Pneucon is a leading manufacturer and exporter of fly ash handling system in Ahmedabad, Gujarat, India.
Timely execution of mega-projects in construction Industries has led to paradigm shift with introduction of Batching plant and its product viz; RMC However two basic inputs to RMC viz cement and Fly ash are received at site in Bulkers or in bags The optimum productivity of Batching plant depends on how fast the cement / fly ash is received at site and is transferred to Batching Silo. PNEUCON has designed, manufactured and supplied user friendly system mounted on a skid; it will have options to both modes of Cement / fly ash input i.e. loose in Bulkers or material received in Bags. Conveying from Bulker to Main Silo is achieved by diverting the voluminous air flow at around 1 Kg /Cm2 Pressure. The bulker is aerated and pressurized. Opening of Bottom Valve allows cement / fly ash to fall directly in dispatch pipe. The air flow carries the material to the main Silo.
The conveying rate achieved is 30 – 32 Tons per hour. When cement / fly ash is received at site in Bags, then they are manually taken to a hopper. Bags are slit and loose material is dumped in to the hopper. A specially, designed screw feeder and low pressure air insertion ensures measured flow of material in to the discharge pipe line The cement / fly ash dropped in discharge pipe are pushed ahead to main silo with the pressure of 1 Kg/Cm2. The transfer rate achieved is 12 to 15 Tons / Hour forthis mode The same operational procedures remain common for lime handling systems also.
– Screw Pumps (Screw Feeders)
– Lime Handling Units with Silos And many other
Since the time Pneucon has been launched, we have continued to provide unparalleled and exceedingly good quality services when it comes to making a grain storage silo or a maize storage silo.
We are completely involved with the installation, manufacturing and the design of the silos and cater to the client?s specific requirements when it comes making silos of different specifications as well as different models.