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Looking to buy the best Cooper Crouse Hinds Hazardous Area Lighting for sale? Get Quotes sends your requirements to expert suppliers in Australia so you get personalised quotes to compare Hazardous Area Lighting prices, specifications, features and terms then choose the one that’s right for you. Also compare servicing, consumables and reviews, so you can buy with confidence.
What are hazardous area lighting requirements in Australia?
Requirements in Australia are governed by the Australian Standard AS/NZS 6007 The standard defines hazardous areas as locations where the presence of flammable gases, vapours, liquids, or combustible dusts may create a fire or explosion risk. Hazardous area lighting must meet specific design and installation requirements to ensure safety in these environments.
Some of the key requirements for hazardous area lighting in Australia include:
Classification of hazardous areas: Hazardous areas must be classified according to the type and nature of the hazardous substance present, as well as the likelihood and duration of its presence.
Equipment selection: Lighting fixtures used in hazardous areas must be specifically designed and approved for use in those environments. This includes the selection of appropriate materials and construction methods to prevent ignition of flammable substances.
Protection methods: Different protection methods may be used to prevent ignition in hazardous areas, such as explosion-proof, intrinsically safe or increased safety methods.
Installation requirements: Hazardous area lighting must be installed in accordance with specific requirements to ensure safe operation, including wiring methods and cable glands.
Maintenance and inspection: Regular maintenance and inspection of hazardous area lighting is critical to ensure continued safe operation. This includes regular cleaning, testing, and replacement of components as required.
Overall, the requirements for hazardous area lighting in Australia are designed to ensure the safety of workers and prevent the risk of fire or explosion in areas where hazardous substances are present.
What is the difference between explosion-proof and intrinsically safe lighting?
Explosion-proof and intrinsically safe lighting are two types of hazardous area lighting used in environments where there is a risk of explosion or fire. The main difference between them is the way they prevent sparks or ignition sources from causing an explosion.
Explosion-proof lighting is designed to contain any sparks or flames within the fixture itself. The housing is made of a strong, durable material that can withstand an explosion without breaking or igniting any surrounding materials. The internal components are also specially designed to prevent sparks from occurring, typically by using a sealed enclosure or a protective barrier.
Intrinsically safe lighting, on the other hand, is designed to prevent sparks from occurring in the first place. The electrical components are specially designed to limit the amount of energy that can be transferred to the light source, reducing the risk of sparks or explosions. This means that intrinsically safe lighting can be used in areas where there is a higher risk of explosion, such as in mines or oil rigs.
Both explosion-proof and intrinsically safe lighting are important for ensuring safety in hazardous environments. The choice between them will depend on the specific requirements of the environment and the level of risk involved.
What are the types of hazardous area classifications in Australia?
There are several types of hazardous area classifications in Australia, including:
Zone 0: An area where explosive gas or vapor is continuously present or present for long periods.
Zone 1: An area where explosive gas or vapor is likely to be present under normal operating conditions.
Zone 2: An area where explosive gas or vapor is not likely to be present under normal operating conditions, but may be present for short periods.
Zone 20: An area where combustible dust is continuously present or present for long periods.
Zone 21: An area where combustible dust is likely to be present under normal operating conditions.
Zone 22: An area where combustible dust is not likely to be present under normal operating conditions, but may be present for short periods.
Hazardous area lighting is essential in these environments to ensure the safety of workers and prevent accidents. It must be designed and installed to meet specific standards and regulations to minimize the risk of explosion or fire.
What are the common hazardous area lighting technologies available?
Technologies include:
Explosion Proof Lighting: This type of lighting is designed to prevent the ignition of explosive gases, dust, or fibers in the air. It is typically used in areas where there is a risk of explosion, such as oil and gas refineries, chemical plants, and mines.
Intrinsically Safe Lighting: This type of lighting is designed to prevent the ignition of explosive gases or dust by limiting the energy available to the light source. It is typically used in areas where there is a risk of explosion, such as oil and gas refineries, chemical plants, and mines.
LED Lighting: LED lighting is becoming increasingly popular in hazardous areas due to its energy efficiency, long lifespan, and low heat emissions. It is used in a variety of hazardous area applications, including oil and gas refineries, chemical plants, and mines.
Fluorescent Lighting: Fluorescent lighting is still used in some hazardous area applications, but it is becoming less common due to its low energy efficiency and potential for mercury contamination.
High-Pressure Sodium Lighting: High-pressure sodium lighting is commonly used in hazardous area applications where high intensity lighting is required. It is typically used in oil and gas refineries, chemical plants, and mines.
How do I select the right hazardous area lighting for my application?
Is a critical component in ensuring worker safety in industries such as oil and gas, chemical processing, and mining. When selecting the right hazardous area lighting, there are several factors to consider:
Classification: The first step is to understand the hazardous area classification and the type of lighting required for that area.
Certification: The lighting equipment must meet the appropriate certification standards for the specific hazardous area.
Environment: The lighting equipment must be suitable for the environment in which it will be used, including temperature, humidity, and corrosive substances.
Brightness: The level of brightness required will depend on the specific task being performed in the hazardous area.
Energy Efficiency: Energy-efficient lighting can save costs over time and reduce the environmental impact of operations.
Maintenance: The lighting equipment must be easy to maintain and repair to minimize downtime and ensure continued safety.
By considering these factors, you can select the right hazardous area lighting for your application and ensure the safety of your workers.
What certifications/standards should I look for when buying hazardous area lighting?
When buying hazardous area lighting, it is important to look for certifications and standards that ensure the lights are safe and suitable for use in hazardous environments. The following are some important certifications/standards to look for:
ATEX Certification: This certification ensures that the lighting is compliant with the European Union's ATEX directive, which is designed to ensure the safety of products used in potentially explosive atmospheres.
IECEx Certification: This certification ensures that the lighting is compliant with international standards for equipment used in explosive atmospheres.
NEC and CEC compliance: The National Electrical Code (NEC) and Canadian Electrical Code (CEC) have specific requirements for hazardous area lighting. Make sure the lighting you choose is compliant with these codes.
IP Rating: The Ingress Protection (IP) rating is a measure of how well a light is protected from dust and water. Look for a high IP rating to ensure the light can withstand the conditions of your hazardous environment.
UL Listing: Underwriters Laboratories (UL) is an independent organization that tests and certifies products for safety. Look for a UL-listed hazardous area light to ensure it has been tested for safety.
CSA Certification: The Canadian Standards Association (CSA) is an organization that certifies products for safety and performance. Look for a CSA-certified hazardous area light to ensure it meets Canadian safety standards.
By ensuring that the hazardous area lighting you choose has the appropriate certifications and standards, you can be confident that it will be safe and effective in your workplace.
How do I maintain and service hazardous area lighting?
Hazardous area lighting is critical for ensuring safety in areas where there is a risk of explosion or fire due to the presence of flammable substances. To maintain and service hazardous area lighting, the following steps should be taken:
Regular inspections: Regular inspections should be conducted to ensure that the lights are functioning properly and that there are no visible signs of damage or wear and tear.
Cleaning: Hazardous area lighting should be regularly cleaned to prevent the build-up of dust and other debris. This can be done using a soft cloth or brush.
Replacement of parts: Any damaged or worn-out parts should be replaced immediately. This includes bulbs, lenses, and other components.
Upgrades: As technology advances, it may be necessary to upgrade existing hazardous area lighting systems to ensure that they are up-to-date and meet current safety standards.
Training: Personnel responsible for maintaining and servicing hazardous area lighting should receive proper training to ensure that they are knowledgeable about the equipment and safety procedures.
Compliance: All maintenance and service activities should be carried out in compliance with relevant safety regulations and standards.
By following these steps, hazardous area lighting can be effectively maintained and serviced to ensure the safety of personnel and facilities.
What are the installation requirements for hazardous area lighting?
Hazardous area lighting installation requirements vary depending on the specific hazardous area classification and the type of lighting being installed. Choose the proper lighting fixture that is designed for the specific hazardous area classification.
Ensure that the lighting fixture is properly rated for the type of hazardous material present in the area.
Install the lighting fixture in a location that is safe and accessible for maintenance and cleaning.
Follow all local and national electrical codes and regulations.
Use wiring that is specifically designed for hazardous areas.
Use conduit and fittings that are properly rated for the hazardous area classification.
Use explosion-proof or flame-proof fittings where necessary.
Ensure that the lighting fixture is properly grounded and bonded.
Test the lighting fixture and wiring before energizing the circuit.
Provide proper labeling and signage to indicate the hazardous area classification and any other relevant information.
What are the common hazards associated with hazardous area lighting?
Hazardous area lighting is used in areas where there is a risk of explosion or fire due to the presence of flammable gases, vapors, or dust. These areas are classified as hazardous locations, and lighting fixtures installed in such locations need to meet stringent safety standards.
The common hazards associated with hazardous area lighting include:
Explosion and Fire: The presence of flammable gases, vapors, or dust can lead to an explosion or fire if an ignition source is present. Lighting fixtures that are not designed for hazardous locations can create sparks or high temperatures that can ignite flammable substances.
Electrical Shock: Electrical equipment in hazardous locations must be designed to prevent electrical shock. Faulty wiring or damaged fixtures can lead to electrical shock, which can be fatal in some cases.
Corrosion: The presence of corrosive substances in hazardous locations can cause corrosion of lighting fixtures, which can compromise their safety and effectiveness.
Environmental Conditions: Hazardous locations can be subject to extreme temperatures, humidity, and other environmental conditions that can affect the performance of lighting fixtures.
Maintenance and Inspection: Regular maintenance and inspection of hazardous area lighting fixtures are essential to ensure their continued safety and effectiveness. Failure to maintain and inspect these fixtures can lead to hazardous conditions and accidents.
Overall, proper installation, maintenance, and inspection of hazardous area lighting fixtures are critical to ensuring the safety of workers and facilities in hazardous locations.
What is the cost of hazardous area lighting in Australia?
In Australia can vary widely in cost depending on the type of lighting required, the size of the hazardous area, and the level of certification needed. Generally speaking, the cost of hazardous area lighting can range from $100 to $1000 per fixture or more. Other factors that can impact the cost include installation, ongoing maintenance, and replacement costs. It is important to work with a reputable supplier or contractor to ensure that the lighting meets all necessary safety standards and regulations.
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