levels that could cause ignition in explosive atmospheres. These temperature ratings, referred to as Temperature Class, such as T4, T5, or T6, ensure safety even in extreme heat.

Applications of ATEX Solar Panels

The versatility and safety of ATEX and IECEx solar panels make them suitable for a wide range of applications in hazardous environments. Here are some of the most common uses:

• Remote Monitoring Systems: In remote areas, such as pipeline monitoring stations, running conventional power lines is often not feasible. ATEX and IECEx -certified solar panels provide a standalone energy solution for critical systems like gas detection alarms, valve controls, and surveillance cameras.
• Offshore Oil & Gas Platforms: On unmanned offshore installations, reliable power is essential for operating communication systems, navigation aids, and cathodic protection systems. ATEX solar panels eliminate the need for dangerous or costly external power sources, making them the perfect choice for offshore operations.
• Hazardous Industrial Sites: ATEX and IECEx solar panels are widely used in industrial facilities like chemical plants and refineries, where explosive atmospheres are common. These panels help power security systems, alarms, and even lighting in areas where conventional electricity sources may not be available.

For example, JCE’s SPA series of ATEX and IECEx -certified solar panels is widely used in offshore oil & gas installations and hazardous industrial sites. These panels are not only explosion-proof but also designed to withstand extreme environmental conditions, ensuring a reliable power source where conventional solutions would be both dangerous and uneconomical.

How ATEX Solar Panels Differ from Standard Panels

While the core function of ATEX and IECEx solar panels is similar to that of standard photovoltaic panels—capturing sunlight and converting it into energy—there are some key differences that make them suitable for hazardous areas.

• Enhanced Safety Features: Standard panels do not need to be explosion-proof, meaning they lack safety features of ATEX and IECEx -certified panels. For instance, while a typical solar panel might house its electrical connections in standard junction boxes, ATEX panels use explosion-proof junction boxes.
• Materials: The construction of ATEX and IECEx panels often involves non-sparking materials like stainless steel glass and low magnesium titanium content aluminum alloy specifically chosen to reduce the risk of ignition. These materials have been selected to handle the presence of explosive gases without creating a risk of combustion.

In hazardous areas, these additional safety measures are critical, ensuring that solar panels do not inadvertently become a source of danger.

Installation and Maintenance of ATEX and IECEx Solar Panels

ATEX and IECEx solar panels require special installation procedures to ensure compliance with safety standards. Qualified personnel familiar with hazardous area classifications must carry out the installation, and any associated equipment—such as batteries and inverters installed in a Zone 1 hazarous area—must also be Ex-certified to ensure overall system safety.

Once installed, ATEX and IECEx panels typically require low maintenance. Their rugged design means they can endure harsh conditions without the need for frequent upkeep. Regular safety checks and annual inspections are recommended, but their overall resilience makes them a reliable choice for long-term, low-maintenance power generation.

Conclusion

ATEX and IECEx solar panels are a vital part of the renewable energy landscape in hazardous environments. Their specialised design ensure they can safely provide power in areas where explosive atmospheres are intermittent or frequent risk.

Whether you’re looking to power a remote monitoring station, an offshore oil rig, or a hazardous industrial site, ATEX and IECEx -certified solar panels offer a robust, reliable, and safe energy solution. Companies like JCE exemplify this technology with their SPA series panels, which are widely used across industries for their durability, safety, and efficiency.

By understanding the key features and certifications of ATEX and IECEx solar panels, you’ll be better equipped to make informed decisions about integrating solar power into hazardous environments, ensuring safety and efficiency every step of the way.

Ready to take the next step? Contact us for expert advice on finding the right solar panel solution for your hazardous environment, or explore JCE Group’s SPA Series of ATEX and IECEx -Certified Solar Panels to see how we can help power your operations safely and reliably.

For more information on The Technical Summary of ATEX and IECEx Solar Panels: Safety, Certification, and Design talk to JCE Group (UK) Ltd