Clean Air Wood Heaters combine innovation, efficiency, and environmental sustainability. Designed with advanced firebox technology, they provide superior heat output while minimizing emissions. Tested to Australian Standards AS2918-2018 and AS/NZS 4013/4012-2014, these heaters ensure safety, efficiency, and eco-friendly performance for homes.

1.1 Benefits of Using Clean Air Wood Heaters

Clean Air Wood Heaters offer numerous benefits, making them a superior choice for home heating. Their advanced firebox design and quad burn system ensure high efficiency, producing more heat with less fuel. These heaters emit significantly fewer pollutants due to their low emission technology, making them an eco-friendly option. They also provide long burn times and consistent heat output, reducing the need for frequent refueling. Additionally, their high efficiency translates to cost savings over time. The heaters are designed with safety in mind, featuring robust construction and compliance with Australian Standards. Their sleek and modern designs enhance home aesthetics while delivering reliable performance. Overall, Clean Air Wood Heaters combine efficiency, environmental sustainability, and durability, making them a practical and responsible heating solution for households.

1.2 Compliance with Australian Standards

Clean Air Wood Heaters are rigorously tested and approved to meet Australian Standards, ensuring safety, efficiency, and environmental performance. They comply with AS2918-2018 for clearances to combustible materials and AS/NZS 4013/4012-2014 for particle emissions and efficiency. These standards guarantee that the heaters operate safely and produce minimal pollutants, aligning with environmental regulations. Compliance with these standards also ensures reliable performance and durability, giving homeowners peace of mind. By adhering to these strict guidelines, Clean Air Wood Heaters demonstrate a commitment to quality and sustainability, making them a trusted choice for eco-conscious consumers. Their certification reflects their ability to balance high efficiency with reduced emissions, ensuring they meet both safety and environmental expectations in Australian homes.

Installation Requirements

Installation requires adherence to AS2918-2018 clearances and AS/NZS 4012-2014 emissions standards. A hearth of 30mm thick compressed fibre cement with a 15mm air gap is essential, along with proper ventilation.

2.1 Clearances to Combustible Materials

Proper clearances to combustible materials are critical for safety and compliance with Australian Standards. The heater must be installed with minimum clearances of 900mm above and 300mm on sides to combustible materials. A hearth made of 30mm thick compressed fibre cement with a 15mm air gap is required. This ensures heat is contained and prevents fire hazards. Additionally, vents must be placed at the top and bottom of the enclosure, providing a minimum open area of 9,800mm². These specifications ensure safe operation and adherence to AS2918-2018 standards, minimizing risks associated with heat exposure to nearby materials. Proper installation is essential to maintain efficiency and safety, as outlined in the Clean Air Wood Heater manual.

2.2 Hearth and Ventilation Specifications

The hearth for a Clean Air Wood Heater must be constructed from a minimum of 30mm thick compressed fibre cement sheet, with a thermal conductivity not exceeding 0.33 W/mK. An air gap of 15mm must be maintained underneath the hearth, providing a minimum of 3,750 mm² of ventilation on each side, such as two slots of 125mm x 15mm. The hearth must extend at least 300mm in front of the heater and 150mm on either side. Ventilation specifications require the enclosure to have vents with a total open area of 9,800mm², positioned at both the top and bottom. These vents ensure proper airflow for combustion efficiency and safety. Compliance with these specifications is essential to meet Australian Standards AS2918-2018 and ensure safe, efficient operation. Proper installation of the hearth and ventilation system is critical to prevent heat damage and maintain optimal performance, as detailed in the Clean Air Wood Heater manual.

Operation and Maintenance

Efficient operation requires proper airflow and small, hot fires. Avoid overloading with wood. Regular cleaning of vents and hearth is essential. Inspect components annually for damage or wear. Use only hardwood for optimal performance and safety.

3.1 Lighting the Fire and Managing Airflow

Lighting the fire in your Clean Air Wood Heater requires careful preparation to ensure efficiency and safety. Always start by ensuring the heater is cool and the area around it is clear of combustible materials. Open the primary air inlet fully before igniting the fire. Begin with a small amount of tinder, such as dry kindling or newspaper, and place it in the center of the firebox. Add larger logs gradually, arranging them to allow sufficient airflow. Once the fire is burning steadily, adjust the airflow by partially closing the air inlet to maintain a consistent burn. Proper airflow management is crucial for efficient combustion and heat output. Avoid overloading the firebox, as this can restrict airflow and reduce efficiency. Use only seasoned hardwood to ensure a clean, hot burn. Regularly monitor the fire to maintain optimal performance and safety.

3.2 Regular Cleaning and Inspection

Regular cleaning and inspection of your Clean Air Wood Heater are essential for maintaining its efficiency, safety, and longevity. Start by allowing the heater to cool completely before cleaning to avoid burns or damage. Use a soft brush or vacuum to remove ash and soot from the firebox, vents, and surrounding surfaces. The glass should be cleaned with a gentle glass cleaner to maintain visibility. Inspect the firebox and vents for any signs of damage or blockages, ensuring proper airflow. Check the air inlet and outlet for dust or debris buildup, as this can restrict airflow and reduce performance. Clean or replace the air filters as recommended in the manual. Additionally, inspect the hearth and surrounding materials for any wear or damage. Annual professional inspections are highly recommended to ensure compliance with safety standards and optimal performance. Regular maintenance not only enhances efficiency but also ensures a safe and environmentally friendly operation of your heater.

Environmental Considerations

Clean Air Wood Heaters are designed with advanced technology to minimize environmental impact. They meet strict Australian Standards for low particle emissions and high efficiency, ensuring reduced pollution and sustainable heating solutions.

4.1 High Efficiency and Low Emission Technology

Clean Air Wood Heaters incorporate cutting-edge technology to achieve high efficiency and low emissions. Their advanced firebox design and quad burn system ensure complete combustion, reducing particulate emissions and maximizing heat output. These heaters comply with Australian Standards AS/NZS 4013/4012-2014, which measure particle emissions and efficiency. By exceeding these standards, they offer a cleaner and more sustainable heating option. The high-efficiency design ensures minimal fuel consumption while delivering consistent warmth. Additionally, the low emission technology minimizes environmental impact, making these heaters an eco-friendly choice for homeowners. Regular maintenance and proper operation further enhance their efficiency, ensuring optimal performance and reduced emissions. This combination of innovative engineering and adherence to strict environmental standards makes Clean Air Wood Heaters a top choice for those seeking a balance between performance and sustainability.