Centrifugal Blower Centrifugal blowers use high-speed impellers or blades to impart velocity to air or other gases. They can be single or multi-stage units. Like fans, centrifugal blowers offer a number of blade orientations, including backward curved, forward curved, and radial. Blowers can be multi- or variable speed units. They are usually driven by electric motors, often through a belt and sheave arrangement, but some centrifugal blowers are directly coupled to drive motors. Fan speed can be changed to vary flow rates by resizing sheaves, using variable speed drives, etc.
Applications and Industries
Centrifugal blowers are routinely used for combustion air supplies, on cooling and drying systems, for fluid bed aerators, with air conveyor systems, for dust control, etc. Positive displacement blowers are also used in pneumatic conveying, and for sewage aeration, filter flushing, and gas boosting, as well as for moving gases of all kinds in the petrochemical industries. Centrifugal blowers are often built as close-coupled units, meaning that the impeller wheel is not supported by independent bearings but is cantilevered on an extension of the motor shaft and relies on the motor bearings for support. Close coupled mounting dispenses with the need for shaft couplings. Other arrangements cantilever the wheel off pillow block bearings, such as designs that use belt drives. Blowers are sometimes stepped up from motor speed but are just as often stepped down or 1:1 ratios. The centrifugal blower outlet is usually arranged tangentially to impeller rotation and can be specified usually in one of eight angular orientations with respect to the direction of the blower wheel rotation, making for sixteen possible arrangements of rotation and discharge orientation in 45-degree increments. Industry practice specifies impeller rotation either as CW or CCW as viewed from the drive end—usually the motor end—of the unit. On smaller centrifugal blowers the housings can often be rotated through a full circle to permit any angle of discharge. Rotary lobe blowers usually orient the input and output ports in line, due to the design of the blower.
•Industrial Drying system s •Dairy Food /Pharmaceutical •Chemical Industries •Furnaces •Fumes Exhaust •Boilers •Fresh Air •Petrochemical plants •Power Plants •Foundries •Fertilizers •Oil Refineries •Textile Industries •For Air Pollution Control Equipment
About the Company
Year of Establishment2009
Legal Status of FirmPrivate Limited Company
Nature of BusinessManufacturer
Number of Employees26 to 50 People
Annual TurnoverRs. 10 - 25 Crore
IndiaMART Member SinceAug 2010
Saka Engineering Systems Pvt. Ltd. is among the fastest growing organisations in the realm of Industrial Drying and Evaporation Systems. We offer a wide range of spray drying systems including Spray Dryers, Fluidized Bed dryers, Vacuum Dryers, Flash Dryers and Conduction Dryers. In addition we also offer drying system accessories such as two fluid nozzles, rotary atomizers, industrial drying chambers, air dispersion systems. We design and Manufacture Best in class Calcium Chloride Granulation Systems and Granulators for other chemicals like Magnesium Chloride, Calcium Nitrite etc. Saka Engineering systems also Provide Industrial Pollution control equipments like Wet scrubbers, Bag filters, Cyclone separators, Zero discharge systems and effluent treatment plants. These are manufactured with graded stainless steel and mild steel ensuring maximum durability of the equipments. Our mission is to satisfy our customers by providing optimum solutions to their requirements. We understand the fact that each customer has a unique requirement which can be met by a unique design.
Our designs are not only cost-effective, but also very efficacious in their functionality. SESPL is driven by strong leadership and highly experienced team of Engineers dedicated to optimize the system catering to the needs of our customers. The designs of equipments, buildings and control systems are finalised after rigorous research by the R&D team ensuring high reliability and innovation. We manufacture these equipments at our state-of-the-art ultramodern manufacturing facility. Our infrastructure also incorporates modern quality testing facilities that enable us to meet both national and international standards. Furthermore, we also provide effective after sales service to our valued clients to ensure trouble free functioning of the plants. SAKA Engineering Systems uses CFD (Computational Fluid Dynamics) Analysis method to test and ensure optimal performance equipments. This is done by our highly qualified inhouse team of engineers in our own CFD Analysis Facility. Our Objectives
To strive for excellence in all spheres of management through continuous improvement of products, designs, processes and systems to satisfy our customers, employees and suppliers.
Achieve organisational objectives through total involvement of our employees.
Take decisions and implement actions based on analysis of data and information in order to ascertain melioration and continuous growth and development.
To offer cost effective and world class quality products to our customers supplemented by timely delivery leading to ultimate customer satisfaction.
We always give post commissioning Technological support to our clients for our equipments as well as clients process and we are glad to be able to derive timely solutions for client needs. This has enabled us to get repeated orders form our existing customers.