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How the Right Pump Brings Efficiency and Much Greater Energy Savings
The latest design advancements in sliding vane positive displacement pump technology can reduce energy consumption while optimizing performance. Here's a review of what's possible
By Bill Bohr
Just the Facts About Key Innovations
Two energy-saving innovations applied to sliding vane technology are as follows:
• One is a hydrodynamic journal bearing found on some motor speed vane pumps. The bearing uses a fluid boundary forming principle to eliminate shaft-to-bearing contact. The shaft hydroplanes above the bearing surface on a cushion of liquid. In this hydrodynamic condition, there is no metal-to-metal contact, and thus bearing life is extended indefinitely. The pump maintains optimum bearing characteristics even under a wide range of operating conditions. Reduced shaft/bearing contact minimizes friction and results in higher mechanical efficiency and energy savings.
• The second notable improvement is a cavitation/noise suppression liner. Cavitation can severely impact a pump's performance and efficiency as the liquid changes to a vapor inside the pump chamber. This decreases flow through the pump and can cause substantial damage to the pump as the vapor bubbles collapse back to the liquid state. This unique invention controls the wear effects of cavitation and reduces noise levels up to 15 dbA, giving the pump an added level of protection and extended service life. |
In today's competitive marketplace, all companies, regardless of their business,
are concerned about the bottom line. Around the world, energy costs continue to
rise as demand increases for greater profitability through cost controls. In other
words, the reduction of energy consumption is a key component in controlling costs.
Higher energy costs impact the bottom line of every company, particularly processing
operations where in the manufacturing sector pumps represent 27 percent of the
electricity used by industrial systems.
Pumping systems are a major energy consumer and a vital necessity to every plant's operation. A wealth of advice on saving energy through proper pump selection and improving pumping systems is available through the Department of Energy's Industrial Technologies Program (ITP) and through the Hydraulic Institute's Pump Systems Matter initiative (www.pumpsystemsmatter.org). The energy-saving information provided by these two institutions is easy to understand and covers both centrifugal and positive displacement pumps. The major premise supported by each institution is that in order for operations to improve energy savings significantly, they must take a systems approach, shifting the focus from the performance of individual components to that of the entire system. This approach will enable operators to improve reliability, performance, and efficiency of their overall pumping system, which in turn results in not only greater energy savings but also higher productivity and optimized performance and profitability. This means utilizing the best technology (centrifugal or positive displacement), properly sized with the appropriate piping design and control valve configurations, to ensure the highest efficiency for the application.
Although the operating principles of positive displacement and centrifugal pumps
differ widely, both types can be used to serve the same applications in many cases.
In these instances, certain positive displacement pumps may offer substantial
opportunities in the effort to improve processes and productivity as well as maintenance
and energy cost savings. Positive displacement pumps generally require less NPSHA
than centrifugal pumps, and they may offer more flexibility relative to dealing
with varying changes in pressure and flow requirements of continuous-type processes.
Also, positive displacement pumps maintain higher efficiencies throughout the
viscosity range. Therefore, in the overlap where both types of pumps can operate,
a positive displacement pump's high mechanical efficiency can offer improved energy
savings.
Pumping systems are a major energy
consumer and a vital necessity to every plant's operation. Significant design
advancements are giving sliding vane pumps a decisive advantage over other
pumps. |
But not all positive displacement pumps are created equal. There are significant
differences between the varying positive displacement pump types, which include
internal gear, external gear, lobe, one-screw, two-screw, three-screw, peristaltic,
and sliding vane models.
In recent years, significant design advancements have given sliding vane technology a decisive advantage over other positive displacement pump types, specifically with regards to optimized performance, low-shear capability, lowest life-cycle cost, and energy efficiency.
By design, sliding vane pumps operate with high volumetric efficiency and low
slippage, allowing application at substantially lower viscosity than other positive
displacement pump types. Along with benefits such as quieter operation, longer
service life, and reduced maintenance requirements, sliding vane technology may
also result in significantly reduced energy consumption.
One of the latest energy-saving innovations
applied to sliding vane technology is the hydrodynamic journal bearing found
on the Blackmer ProVane motor speed vane pump. |
Perhaps one of the most important advantages of sliding vane pumps is the fact
that their self-adjusting vanes automatically slide out of slots in the rotor
to adjust continuously for wear and maintain near-original efficiency and capacity
throughout the life of the pump. Gear, lobe, and screw-type pumps gradually diminish
in efficiency as clearances increase due to the wear of the metal parts. As a
result, there is increased "slip" and volumetric inconsistency. In order to compensate
for the reduced performance, the pump speed needs to be increased, which not only
further accelerates pump wear but also increases energy consumption. By eliminating
the need to increase the pump speed over time, sliding vane pumps are inherent
energy savers. According to the Hydraulic Institute's "Testing for Pumping System
Efficiency Tip Sheet," a study of industrial facilities commissioned by the Department
of Energy says a pump's efficiency can degrade as much as 10 percent to 25 percent
before it is replaced. In addition, efficiencies of 50 percent to 60 percent are
quite common. However, because these inefficiencies are not readily apparent,
opportunities to save energy by repairing or replacing components and optimizing
systems are often overlooked. With self-adjusting sliding vane technology, this
energy-robbing problem is eliminated.
Pumps get an added level of protection
with the Blackmer cavitation/noise suppression liner, which controls the
wear effects of cavitation and reduces noise levels up to 15 dbA.
|
In conclusion, sliding vane technology not only reduces energy costs but also
creates a more efficient pumping system. This leading-edge technology solves everything
from seal, suction, product shear, and volumetric efficiency problems to offering
unique benefits such as leak-free assurance, line stripping capabilities, metering
and non-pulsating flow — all while saving energy. The sliding vane principle
offers efficiency at low flow rates and allows for higher operating speeds and
pressures on low viscosity fluids compared to other types of positive displacement
pumps. It's also capable of low flow, high head applications on low viscosity
fluids where centrifugal pumps can't run. Other advantages are low initial equipment
costs and easy installation and maintenance.
Bill Bohr is the director of product management at Blackmer, Grand Rapids,
MI, a leader in the design and manufacture of high-quality flow technologies including
rotary vane, eccentric disc, and peristaltic hose positive displacement pumps,
centrifugal pumps, screw compressors, air elimination systems, and sliding vane
and reciprocating compressors for the transfer of liquid and gas products. More
information is available by calling 616-241-1611 or visiting www.blackmer.com.
Advantage Business Media
Rockaway, NJ, 07866
© 2008 Advantage Business Media
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