Far Infrared Wood Drying Technology and Development Prospects

Wood is widely used in market life, the construction industry, furniture production, and industrial manufacturing. Most of the wood we encounter has been dried, traditionally by air-drying outdoors, a method both ancient and inefficient due to high labor intensity. Nowadays, wood processing factories increasingly employ large drying equipment, utilizing methods such as steam drying and electric heating. But where does carbon fiber heating technology fit into the wood drying sector? The answer lies in its potential usefulness.

Current Situation and Deficiencies in Wood Drying Technology

The purpose of wood drying is critical for wood processing, as improperly dried wood can degrade in quality or become unusable, resulting in waste. Wood drying aims to: ① prevent deformation and cracking, ② enhance mechanical strength and improve physical properties, ③ prevent decay and insect damage, and ④ reduce weight to save on transportation costs. Processed wood, used in products like sofas, beds, and cabinets, often surprises consumers with its costliness, reflecting the extensive processing required after initial drying.

Wood drying is energy-intensive, making it a pivotal stage in wood product manufacturing for both product quality and economic benefits.

Example of Existing Wood Drying Equipment in China

Among various wood drying equipment in China, steam drying comprises 80%, with smaller enterprises favoring furnace gas and direct-fired flue gas drying. Steam drying relies on boilers for heat supply, where the average thermal efficiency of industrial boilers and their official websites in China is only 60%. Steam drying incurs significant heat loss in intake and exhaust, totaling approximately 40% of steam thermal energy, compounded by other losses, resulting in an overall thermal utilization rate generally below 30%. Thus, improving thermal energy utilization in wood drying is urgent for cost reduction and resource conservation, contributing to environmental sustainability.

Transition to Electric Heating and Role of Carbon Fiber Heating Tubes

As global environmental awareness grows, boilers used in steam drying will gradually be phased out by the market and regulatory bodies, prompting the gradual development of the electric heating industry. Within electric heating, carbon fiber heating tubes demonstrate high electrical conversion efficiency, ranging from 95% to 98%, significantly surpassing traditional resistance wire’s 60%. This efficiency translates to a 1000W carbon fiber heating tube being equivalent to a 1500W resistance heating tube. For large-scale wood drying facilities consuming hundreds of kilowatt-hours, a 30% energy savings represents substantial cost reduction.

One furniture manufacturer, under the guidance of university research experts, achieved a 63% reduction in energy consumption and a 65% increase in energy utilization by retrofitting their drying production line with 1-meter-long 220V 1000W carbon fiber heating tubes compared to their previous steam drying equipment.

(Details as per the table:)

table for Energy utilisation

Advantages and Challenges of Using Carbon Fiber Heating Tubes

Equipment using carbon fiber heating tubes as heat sources boasts high electrical energy utilization rates, requires no boilers or pipelines, entails lower initial infrastructure investments, and operates at reduced operational costs. Additionally, it contributes to water conservation, emission reduction, haze prevention, and environmental protection. However, challenges remain for small to medium-scale production, where some enterprise owners hesitate to bear the costs of drying room modifications or the associated risks. As market acceptance grows for this heating method, demand for carbon fiber heating tubes is poised to surge.

Discover how GlobalQT revolutionizes wood drying with advanced carbon fiber heating solutions. For more information, visit our website and contact us at contact@globalquartztube.com.

Author

  • Casper Peng

    Casper Peng is a seasoned expert in the quartz tube industry. With over ten years of experience, he has a profound understanding of various applications of quartz materials and deep knowledge in quartz processing techniques. Casper's expertise in the design and manufacturing of quartz tubes allows him to provide customized solutions that meet unique customer needs. Through Casper Peng's professional articles, we aim to provide you with the latest industry news and the most practical technical guides to help you better understand and utilize quartz tube products.

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