Radiant Strip Heaters

How radiant strips work

Radiant strips operate by emitting infrared radiation, which directly heats surfaces, objects, and people within their range. These systems consist of radiant tubes that are heated by a gas burner or electric resistances. Once heated, the tubes emit infrared radiation, which spreads throughout the environment, warming everything it encounters.

Unlike convection heating systems, which warm the air, radiant strips directly heat surfaces, reducing heat loss and improving energy efficiency. This type of heating is particularly beneficial in environments where maintaining warm air is difficult, such as open spaces or buildings with frequently opened doors.

Benefits of radiant strips

Radiant strips offer numerous advantages over traditional heating systems, making them a popular choice for many industrial and commercial applications:

• Energy efficiency: As radiant strips heat surfaces directly instead of the air, they significantly reduce energy consumption. This is especially important in large and open environments, where heating the air can lead to substantial heat loss.
• Even heating: Radiant strips distribute heat evenly across the entire surface of the heated area, eliminating temperature variations and ensuring consistent thermal comfort.
• Fast heating: These systems provide almost immediate heat, as there is no need to wait for the air to warm up. This makes them ideal for spaces that require rapid heating, such as production facilities or warehouses.
• Low operating costs: Thanks to their energy efficiency and targeted heating capability, radiant strips can significantly reduce heating-related operating costs, particularly in large spaces.
• Flexible installation: Radiant strips can be installed on ceilings or walls, adapting easily to different environments. Their modular design also allows for heating specific areas or zones independently, further optimising efficiency.

Applications of radiant strips

Radiant strips are used in a wide range of sectors, each with specific heating requirements. Below are some examples of where these systems are successfully implemented:

• Industry and warehouses: In large industrial plants and storage facilities, radiant strips provide efficient and targeted heating, maintaining worker comfort without wasting energy on heating the air. This is particularly useful in environments with frequently opened doors or where maintaining a constant temperature is challenging.
• Sports facilities: Sports arenas, gyms, and other recreational spaces often require heating solutions that can adapt to large and high spaces. Radiant strips offer even and rapid heating, ensuring comfort for athletes and spectators.
• Covered outdoor areas: In partially enclosed outdoor spaces, such as covered terraces or loading and unloading zones, radiant strips are an ideal solution for providing warmth without significant heat dispersion.
• Commercial buildings: In shopping centres, showrooms, and other large commercial buildings, radiant strips offer efficient heating that can be adjusted to cover specific areas, enhancing customer comfort and reducing energy costs.

Innovation in radiant strips

The radiant strip sector is constantly evolving, with innovations aimed at improving efficiency, ease of use, and sustainability. Some key developments include:

• Advanced control technologies: Modern radiant strips can be integrated with automation and intelligent control systems, allowing automatic heating adjustments based on environmental conditions or specific user requirements. This further optimises energy efficiency and reduces consumption.
• Improved materials: The use of advanced materials with high heat resistance increases the durability and efficiency of radiant strips, lowering maintenance costs and enhancing long-term performance.
• Sustainability: With increasing attention on sustainability, many radiant strips are designed to be compatible with renewable energy sources, such as solar power or biogas, helping to reduce the environmental impact of heating systems.