The Tower Type Stationary Melting Furnace manufactured by Furnteck is designed with a focus on simplicity of operation and cost-effectiveness. These furnaces are constructed with top-quality castable and backup linings to ensure optimal performance and durability.
Industries That Use It
The Tower Type Stationary Melting Furnace is utilized in industries requiring efficient and reliable aluminum melting processes. Industries such as foundries, metal casting units, and aluminum processing plants benefit from the high efficiency and low oxidation losses offered by these furnaces.
How It Works?
The primary heat transfer mechanism in the Tower Type Stationary Melting Furnace is convection, achieved through direct burner impingement on the metal in the lower section of the tower and the circulation of combustion gases past the metal charged into the shaft. Furnteck employs various burner combinations to enhance fuel efficiencies. Furnace charging can be performed from the top using a skip charger or from the end using a push charging system. The furnace design includes automated systems for efficient operation.
Specifications
- Melting Capacity: Ranges from 500 kgs to 10000 kgs with a throughput of up to 3000 kgs/hour.
- Fuel Efficiency: Achieves fuel efficiency of 500 kWh/tonne of aluminum melted.
- Automation Level: High degree of automation for reliable and efficient production.
- Construction: Robust design with safety systems and interlocks for operational safety.
- Heat Transfer: Efficient convection-based heat transfer for optimal melting performance.
- Dross Management: Facilitates dross-free metal extraction for high-quality liquid metal output.
- Tap Out Systems: Utilizes automated tap out systems with pneumatic cylinders for smooth operation.
- Furnace Type: Available in stationary and tiltable models to suit different operational needs.
- Footprint Efficiency: Compact design allows for higher metal depth and throughput in limited shop floor space.
- Height Limitations: Furnace size may be restricted by height limitations, affecting overall capacity.