AZO®MULTIAIR dense phase transport for short on degradation and dehomogenization over long distances and with high conveying capacity
• Gentle on the product
• Low wear
• Low level of dehomogenization
• High conveying capacity
• Long transport distances
• Energy saving due to targeted transport air supply
AZO®MULTIAIR dense phase transport is a system that operates in the positive pressure range. The transport pressure range is between 1 and 4 bar positive pressure. The optimum transport pressure setting is based on the product and performance. This transport system is particularly dedicated for abrasive products such as PVC Dryblend and fiberglass-reinforced granulates as well as for pneumatic transport of foodstuffs such as breakfast cereals, instant products or milk powder with low levels of dehomogenization.
The extremely low transport speed is gentle on the product and transports it with low levels of dehomogenization. In addition, the wear on the system is reduced at the same time. The wide transport pressure range means that this system is particularly suited to high transport rates at the same time as for covering long transport distances. The control system is optimized for the product in question, while the targeted input of secondary air allows this system to operate with great energy efficiency.
AZO®VacuumPlus dense phase conveying gentle, segregation-free and extremely energy efficient
• Segregation and destruction free
• Low air and energy consumption
• Conveying of critical bulk materials
• Optimized controls
• Efficient usage of conditioned air
The AZO®VacuumPlus dense phase conveying system is a new conveying system, intelligently combining the advantages of pressure and vacuum systems. Whenever fragile and/or temperature sensitive bulk materials need to be gently conveyed without segregation, this new materials handling technology is the solution – especially for applications with medium throughputs and conveying distances of up to 100 m.
The low product speed achieves a dense phase conveying with very little product segregation. This also means the conveyed product is handled very gently, with very little attrition, and therefore extremely low wear rates within the conveying pipes. It is easy to engineer such a system with many different product feeding points. Due to the low air and energy consumptions this system is very efficient, especially advantageous if conditioned air is required for conveying the product