Strong bulk and bulk powders cooling technology
Over the years, bulk cooling solids such as sugar, fertilizers, chemicals, plastics, dried biosolids, minerals and many other types of grains, crystals and bulk powders using technologies using technologies Traditional do not guarantee quality end products. As a result, business productivity has been greatly affected and most of these technologies have a lot of disadvantages.
In response to this challenge, the main industrial companies and their best scientists and engineers have designed a commendable breakthrough technology that effectively cools the bulk solids and bulk powders of all types, the cooling technology of bulk solids. This world-class technology has been widely used in a variety of bulk powder applications around the world. He also won the reputation of effectively facilitating the process of cooling bulk powders.
How it works
First, this technology facilitates a slow and controlled product flow by allowing bulk powders and bulk block materials to slowly slow down between a series of vertical hollow heat exchange plates. And after that, the materials undergo an indirect cooling of the plate, then passes through a mass flow technology in which the mass flow discharge feeder creates a uniform velocity of the product through the cooler and regulates the flow rate. . And finally, it passes a vertical configuration where the bulk solids pass through the vertical cooler by gravity.
Why it’s better
This bulk solid cooler technology is considered super-efficient compared to another competing technology since it uses up to 90% less energy. Indirect cooling of the plate has been specially designed with the use of air in the cooling process and thus eliminates the need for a large power driving and associated heat loss making this technology most efficient in solids. In bulk available.
In addition, this technology provides a uniform final product temperature since the product moves with a uniform velocity through the heat exchanger that refers to a mass flow design. This functionality, combined with long times of stay (typically 5-10 minutes), allows a uniform temperature distribution when the product passes through the heat exchanger, producing remarkably stable and uniform final product temperatures.
Since this technology has a vertical configuration, the design is both compact and modular, which means that additional heat exchanger plaques banks can be stacked if an increased cooling capacity is required in the future. The compact installation impression makes this design easy to integrate into existing installations and is ideal for increasing, redevelopment and capacity increases.
The mere fact that this technology has been designed with indirect cooling of the plate, the air is not used throughout the cooling process. Installation costs have also been reduced because it is not necessary to install unnecessary air handling equipment such as large diameter air ducts, motors, fans, washers, coolers and emission controls. Fines, dust and odor have also been eliminated because air has not been used to cool the cooling design gourice directly from the indirect plate.
Finally, this technology produces a higher final product since the movements of the products throughout the process were slow and completely controlled. And because of this, it helps prevent abrasion and degradation of the product, so there is no change in the particle characteristics. The risks of bacterial contamination, odor contamination and product moisture content changes have also been eliminated because air has no contact with products throughout the process.