Main Application Areas of Drying Technology:

Wood Industry: Plywood pressing, fiberboard molding, rosewood drying, furniture wood drying.

Bamboo Products: Drying of various bamboo products.

Petroleum & Chemical Industry: Polymerization, condensation, distillation, melting, dehydration, forced heat preservation.

Oil & Fat Industry: Fatty acid distillation, oil decomposition, concentration, esterification, vacuum deodorization.

Synthetic Fiber Industry: Polymerization, melting, spinning, stretching, drying.

Textile & Dyeing Industry: Heat setting, drying, thermal dyeing.

Non-Woven Fabric Industry: Non-woven fabric production.

Feed Industry: Raw material and finished product drying.

Plastics & Rubber Industry: Hot pressing, calendering, extrusion, vulcanization.

Paper Industry: Paper drying, corrugated paper processing.

Building Materials Industry: Gypsum board drying, asphalt heating, concrete curing.

Machinery Industry: Paint spraying, print drying.

Food Industry: Baking, heating.

Air Conditioning Industry: Heating for industrial plants and civil buildings.

Road Construction Industry: Asphalt melting, heat preservation.

Pharmaceutical Industry: Raw material drying.

Light Industry: Ink production, detergent raw material drying.

Sludge Drying: Municipal sludge, chemical/electroplating sludge, coal sludge drying.

Current Status of Wood Drying Technology

Drying technology is widely used in agriculture, chemicals, wood products, and other industries, accounting for about 15% of China's total energy consumption. As furniture quality heavily depends on wood drying quality, this process is indispensable. However, wood drying consumes 40%–70% of energy in wood processing enterprises, with an average energy utilization rate of only 30% due to outdated technologies.

Common Artificial Wood Drying Methods

Conventional Drying: Uses steam, hot water, or flue gas at temperatures below 100°C.

High-Temperature Drying: Operates above 100°C, often with superheated steam.

Dehumidification Drying: Utilizes heat pumps for energy-efficient moisture removal, saving over 40% energy compared to steam drying.

High-Frequency & Microwave Drying: Rapid internal heating for uniform drying, suitable for thick wood sections.

Vacuum Drying: Faster drying at lower temperatures (e.g., 70°C) with minimal stress on wood.

Solar Drying: Uses solar energy, often combined with other heat sources for consistency.

Conventional steam drying remains dominant (80% share in China), while dehumidification drying ranks second for its energy efficiency. Challenges include inaccurate control systems, low-quality components, and poor insulation in drying chambers.

Clean Air Energy Technology

With the phase-out of coal boilers, air energy heat pumps offer a green alternative for heating, drying, and hot water applications. Heat pumps transfer ambient heat efficiently, consuming only 25% of the energy used by electric heaters.

Heat Pump Drying Units

Operate on the reverse Carnot cycle, absorbing heat from air and transferring it to drying chambers.

Energy efficiency exceeds 300%, reducing costs by 30%–40% compared to traditional methods.

Ideal for heat-sensitive materials like food and biomaterials, preserving quality without pollution.

Advantages of Heat Pump Dryers:

Eco-Friendly: Zero emissions, no combustion, or pollutants.

Safe: No fire risks or high-pressure systems.

Low-Temperature Drying: Patented technology enables efficient drying at 0–80°C.

Smart Control: Automated systems optimize drying time and quality.

Labor-Saving: Easy operation reduces manpower costs.

Energy-Efficient: Cuts energy consumption by 30%–40%.

After-Sales Service Commitment:

Complete product documentation and 24/7 support team.

Customized solutions from equipment selection to installation.

Regular follow-ups and proactive maintenance.

One-year free warranty with lifelong maintenance at cost price post-warranty.

National Free Service Hotline: 400-600-8096

Tel: 15958826876, 13738826708