All posts by Johan Bosman

LTV Technologies Hosts Virtual Industry Webinar on Solar PV Safety and Compliance

Online Webinar Hosted from LTV Technologies and Supplies, Heilbron — April 24, 2025 — In a landmark virtual event, LTV Technologies & Supplies brought together top industry minds and safety advocates to explore urgent risks and overlooked regulations surrounding solar photovoltaic (PV) installations. The webinar, titled “Understanding PV Safety and Risks”, aimed to raise awareness and inspire action around fire safety, electrical risk mitigation, and regulatory compliance within the fast-growing solar sector.

The event was streamed live from Heilbron and recordings were made available to key industry invitees who could not attend. Participants joined from across a wide range of disciplines, including:

Emergency Services, Municipal Fire Departments, Engineers, PV System Installers, Battery Suppression Technology Providers, Professional Cleaning Services, Construction, Energy Specialists, and Technical Consultants.

Powerful Presentations from Global and Local Experts

The session featured two keynote presentations:

Alex Keene of PVStop International (UK) introduced the concept of the “DC Danger Zone”, explaining how solar panels continue producing high-voltage direct current (DC) even during damage or fire. Alex demonstrated how PVStop’s innovative spray-on fire-retardant coating is used globally by fire brigades to instantly make solar panels safe—from a safe distance of up to 10 meters.

Willem Beukes, a leading South African Structural and Fire Engineer from WIAM Consulting, outlined the current state of compliance with SANS 10400 regulations, detailing how most fixed PV installations are implemented without professional sign-off, risking fire propagation, structural overload, and dangerous live systems during emergencies.

A Clear Message: Solar Must Be Safe to Be Sustainable

“PV safety cannot be an afterthought. As South Africa moves toward energy independence, we must balance growth with responsibility,” said Johan Bosman, PV Safety Advocate and CEO of LTV Technologies. “This webinar was about educating and empowering every stakeholder—from the engineer to the cleaner to the end user.”

To honor their participation and commitment to safety, attendees received a ‘PV Safety Shield Award’, while the presenters were recognized with a ‘PV Safety Award for Presentation’. Though not officially accredited, these awards reflect LTV’s commitment to recognizing shared learning and community engagement.

Next Steps: PV Safety Conference Announced

In light of the overwhelming response to the webinar, LTV Technologies is proud to announce its next initiative: a PV Safety, Risks & Maintenance Conference to be held in August 2025. The conference will include sponsor exhibitions, practical demonstrations, and panel discussions, with a strong focus on technical accuracy and safety innovation.

🗓️ Venue: To be confirmed — planned for Midrand or Johannesburg
💡 Sponsorship and Exhibition Opportunities Available
🎫 Limited Seating — Details to Follow

Supporting Material

  • Full recording of the webinar is available upon request.
  • Presentation content is included in the recording and will be made available to registered attendees.
  • Certificates: PV Safety Shield Awards for attendance and presenter contributions were issued by LTV Technologies.

About LTV Technologies & Supplies

LTV Technologies is a South African safety innovation company delivering cutting-edge solutions for renewable energy risk management, emergency response technologies, and AI-enhanced safety platforms. As a passionate advocate for safety in the solar energy sector, LTV leads initiatives to bridge the gap between installation growth and regulatory compliance.

Media Contact:

Johan Bosman (PV Safety Advocate)
Managing Director LTV Technologies & Supplies
📧 johan@ltvtech.co.za
🌐 www.ltvtech.co.za
📞 +27 083 469 6127

Relevant Tags:
#SolarSafety #PVRiskManagement #PVCompliance #SANS10400 #PVStop #LTVTech #FireRiskMitigation #EmergencyServices #SouthAfrica #SafetyFirst #EnergyFuture

Key Solar Safety Risks and Considerations
  1. Electrical Hazards:
    • PV arrays produce electricity whenever exposed to sunlight or artificial lighting.
    • DC cables, often rated up to 1500 VDC, can cause lethal electrocution and arc flash hazards.
  2. Fire and Evacuation Hazards:
    • PV systems installed on roofs complicate firefighting due to ongoing electrical production.
    • DC cables routed through escape routes increase the risk during evacuations.
    • Cutting energized DC cables during emergencies increases the risk of severe injury or electrocution.
  3. Accountability and Liability:
    • Ambiguity regarding who holds legal responsibility during PV-related incidents.
    • Potential liability extends to building owners, system installers, maintenance contractors, and even first responders.
    • Negligence cases could arise if proper procedures, training, or PPE are not provided.

PVStop Overview:

PVStop is a polymer-based fire-retardant coating specifically designed for PV (photovoltaic) systems. It rapidly blocks sunlight, eliminating electricity generation from PV panels during emergencies, thus mitigating electrocution risks and enabling safe intervention.

Product Composition & Safety:

  • Composition: Water-based, containing proprietary non-hazardous polymer resins.
  • Safety Profile:
    • Non-hazardous according to Regulation (EU) 2015/830.
    • Low environmental impact; miscible in water.
    • Non-toxic, non-irritating, no special hazards, safe for general handling​.

Advantages in Emergency Situations:

  • Immediate Isolation: Quickly eliminates electrical hazards by physically blocking sunlight from reaching the PV cells.
  • Non-Electrical Solution: Unlike electrical rapid-shutdown devices (“fireman switches”), it doesn’t require complex electrical connections (MC4 connectors), thus eliminating additional points of failure.
  • Improves Firefighter Safety: Allows firefighters to safely approach PV systems without risk of electrical shock.
  • Certified and Compliant: Holds relevant certifications, including the EU-Type Examination Certificate (CE 603059), confirming its suitability for professional firefighting use​.

Legal and Safety Considerations for South Africa:

From a legal perspective, recommending PVStop as part of the safety protocol has several benefits:

Emergency Protocol Simplification: Easily incorporated into standard operating procedures without specialized electrical training, simplifying compliance and training. Safeguard lives, protect property, and reduce legal risks associated with photovoltaic system emergencies.

Legal Clarity: Using PVStop as a standard practice clearly demonstrates proactive risk mitigation, meeting regulatory compliance under OHSA, fire safety laws, and standards.

Insurance and Liability: Reduces legal liability exposure, as its deployment represents a demonstrable effort to mitigate electrical hazards effectively and safely.

Understanding PV Safety and Risks – Webinar

Join us Free for an essential webinar tailored for professionals navigating the complexities of photovoltaic (PV) systems safety and risk management. This event is designed to provide insurance brokers, safety representatives, structural engineers, business owners, and fire chiefs with crucial insights into identifying and addressing the inherent risks associated with PV installations.

Key Highlights:

  • Understanding PV Risks: Uncover common and overlooked risks in PV systems, including fire hazards, electrical safety, and structural integrity.
  • Compliance and Standards: Dive into the latest guidelines and standards for PV safety, including the importance of the EGI Compliance Certificate.
  • Risk Mitigation Strategies: Learn from leading experts about effective strategies to mitigate risks and ensure system safety.
  • Interactive Q&A: Have your specific questions answered by our panel of experts in an engaging Q&A session.

Who Should Attend?

  • Insurance Brokers/Assessors: Understand the nuances of insuring PV systems.
  • Safety Representatives: Gain insights on enforcing safety protocols in PV installations.
  • Structural Engineers: Explore the structural challenges and solutions in PV system installations.
  • Business Owners: Learn the risks and safety requirements to protect your investments.
  • Fire Chiefs and Emergency Responders: Get equipped with knowledge to handle PV-related emergencies effectively.

Registration: Registration is open to all industry stakeholders interested in enhancing their understanding of PV safety and risk management. Sign up today to secure your spot and ensure you are up-to-date with the best practices in PV safety!

Free Registration link
Eskom Compliance Recognizes PV Fire Risks

Eskom Compliance Update Recognizes Fire Risks in Solar Installations

The latest EGI Compliance Certificate (Rev 8) from Eskom marks a significant milestone for fire safety in the renewable energy sector. For years, industry experts, safety professionals, and insurers have raised concerns about fire hazards in solar installations, and now, Eskom’s compliance framework officially addresses these risks.

This update is particularly relevant for all Small-Scale Embedded Generators (SSEG), as compliance will soon become mandatory. By March 2026, all SSEGs must be registered for compliance or face potential penalties.

Eskom Compliance Update Recognizes Fire Risks in Solar Installations

The latest EGI Compliance Certificate (Rev 8) from Eskom marks a significant milestone for fire safety in the renewable energy sector. For years, industry experts, safety professionals, and insurers have raised concerns about fire hazards in solar installations, and now, Eskom’s compliance framework officially addresses these risks.

This update is particularly relevant for all Small-Scale Embedded Generators (SSEG), as compliance will soon become mandatory. By March 2026, all SSEGs must be registered for compliance or face potential penalties.

Understanding the New Fire & Fault Guidelines (Note 11, Page 8)

Eskom’s compliance update includes clear steps to reduce fire and fault risks in embedded generation systems. These include:

  • Electrical faults should never be extinguished with water. Using water on a live electrical system can cause electrocution and worsen the fire.
  • Generators must be isolated from the Eskom network before shutting down inverters and DC sources. This prevents electricity from flowing back into the system during an emergency.
  • Solar panels must be covered with fire-retardant material or an equivalent technique to prevent them from generating power during a fire or fault condition.

Why This Matters

For years, LTV Technologies & Supplies, as the South African distributor of PVStop, has been actively engaging with fire safety experts, insurers, renewable energy associations, installers, and safety representatives to address these risks. PVStop is the only solution designed specifically to stop solar panels from generating power instantly, making it an essential fire safety tool for solar installations.

With Eskom now recognizing fire and fault risks within its compliance framework, this is a step in the right direction. The focus is shifting from just installation compliance to also ensuring fire safety in PV systems, which will benefit homeowners, businesses, firefighters, and insurers.

Next Steps for Solar System Owners

  • Ensure compliance with Eskom’s new safety requirements before the 2026 deadline.
  • Review your fire safety measures for embedded generation systems, especially in solar installations.
  • Consider using PVStop, a globally recognized fire-retardant solution that instantly stops solar panel generation in emergencies.
  • Stay informed by connecting with LTV Technologies & Supplies or visiting the PVStop Informative Website for updates and solutions.

Conclusion

The recognition of fire risks in solar installations within Eskom’s compliance certificate is a significant moment for the industry. LTV Technologies & Supplies and PVStop remain committed to raising awareness, driving safety innovation, and providing solutions to ensure fire risks in solar energy systems are properly managed.

For more information, reach out to LTV Technologies & Supplies or your nearest PVStop reseller.

The Essential Role of Light-Blocking Coatings in Solar Safety: Why No New Bylaws Are Needed

As the solar industry continues to expand, so do the safety risks associated with photovoltaic (PV) systems, particularly in emergency situations such as fires. For first responders, managing fires in buildings with PV installations presents unique challenges due to the continuous production of electricity by solar panels. The introduction of Tier 1 Light Blocking Coating, an internationally accredited and certified solution, offers a game-changing method to ensure safety without the need for new bylaws. In this article, we explore how this coating aligns with existing health and safety regulations and why it is essential for first responders and PV-equipped buildings.

1. Understanding the Risks First Responders Face

Photovoltaic (PV) systems pose several risks during emergency situations, especially fires:

  • Electrical Hazards: PV systems continue to generate direct current (DC) electricity when exposed to light. First responders cannot simply switch off the main supply to isolate the system.
  • Fire Hazards: Damaged solar panels can still generate electricity, creating dangerous conditions for firefighting and rescue operations.
  • Increased Electrocution Risk: As long as light is present, PV panels remain active, creating a DC Danger Zone.

In many cases, firefighters are forced to adopt defensive strategies, leading to increased property damage and prolonged emergency operations.

2. How Tier 1 Light Blocking Coating Solves the Problem

The DC Danger Zone requires a reliable method to stop PV panels from generating electricity at the source. Tier 1 Light Blocking Coating provides an effective and accredited solution:

  • Instant De-Energization: This light-blocking coating deactivates PV panels by blocking sunlight, preventing further electricity generation. It is an internationally certified Tier 1 safety solution that ensures first responders can work safely.
  • No New Bylaws Needed: The use of this coating fits within existing health and safety regulations, including the Occupational Health and Safety Act (OHSA) and fire safety guidelines, eliminating the need for additional laws for its application.

3. How Tier 1 Light Blocking Coating Complies with Current Health and Safety Regulations

3.1. Electrical Safety

Under the Occupational Health and Safety Act (OHSA), employers are responsible for ensuring safe working environments around electrical systems. PV systems pose significant hazards because they continue to generate electricity when exposed to light.

  • Compliance: The Tier 1 Light Blocking Coating neutralizes the electrical danger by blocking light, thereby cutting off electricity generation at the source. This meets existing electrical safety regulations and does not require the creation of new laws.

3.2. Working at Heights

With many PV systems installed on rooftops, the risk of falls and slips for first responders increases, especially in emergency conditions where surfaces may be wet and slippery.

  • Compliance: The Tier 1 Light Blocking Coating can be applied from a safe distance (up to 10 meters), minimizing the need for close interaction with live electrical systems and reducing risks associated with working at heights. This aligns with the Work at Height Regulations, ensuring compliance while protecting first responders.

3.3. Firefighter Safety

Traditional firefighting strategies involving PV systems often result in increased property damage as firefighters must adopt defensive tactics to avoid electrocution.

  • Compliance: The Tier 1 Light Blocking Coating allows firefighters to take a more direct approach to fire suppression by de-energizing the PV system on-site. This improves operational safety and aligns with existing fire safety regulations by minimizing the risk to life and property.

4. Future Considerations: Strengthening Safety with New Bylaws

While the use of Tier 1 Light Blocking Coating is already compliant with current safety regulations, there is an opportunity to further strengthen its adoption through future bylaws. These bylaws could mandate its availability at all sites with PV installations to enhance public safety. Possible provisions could include:

  • Mandatory On-Site Availability: Require all buildings with PV installations to have light-blocking coatings readily available for emergency use.
  • Emergency Response Protocols: Establish protocols that prioritize the use of light-blocking coatings during emergency responses to PV-related incidents.
  • Training for First Responders: Ensure all emergency personnel are trained in the safe and effective application of light-blocking coatings.

Such regulations would not only enhance public safety but also standardize the use of critical safety solutions in the growing renewable energy sector.

5. Why the Tier 1 Light Blocking Coating is a Certified Solution

The Tier 1 Light Blocking Coating is recognized as a Tier 1 solution because it directly addresses the primary danger posed by PV systems: continuous electricity generation. As an internationally accredited and certified product, it offers:

  • Immediate Risk Mitigation: By blocking light and stopping power generation at the source, the coating eliminates the electrocution hazard.
  • Compliance with International Standards: The product meets the highest safety standards globally, making it a trusted solution for use by fire and emergency services worldwide.

6. Conclusion: An Immediate, Compliant, and Essential Safety Solution

The Tier 1 Light Blocking Coating is an essential tool for protecting first responders, property occupants, and the general public during emergencies involving PV systems. It fits seamlessly within existing safety regulations, meaning no new bylaws are needed for its use. However, future legislation could strengthen its implementation and ensure that all buildings with solar installations are equipped with this vital safety solution.

For more information on Tier 1 Light Blocking Coating and how it can improve safety in solar-equipped buildings, please contact us.

A Vital Tool in Combating Rooftop Solar Panel Fires – A Case Study from London

Solar Panel Fire in Lewisham: A Quick and Safe Response with PVStop

On August 2, 2024, a solar panel fire broke out on the roof of a seven-story residential building in Loampit Vale, Lewisham. The London Fire Brigade (LFB) responded promptly with six fire engines and about 40 firefighters arriving at the scene. Among the tools deployed was PVStop, a light-blocking coating that played a crucial role in safely managing the incident. See the article

The Incident

The LFB received the first of 14 calls reporting the fire at around 12:20 pm. The solar panel was located on the roof of the building, necessitating the use of one of the brigade’s 32m ladders. Firefighters quickly applied PVStop to the solar panel, a product stored in an extinguisher and sprayed onto the panels during such emergencies. PVStop works by blocking sunlight from reaching the solar panels, effectively stopping the conversion of light into electricity. This allows firefighters to safely address the fire without the risk of electric shock or further electrical fires.

Thanks to the swift application of PVStop, the fire was under control by around 1:10 pm, with no reported injuries. Firefighters from Lewisham, Greenwich, Lee Green, and surrounding stations attended the scene, showcasing a coordinated and effective response.

The Importance of PVStop in Firefighting

PVStop has proven to be an invaluable tool for fire brigades dealing with solar panel fires. Its ability to safely and effectively de-energize solar panels ensures that firefighters can operate without the added danger of live electricity. In this incident, PVStop allowed the LFB to quickly and safely extinguish the fire, protecting both lives and property.

@tonyahmazing

Lewisham firefighters #lewisham #london #fire

♬ original sound – Tonyahmazing

Public Awareness and Safety

The incident was captured by a nearby resident and posted on TikTok, highlighting the community’s role in early detection and response. Although the footage did not capture the moment PVStop was applied, it serves as a testament to the product’s effectiveness and the professionalism of the London Fire Brigade.

The quick response and use of PVStop not only controlled the fire but also ensured that the building remained safe for residents until the solar panel system could be properly inspected and repaired. PVStop can stay on the PV modules for up to a year, providing ongoing protection. When it is time to recommission the system, the polymer coating can simply be peeled off and disposed of as normal waste.

Conclusion

The recent solar panel fire in Lewisham underscores the critical importance of having effective tools like PVStop available for first responders. This incident is a perfect example of how early detection, combined with professional and well-equipped fire services, can prevent potential disasters. Kudos to the London Fire Brigade for their quick response and professional service, and for recognizing the value of PVStop in safeguarding lives and property.

For more information about PVStop and its applications, visit PVStop.

By embracing innovative solutions like PVStop, fire brigades can enhance their ability to manage the growing risks associated with solar panel installations, ensuring safer communities and better protection for all.

@tonyahmazing

Lewisham fire, everything is under control!#lewisham #fire #london

♬ original sound – Tonyahmazing
Improving Data Capture and Reporting on Solar PV Incidents for Enhanced Safety

As a life safety solution provider, our mission is to equip emergency responders, particularly firefighters, with the tools and knowledge to manage the unique risks posed by solar PV systems. The primary hazard in such systems is electrical, which, if not promptly mitigated, can escalate into fire incidents.

The challenge is multi-faceted: there is a lack of enforceable regulation on solar PV installations, these systems are typically located out of sight on rooftops, and there is a diverse array of solar systems currently installed, in progress, or planned for the future.

The Need for Accurate Data Capture

PVStop International extensive conversations with UK Fire Brigades and global Fire Services have led us to believe that the data captured on solar PV incidents is significantly underreported. Publicly available data reports, such as the 2017 BRE Global report, acknowledge that the total number and nature of incidents are not being adequately captured by current systems.

PVStop International propose that the National Incident Reporting System and the National Fire Investigation Reporting System harmonize data capture for solar PV electrical and fire incidents. This would not only improve the quality and consistency of data but also enhance the operational protocols used by firefighters to manage these incidents.

The Proposed Solution

PVStop proposed a simple, effective method for incident reporting, focusing on solar PV systems. This involves two main steps:

  1. Incident Reporting System:
    • Confirm the option to select solar PV systems.
    • Introduce two primary options:
      • PVIR1: Solar PV as Direct Ignition Source.
      • PVIR2: Solar PV Indirectly Involved (Other ignition sources).
    • These options address the direct and indirect risks posed by solar PV systems, ensuring firefighters can report incidents without needing extensive technical knowledge.
  2. Fire Investigation Reporting:
    • Under PVIR1, we propose seven specific categories to capture the source of ignition:
      • PVFIS01: Ignition caused by PV module.
      • PVFIS02: Ignition caused by isolator.
      • PVFIS03: Ignition caused by inverter.
      • PVFIS04: Ignition caused by combiner box and fuse.
      • PVFIS05: Ignition caused by cable.
      • PVFIS06: Ignition caused by connector.
      • PVFIS07: Ignition caused by Solar PV system (Inconclusive Source).

These categories will significantly improve the quality and consistency of data reporting on solar PV incidents. The solution ensures that firefighters can de-energize solar systems safely and effectively by blocking light to the panels, using our PVStop product. Additionally, we provide solar safety training to firefighters and those involved in the installation, operation, and maintenance of solar PV systems.

Call to Action

To further enhance the safety of emergency responders and the general public, we urge the relevant authorities to adopt our proposed incident reporting method. Accurate data capture and analysis will provide a clearer picture of the risks associated with solar PV systems, enabling the development of robust operational protocols and safety measures.

By implementing this standardized reporting system, we can ensure that the growing risks posed by solar installations are managed effectively, thereby protecting both firefighters and the communities they serve.

As solar PV installations continue to increase, it is imperative that we have accurate data capture and reporting mechanisms in place. These proposed method offers a straightforward and effective solution to improve the safety and response strategies of firefighters dealing with solar PV incidents. We look forward to collaborating with fire services and regulatory bodies to bring this initiative to fruition, ultimately enhancing safety and operational efficiency across the board.

Enhancing Fire Safety with Light Blocking Coating: PVStop’s Essential Role in Compliance with SANS 10400

In the realm of building safety, particularly concerning fire protection, adhering to established regulations is paramount. The South African National Standards (SANS) 10400 outlines comprehensive requirements to ensure that buildings are designed, constructed, and equipped to safeguard occupants in the event of a fire. An essential, yet often overlooked, aspect of these safety measures is the role of “light-blocking coatings” in managing solar PV systems during emergencies. At PVStop South Africa, we are committed to highlighting the importance of these coatings and ensuring this get to the South African market to be readily available on the premises.

The Importance of Light Blocking Coatings

Solar PV systems, while immensely beneficial for sustainable energy, pose unique challenges during a fire. PV panels continue to generate electricity as long as they are exposed to light, creating a potential hazard for fire-fighting efforts. Light blocking coatings, such as those provided by PVStop, offer a crucial solution by de-energizing PV panels swiftly and effectively. This not only enhances the safety of first responders but also aligns with the fire safety regulations outlined in SANS 10400.

SANS 10400: Key Fire Safety Requirements

SANS 10400 Part T specifies the need for buildings to be equipped with adequate fire detection, control, and extinguishing systems. Key requirements include:

  • Protection of Occupants: Buildings must be designed to protect all occupants, including those with disabilities, during a fire.
  • Minimization of Fire Spread: The spread and intensity of fires must be minimized to protect the building and adjacent structures.
  • Structural Stability: Buildings must maintain sufficient stability to prevent collapse, especially in multi-storey structures.
  • Smoke Control: The generation and spread of smoke must be controlled to facilitate safe evacuation.
  • Emergency Equipment: Adequate fire-fighting equipment and emergency exits must be provided and maintained.

Incorporating Light Blocking Coatings in Evacuation Plans

To comply with SANS 10400 and enhance overall fire safety, it is essential to integrate light blocking coatings into your building’s evacuation plan. Here’s how PVStop can help:

  1. Availability of Light Blocking Coating: Ensure that light blocking coatings are available on-site for immediate use in emergencies. These coatings are vital for quickly de-energizing PV panels and preventing electrical hazards.
  2. Clear Emergency Procedures: Include specific instructions in your evacuation plan for applying the light blocking coating to PV panels. Train designated personnel on the correct application methods and ensure they are aware of the coating’s location.
  3. Coordination with Fire Services: Develop a joint action plan with local fire services, informing them about the presence of PV systems and the availability of light blocking coatings. Ensure they are familiar with the procedure for de-energizing PV panels and the location of emergency shutdown switches.
  4. Training and Drills: Conduct regular training sessions and fire drills to ensure all building occupants are familiar with evacuation routes and procedures. Specific training on the use of light blocking coatings should be provided to designated personnel.
  5. Regular Maintenance and Reviews: Periodically review and update your evacuation plan and fire safety measures to comply with the latest SANS 10400 standards. Ensure all safety equipment, including light blocking coatings, is maintained and readily accessible.

At PVStop, we understand the critical role that light blocking coatings play in enhancing fire safety, particularly in buildings equipped with solar PV systems. By incorporating these coatings into your evacuation plan and ensuring compliance with SANS 10400, you can significantly enhance the safety of your building and its occupants during a fire. For more information on our light blocking coatings and how they can help you meet regulatory standards, please contact us today.

By prioritizing fire safety and leveraging innovative solutions like PVStop, you can create a safer environment for everyone. Let’s work together to ensure that every building is prepared and equipped to handle emergencies effectively.

Ensuring Fire Safety Awareness in Schools and Businesses with PV Systems

The Occupational Health and Safety Act (OHSA) of South Africa mandates specific procedures and guidelines to ensure safety during emergencies, including fires, at schools and businesses. While the OHSA does not provide a detailed step-by-step evacuation plan, it requires employers to implement and maintain safe working conditions, which include having an emergency action plan. Here are the key procedures generally required:

General Fire Safety Procedures

  1. Emergency Preparedness Plan:
    • Develop a comprehensive emergency preparedness plan that includes fire safety procedures.
    • Ensure the plan is easily accessible and communicated to all employees and students.
  2. Evacuation Plan:
    • Clearly mark all emergency exits and ensure they are free of obstructions.
    • Designate assembly points at a safe distance from the building.
    • Conduct regular fire drills to familiarize everyone with the evacuation routes and procedures.
  3. Fire Alarms and Detection Systems:
    • Install and maintain fire alarms and smoke detectors throughout the premises.
    • Ensure that alarms are audible and visible to alert all occupants.
  4. Fire Extinguishers and Firefighting Equipment:
    • Equip the building with appropriate fire extinguishers, and ensure they are easily accessible.
    • Train designated personnel in the proper use of firefighting equipment.
  5. Emergency Contacts and Communication:
    • Maintain an updated list of emergency contact numbers.
    • Ensure that communication systems (e.g., PA systems, radios) are functional and can be used during an emergency.
  6. Training and Drills:
    • Conduct regular fire safety training for all staff and students.
    • Organize regular fire drills to practice evacuation procedures.
  7. First Aid and Medical Response:
    • Have first aid kits readily available.
    • Train staff in basic first aid and emergency response.

Specific Guidelines for Solar PV Installations

Given the specific risks associated with solar PV systems, such as the presence of live DC wires even when the main power is shut down, additional precautions are necessary. Here are the guidelines:

  1. Risk Assessment:
    • Conduct a thorough risk assessment of the PV system to identify potential hazards.
    • Implement control measures to mitigate these risks.
  2. Signage and Labeling:
    • Clearly label all components of the PV system, including inverters and combiner boxes.
    • Post warning signs to indicate the presence of high voltage and live wires.
  3. PVStop or Similar Products: (If available)
    • Ensure PVStop or similar de-energizing products are available on the premises.
    • Train personnel in the proper use of these products to safely de-energize the PV system during an emergency.
  4. Isolation Procedures:
    • Develop procedures for safely isolating and shutting down the PV system.
    • Ensure that these procedures are part of the overall emergency action plan.
  5. Emergency Response Coordination:
    • Coordinate with the local fire department to develop a joint action plan for emergencies involving the PV system.
    • Provide the fire department with detailed information about the PV system layout and isolation points.
  6. Danger Zones:
    • Mark danger zones around PV installations where DC voltage is present.
    • Ensure that these areas are off-limits to untrained personnel during emergencies.
  7. Regular Inspections and Maintenance:
    • Conduct regular inspections of the PV system to ensure it is in good working condition.
    • Address any maintenance issues promptly to prevent potential hazards.

Example of a Fire Emergency Procedure for a School or Business with Solar PV System

  1. Immediate Actions:
    • Upon discovering a fire, immediately activate the nearest fire alarm.
    • Call emergency services and provide them with detailed information about the fire and any specific risks related to the PV system.
  2. Evacuation:
    • Evacuate the building using the nearest safe exit.
    • Avoid areas with marked danger zones related to the PV system.
    • Proceed to the designated assembly point.
  3. Using PVStop:
    • If safe to do so, trained personnel should use PVStop to de-energize the PV modules.
    • Inform the fire department upon their arrival about the use of PVStop and the current status of the PV system.
  4. Coordination with Fire Department:
    • Provide the fire department with the layout of the PV system and any specific isolation points.
    • Assist the fire department as needed, ensuring they are aware of the live DC hazards.
  5. Post-Emergency Actions:
    • Conduct a headcount at the assembly point to ensure everyone is accounted for.
    • Do not re-enter the building until it has been declared safe by the fire department.

By following these procedures and guidelines, schools and businesses can enhance their preparedness for fire emergencies, particularly those involving the unique hazards of solar PV systems. Regular training, clear communication, and coordination with emergency services are key components of an effective fire safety plan.

Disclaimer

This document is provided solely for awareness purposes and should not be considered a comprehensive action plan for emergency preparedness and response. While it outlines general guidelines and procedures, it is crucial to consult with and involve the appropriate authorities and professionals to develop a detailed and compliant emergency action plan tailored to your specific needs.

We strongly recommend contacting your organization’s safety officers, local fire department, emergency response teams, and other relevant authorities to ensure that your emergency procedures comply with all legal and safety requirements. Professional advice and regular updates are essential to maintain an effective and compliant safety strategy.

For specific guidance and to ensure full compliance with the Occupational Health and Safety Act (OHSA) of South Africa, as well as best practices for handling emergencies involving solar PV systems, please consult with qualified safety professionals and regulatory bodies.

Contact Information and sudgestions for Compliance and Safety Support:

By following professional advice and involving the appropriate authorities, you can ensure that your emergency action plan is comprehensive, effective, and compliant with all relevant safety standards and regulations.

Enhancing Firefighter Safety: The Role of PVStop in Mitigating Solar Panel Risks

As the world increasingly turns to renewable energy sources like solar power, it’s crucial to address the unique challenges they pose, particularly in emergency situations such as fires. Recent discussions by the FDNY, highlighted in a CBS News New York video, shed light on the complexities faced by firefighters when dealing with solar panel installations.

The FDNY underscores the importance of awareness among first responders worldwide. While the industry often focuses on the causes of such incidents, solutions like PVStop offer effective mitigation strategies.

PVStop recognizes the ongoing efforts to improve safety, especially in larger-scale rooftop installations. However, it’s essential to consider the challenges presented by residential, smaller, and older systems. These complexities can significantly hinder firefighting operations and jeopardize lives and properties.

In response to these challenges, PVStop provides a simple yet powerful solution. By equipping firefighters and Fire Chiefs with the tools and knowledge needed to address solar panel-related risks effectively, PVStop empowers them to carry out their duties safely and efficiently.

Our commitment to enhancing firefighter safety extends beyond providing solutions; it involves fostering awareness and understanding of the risks associated with solar panel installations. By advocating for the widespread adoption of PVStop and similar initiatives, we aim to create safer environments for both firefighters and communities.

Together, let’s ensure that firefighters have the resources they need to tackle solar panel-related incidents confidently. With PVStop, we can make significant strides towards safer firefighting practices and ultimately save lives and properties.