Optimization of the Centrifugal Blower

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Running Head: OPTIMIZATION OF THE CENTRIFUGAL BLOWER 1
Optimization of the Centrifugal Blower
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Running Head: OPTIMIZATION OF THE CENTRIFUGAL BLOWER 2
Abstract
Centrifugal blowers are examples of machines which assist in moving air nonstop with
the increase in the static pressure. They are used widely in the commercial and industrial
applications from the ventilation of shops to handling materials, applications of boilers and
systems of cooling the vehicles. The companies of food can also use the centrifugal blowers to
maintain the temperatures of the stored foods. It has many blower wheels comprised of the ribs
and blower blades mounted around a hub. The hub turns on the shaft drives that passes through
the blower house. The gas enters from the fan wheel’s side, turns ninety degrees and accelerates
because of the centrifugal force.
Key Words: Optimization, Centrifugal Blowers, Performance and Operations

Running Head: OPTIMIZATION OF THE CENTRIFUGAL BLOWER 3
Introduction
A centrifuge blower is the device used for moving air and extra gases. The centrifugal
fans raise the speed of the stream air with the impellers that rotate. They use the rotating blade or
the kinetic energy of the impellers to increase the gas stream or air pressure which moves them
alongside the resistance initiated by the dampers, ducts, and another component. The blower
increases the speed of air radially by changing the direction where the air is flowing and are
quite, capable, sturdy and reliable of operating over many conditions. They are known as the
constant volume devices since they pump constant air volume rather than mass at a constant
speed.
The centrifugal blowers are the fans that are used widely more so in the HVAC
industries. They are normally cheaper and simpler in terms of construction when compared to
axial fans. They are well made for the processing of the industries and systems that controls the
air pollution. It has many blower wheels comprised of the ribs and blower blades mounted
around a hub. The hub turns on the shaft drives that passes through the blower house. The gas
enters from the fan wheel’s side, turns ninety degrees and accelerates because of the centrifugal
force (BHANDARI, 2015).
Components of the Centrifugal Blower
Figure 1: Components of centrifugal blower (Ferrante, 2014)

Running Head: OPTIMIZATION OF THE CENTRIFUGAL BLOWER 4
The impeller is the device that rotates and is comprised of many fan blades mounted on
the hub and forces the air in the required direction with the raised pressure. To meet the demands
of the large companies, or for it to be optimized, the blowers are designed as the multistage and
double inlet impeller where the inlets are mounted back to back on the similar shaft. These types
of fans are used in the industries with the large capacity plants that need high flow air pressure
(Gherman, 2017). Fan blades based on the configuration of blades such as the backward and
forward curves, airfoil and radial, the centrifugal blowers are divided into many groups and are
different according to their functions.
The optimization and efficiency of the fan performances normally depend on the blades
shapes mounted on the hub of the fan wheels. Some of the fans can contain more air with high
pressure where some are meant for the low rates of flow (Engineers A. S., 2012). Variables to
get the best fan’s speed, the mechanisms driven by the variables use the coupling to establish the
connection between the wheel shaft and the motor shaft. Some are optimized to use the
electronic speed drives that can control the speed automatically at the required speed at the
needed level. The ducts that are attracted at the inlet of the fan and outlet can affect the pattern of
inflow and affect the performance of the fan (Engineers M. G., 2015).
The blower drives show the speed of the impeller and the speed's extent. The wheels of
the fans can be linked to the shaft directly and the fan speed cannot vary unless the speed of the
motor is adjusted. The air conditioning will provide fast speed automatically because cold air is
denser. For it to be optimized, the centrifugal blowers can be designed with the external motor
rotor where the stator is inside the rotor and directly mounted on the impeller (Ferrante, 2014).
The bearings are the significant parts of the fan and the bearing of the sleeve ring oil are also
used just like centrifugal blower ( Standard Test Code for Disc and Propeller Fans, Centrifugal

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Running Head: OPTIMIZATION OF THE CENTRIFUGAL BLOWER 5
Fans and Blowers). The water cooled bearing sleeves are used when hot gases are moved by the
blower. Heat is produced through the shaft into oil that should be cooled to prevent the bearings'
overheating. Grease packed anti-friction bearings are being used because the fans of lower speed
are in hard to reach spots (Gingery, 2014)
The fan dampers control the flow of the gas in and out of the centrifugal fan. They may
be designed on the side of the inlet or on the outside of the blower or even both. Dampers on the
side of outlet produce the resistance of flow used to control the flow of gas. The inlet side
damper is made to control the gas flow by fluctuating the gas amount admitted to the fan inlet
(Kinealy, 2017). The fan wheels comprise the hub where the blades are attached and can be
arranged in the radial, forward curved and backward curved. Forward curved blades sensitive to
the particulates and gives the low level of noise and little flow of air with high static pressure.
The backward lower gives the best operating in the techniques of economical construction. They
are made to handles the stream of gas with moderate to low loading (Kinealy, 2017)
The performance of the centrifugal blower is governed by the dissimilar laws of the fans.
Many emphases are to understand the basic theories of fans, their working and fans types. To
determine the performance of the blowers, the sections of the critical parameters are needed. The
equations like the energy equations, continuity equations, and momentum equations must be
considered following the approach of the computational fluid dynamics. Performing the
optimization designs of the centrifugal blowers where the mass flow variation controlled by the
ante rotor which is mobile and not by the variation of the speed of the electrical motor. For the
analysis of the vibration of the blower the parameters that cause the vibrations and methods with
good setup arrangement of vibration must be known (Engineers M. G., 2015).

Running Head: OPTIMIZATION OF THE CENTRIFUGAL BLOWER 6
The life-bearing of the blower can be improved by performing the best actions on the
blower and mending its accessories like the block of the plumber to prevent the failure of the
plumber (Kinealy, 2017). The principles of working are that the fan uses the power centrifuge
produced from the impeller rotation to increase the gas and air pressure. When the impeller starts
to rotate the gas near the impeller is thrown out because of the force and then moves to the
casing of the fan hence increasing the pressure of the gas in the casing. The gas is then moved by
the outlet duct to the exit. The pressure of the gas in the middle in the middle part of the impeller
reduces and the gas in the in front of the impeller rushes to regularize the pressure. This
procedure continues and the gas can be transferred nonstop (Liptak, 2016).
Proper designs optimization of the blowers is determined as per the prioritizing the
requirement versus the preferences. (Pipe, 2013) The average volume of airflow needed direction
and shape of the desired flow of air limitation of space, cost, selection of materials and power
availability. There is the scope of the research to improve the design of the centrifugal blower. In
the future, many parameters influencing the performances on the fan can be determined and
selected for the study. The orientation and shapes of the blades used can vary to know the effects
of the performances of the blower (Mark, 2016).
The optimized centrifugal blower experiences some of the problems like the design
defects, ageing, operational stresses, manufacturing defects and the, maintain ace actions. The
design defects are mostly related to the built-in resonance of the improper proportional and
sizing of the parts statically. The manufacturing defects are designed in during the machining,
casting and assembly process. The blower noise is the repetition of the pressure change and
velocity are interchangeable. When the velocity squared is directly proportional to the pressure,
the fluctuations occurred in the air velocity (Pathak, 2015).

Running Head: OPTIMIZATION OF THE CENTRIFUGAL BLOWER 7
Due to the vibration in the blower, the crack initiated in any moving parts of the blower
more so in the shaft. The mass from the zone of crack is removed while the shafts' natural
frequency increases. Because of the removal of the materials that carry many stresses when the
defects are of narrow crack. Leakages of air in the main flow occurred because of the clearance
is given between the periphery of rotation of the casing and the impeller at the entry (Pathak,
2015).
Conclusion
The centrifugal blowers are widely used in the HVAC industries and transporting the
materials and gas in the systems of ventilation for the building. The blowers are the types of
turbomachines used for moving air continuously with the increase in the pressure. The fans
selection depends on the rates of air flow, air temperature, properties of air stream and pressure.
They are normally cheaper and simpler in terms of construction when compared to axial fans.
They are well made for the processed of the industries and systems that control the air pollution.
It has many blower wheels comprised of the ribs, blower blades, mounted around a hub. The hub
turns on the shaft drives that passes through the housing of the blower.

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Running Head: OPTIMIZATION OF THE CENTRIFUGAL BLOWER 8
Bibliography
BHANDARI. (2015). Optimization of Blower. Mumbai: McGraw Hill Education.
Bleier, F. (2014). Fan handbook: selection, application, and design. Chicago: McGraw-Hill.
Engineers, M. G. (2015). Optimization of Blowers. Paris: John Wiley & Sons.
Ferrante, L. (2014). Optimization of Centrifugal Blower. Michigan: CRC Press.
Gherman, B. (2017). Bearing life improvement of centrifugal blowers by vibration analysis. Perth: Tata
Mc-Graw Hill Edition.
Gingery, D. (2014). How To Design & Build Centrifugal Fans. Paris: David Gingery Publishing.
Kinealy, J. H. (2017). Centrifugal Fans. Colorado: CHIZINE PUBN.
Liptak, B. (2016). Optimization blowers. New York: CRC Press.
Mark, P. (2016). Centrifugal Fans and Blowers . Melbourne: ICON Group.
Pathak, Y. (2015). Centrifugal Blower Volute Optimization . Perth: Elsevier.
Pipe, W. (2013). Centrifugal Fans and their Commercial Applications. Michigan: Michigan Agricultural
College.
Reddy, J. (2014). Design optimization of centrifugal fan. New York: Armstrong Whitwort & Company Lt.

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