Emerson Fisher V260 Brochure

2015-03-30

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The Silent Treatment
Fisher® Solutions to Noise Problems
Brochure Contents Page
Control Valve Noise ............................................................. 3
Science of Noise .................................................................. 4
Factors and Effects of Control Valve Noise ........................... 5
Control Valve Noise Technologies ....................................... 6
Accurate Noise Prediction ................................................... 7
Additional Selection Factors ................................................ 8
Fisher Whisper Trim I Cage ................................................ 9
Fisher Whisper Trim III Cage .............................................. 10
Fisher WhisperFlo Cage ................................................... 11
Fisher Vee-Ball Control Valve with Rotary Attenuator ...... 12
Fisher V260A Control Valve with Aerodome Attenuator .... 13
Fisher Vent Diffuser ........................................................... 14
Fisher Inline Diffuser .......................................................... 15
Quality and Value
n Broad solution offerings that have
been tested at actual field operating
conditions in the largest, most
comprehensive control valve
development center in the world.
n Products qualified to more stringent
specifications than industry-accepted
regulatory standards, so you get the best
value from plant front-end engineering
design through the operation lifecycle.
Experience and Expertise
n Applications experience that comes
from over 130 years in the process
industry and Fisher® products at work
in every major process.
n Factory-trained engineers at local
business partner and sales office locations
that consider the requirements of your
particular application and develop the
best solution.
Speed and Excellence
n Quick response to your local
needs because Fisher products are
manufactured all over the world to the
same stringent customer, project, and
industry requirements.
n Access to the ever-expanding, factory-
qualified service network that offers
services worldwide for existing control
valve installations to maintain peak valve
and plant performance.
WHEN YOU PARTNER WITH EMERSON, YOU GET:
C
ontrol valve noise is a concern for plant operators and
maintenance personnel because it can affect plant
availability and profitability. High noise levels can cause
health concerns for plant personnel and cause equipment
damage, vibration, and control issues.
Populated areas are moving closer to processing plants and
noise attenuation is crucial to avoid complaints and potential
regulatory action.
There is not one single technology or treatment that can
solve all noise issues cost effectively or efficiently. For that
reason, a wide range of Fisher noise-attenuation technologies
are available for a variety of applications. Emerson maintains
application guidelines specifically for Fisher technologies.
We would never recommend using our proprietary application
guidelines for non-Fisher technologies, nor using other
suppliers’ application guidelines for Fisher technologies.
Included in this brochure are full descriptions of Fisher
technologies complete with images, specifications, and proven
results. Emerson’s dedicated local business partners, sales
offices, and factory application engineers have experience
with noise attenuation in all industries. The following sections
summarize how several industries are affected by noise.
Control Valve Noise
The Silent Treatment | 3
Power Industry
Today’s coal and combined cycle power plants, as well as
co-generation and renewable energy plants, are subject to
the damaging effects of control valve noise. With high steam
pressures and large pressure drops comes the potential for
excessive noise and acoustic-induced vibration within the system.
Many power plants have a specification for noise levels
within the plant environment, and in some cases they are
subject to fenceline noise requirements to protect the plant’s
surrounding environment. The primary applications in power
plants where control valve noise is a concern are: main steam,
auxiliary steam, turbine bypass, and sky vent. Proper selection
of noise-attenuation technologies is critical.
Hydrocarbon Industries
Hydrocarbon industries are built on reliable, accurate process
control. Typical fluids include steam, flare gas, natural gas,
hydrogen, light hydrocarbons, and stripper gas. These fluids
are transported and processed in a variety of ways.
Applications that typically have noise issues in hydrocarbon
industries include compressor antisurge, gas to flare, and other
large pressure drop applications that are driven by chemical
reaction, thermal processes, vertical head, or compressors.
In all cases, the process equipment must be correctly sized
and selected to attain the best loop control, minimize process
variability, and deliver the best process results.
Process Industries
Process industries such as chemical, metals and mining, pulp
and paper, and food and beverage also experience noise
challenges. The use of steam is common in these industries
for a variety of applications. Large pressure drop steam
applications can be associated with noise generation.
Emerson offers Fisher control valves for all of these challenging
processes and industries. By utilizing local application
engineers and experienced design engineers, Emerson can
deliver a standard or custom solution for your process needs.
To view a video on noise, scan the QR code or go to
Fisher.com/NoiseVideo.
A Fisher noise-attenuation control valve can be built to meet the
requirements of your application. The valve shown above is NPS 36 x 42
and contains a Fisher Whisper Trim III cage.
Science of Noise
4 | The Silent Treatment
Understanding the sources of noise and the nature of noise-
generating mechanisms is the foundation for designing and
implementing effective measures to control noise.
Noise Definition
Noise is the unwanted or undesirable sound produced by
process control equipment, including control valves. Sound
is produced by fluctuating pressure waves that arise from the
flow of fluid through the control valve. The specific sources are
either mechanical or fluid structure in nature. Dominant fluid-
generated sources are specific to hydrodynamic (liquid) flow
and aerodynamic (gas or vapor) flow.
These pressure waves are characterized by both amplitude
(loudness) and frequency. Amplitude is measured in decibels
(dB), a logarithmic measure of relative sound power level.
Since the units are logarithmic in nature, a 3 dB increase
represents a doubling in sound power level. Frequency
is measured in Hertz (Hz) or pressure cycles per second.
Industrial noise levels are often expressed in a form that takes
into account human sensitivity to frequency. This is known
as “A-weighting” and the units of measure are A-weighted
decibels or dBA.
Mechanical Noise
Mechanical noise results from the physical vibration of
components in control valves such as worn plugs rattling
in cages. Sound levels generated by this type of noise are
typically in a low frequency range of less than 1,500 Hz.
Another source of mechanical noise is resonance of movable
parts within the control valve, which are characterized by a
single pitch, or tone, and may reach frequencies of 7,000 Hz.
Hydrodynamic Noise
Hydrodynamic noise occurs in liquid flows and is predominately
caused by cavitation. Cavitation consists of the formation
and collapse of vapor cavities in the flowstream. This occurs
when the pressure drops to the vapor pressure of the fluid.
The energy released in this process is converted into pressure
fluctuations that create sound waves. This noise occurs over a
wide frequency range and is often described as sounding like
gravel flowing through the pipe.
Other possible noise sources include fluid turbulence and
flashing. However, testing has shown that noise generated
from these mechanisms is generally not problematic.
For more information on hydrodynamic noise,
scan the QR code or go to Fisher.com/D351912
to download the Fisher Cavitation-Control
Technologies brochure.
Throttling across the control valve generates high turbulence.
Turbulence will eventually decrease but the acoustic pressure field
will persist.
Aeodynamic Noise Sources
The primary source of aerodynamic noise is fluid turbulence.
There are several locations where turbulence can be a problem.
Two locations of interest are within the control valve body.
First is the throttling region where the relative fluid pressure is
low and the fluid speed is high. High levels of fluid turbulence
can result from the jets formed in the control valve trim. The
second location is the region between the control valve trim
and the body wall where high speed fluid impingement can
result in significant turbulence. These two sources of noise are
called the trim or valve noise source.
Another location of interest is the region downstream of
the control valve trim. Here the velocity-related turbulence
in the control valve outlet and downstream pipe acts as
an independent noise source. In effect, there can be two
independent noise sources in each installation.
Emerson testing and IEC standards validate that significant
noise is generated by fluid expansion when control valve outlet
velocity exceeds a Mach number of 0.3.
As the fluid moves downstream through the pipe the
turbulence will decrease, however, the acoustic field persists.
Depending on the pipe diameter, material, and wall thickness,
noise at some frequencies will pass through the pipe wall (sound
transmission) and create sound waves that people can hear.
Sources of noise can be classified as either a point source or
a line source. Noise from a point source radiates in a spherical
shape from the center and sound pressure levels decrease by
6 dBA with every doubling of the distance from the source.
An example of a point source is an atmospheric vent or flare.
Noise from a line source radiates in a cylindrical shape from the
center and sound pressure levels decrease by 3 dBA for every
doubling of the distance from the source. An example of a line
source is a pipeline.
Factors and Effects of Control Valve Noise
The Silent Treatment | 5
Noise doesn’t always cause damage. The potential for noise
damage and vibration are dependent on the following factors:
n Pressure Drop and Pressure Drop Ratio – Greater drops
in pressure and higher pressure drop ratios increase the
potential for noise. The pressure drop ratio—the change in
pressure divided by the inlet pressure—is an indicator used
to determine the performance level required of the control
valve trim.
n Valve/Trim Geometry – Tortuous flow paths can increase
turbulence and noise, which can cause damage to the
control valve trim, body, and pipeline. Other factors
affecting noise include flow path size, shape, and location.
n Valve Outlet Area – High fluid velocity at Mach numbers
at or above 0.3 through the control valve outlet or pipe can
result in increased turbulence and noise. Valve outlet area
must be accounted for to obtain the most accurate noise
prediction.
n Flow Rate – Higher flow rates have a potential to increase
turbulence and noise.
n Time of Exposure – The longer an area is subject to high
vibration, the more likely it is to be damaged.
n Project Noise Assessment – Factors external to the control
valve can affect the overall noise being generated in the
plant. These factors include:
Flow Path – Orifice plates, elbows, manifolds, and
other downstream equipment can obstruct and/or
disrupt the flow. These changes generate acoustic
pressure fluctuations that can alter the intensity of
the noise.
Combined Noise Sources – Two similar noise sources
in close proximity can be up to 3 dB higher than the
greater of the two original sources.
Material, Thickness, and Diameter – Thicker and
larger diameter pipelines reduce the ability of noise to
radiate through the pipe wall and create sound waves
that people can hear.
Most regulatory agencies have placed restrictions on workplace noise
exposure. For instance, allowable sound pressure levels in the U.S. are
shown above.
Vibration Damage
Noise can cause vibration in control valves, pipe, and other
system elements. This vibration can shorten the life of your
equipment.
Environmental Noise
Noise frequencies between 20 and 20,000 Hz are audible and
can be a nuisance to plant operators, maintenance personnel,
and others who come into contact with the noise. At high
levels, noise can cause damage to human hearing and radiate
to surrounding environments where it may result in further
problems such as fines and restrictions on operations.
Control valve stem/shaft breakage is a common fatigue failure due to
heavy vibrations within the system.
Control Valve Noise Technologies
6 | The Silent Treatment
Two primary challenges face the control valve supplier:
1) effectively control unwanted noise and 2) accurately predict
the noise levels associated with a specific control valve in a
given set of operating conditions. Both of these challenges
require a deep understanding of the foregoing fundamentals.
Effective control of noise arising from mechanical sources has
been accomplished by improving control valve design and
implementing good maintenance protocols.
Controlling fluid-generated noise requires a number of
different strategies dependent on control valve style and
degree of attenuation.
Source Treatments
A principle aerodynamic strategy is to break the flow stream
into many small, parallel flow passages. Not only does this
reduce the strength of the noise source, but also shifts the
frequencies to a higher, non-problematic range. These and
other techniques are known as source treatments.
Source treatments prevent noise at its source, which can
involve the control valve. Common source treatments include
noise-attenuation control valve trims, inline diffusers, and vent
diffusers that minimize turbulence.
Emerson utilizes unique flow passage shapes and multi-stage
pressure reduction in noise-attenuation control valve trims
as source treatments. These unique flow passage shapes
reduce turbulence to minimize shock-associated noise and
place turbulent shear layers away from solid boundaries to
reduce noise. The multi-stage pressure reduction utilized
with sound engineering principles control jet size, formation,
interaction, and accommodates fluid expansion. It is important
to control these aspects of the exiting jets to reduce the noise
and vibration. Emerson has developed a variety of noise-
attenuation control valve trims that offer attenuation levels of
up to 40 dBA.
Path Treatments
In addition to eliminating noise at its source, noise levels can
be attenuated by impeding the propagation and transmission
of the sound waves. Solutions of this type are referred to as
path treatments. Path treatments help eliminate noise heard
outside of the pipe wall by increasing the resistance of the
noise path. Typical path treatments include increasing the pipe
thickness, adding acoustical or thermal insulation, or adding
inline pipe silencers. Noise levels can be decreased by as much
as 45 dBA depending on treatment and application.
The weakness of path treatments is that both the fluid stream
and the piping itself are very effective at transmitting noise;
therefore complete noise attenuation is difficult. This means
that attenuation is only effective for the area where the
treatment is applied.
Noise-Attenuation Technologies
Fisher noise-attenuation technologies, listed below, are
compatible with many Fisher control valve types.
n Whisper Trim I Cage
n Whisper Trim III Cage
n WhisperFlo Cage
n Vee-Ball Control Valve with Rotary Attenuator
n V260A Control Valve with Aerodome Attenuator
n Vent Diffusers
n Inline Diffusers
Emerson maintains application guidelines specifically for
Fisher technologies. We would never recommend using our
proprietary application guidelines for non-Fisher technologies,
nor using other suppliers’ application guidelines for Fisher
technologies.
Emerson routinely fulfills custom orders for noise solutions
not offered in the standard product line using the dedicated
application engineering team. Emerson is the only custom
control valve provider in the world who can offer the
combination of experience, control valve engineering,
research understanding, and worldwide manufacturing
capabilities. The track record of custom Fisher control valves
is proven many times over. Tens of thousands have been
produced in recent decades.
Computational fluid dynamics show jet independence from three
properly spaced holes (left). The same three holes spaced too closely
(right) show jet interaction, which leads to additional noise. Being
able to predict and control jet interaction can reduce the noise
produced by up to 40 dBA.
Accurate Noise Prediction
The Silent Treatment | 7
A top-down look at flow through Fisher WhisperFlo trim (left) using
computational fluid dynamics illustrates the independence of fluid
jets as they exit the cage. In contrast, the exit jets of some tortuous
path trims (right) impinge upon one another in pairs, creating an
additional noise source.
Emerson Innovation
You can get a larger selection of noise solutions from Emerson
because we spend more time studying control valve noise
than anyone else. Emerson studies the major sources of
control valve noise and has determined not only how to
predict noise, but also how to minimize it.
Emerson utilizes IEC 60534-8-3 for noise prediction and
is actively involved in developing the standard. The most
recent version of the IEC standard has sanctioned the use
of experimental data. We leverage our flow lab to provide
accurate aerodynamic noise data, validated through tests in
compliance with the IEC standard.
Aerodynamic noise testing is performed using real-world plant
conditions. We utilize a 3,500 psi air source and line sizes up to
NPS 36 pipe for noise testing. Control valves are flow tested in
the pipe, the aerodynamic noise is measured, and attenuation
concepts are studied to maximize noise reduction.
Noise testing of an NPS 12 vent diffuser.
There are many environmental factors that affect noise, so
isolating a test valve from other noise sources is important.
Emerson uses an acoustic test chamber to do exactly that.
The mobile, acoustic test chamber is placed around the
control valve being studied and noise measurements are taken
as defined by the IEC noise test standards.
Utilizing our world-class noise test room, we can accurately
quantify noise from devices in real-world installations. This
room allows Emerson to test a wide variety of configurations
at conditions well beyond the IEC standard.
Fisher control valve designs undergo thorough and extensive flow
testing in the 2,323 m2 (25,000 ft2) flow lab in the Emerson Innovation
Center—the largest, most comprehensive control valve development
center in the world.
Quality Manufacturing
Emerson is a pioneer in understanding noise-related problems
in control valves. Through this understanding, Emerson leads
the way in engineering and manufacturing noise control
solutions that solve a variety of problems across an assortment
of applications.
Holding tight tolerances and selecting correct materials—
which are part of a genuine Fisher solution—can extend control
valve service life. Confidence in noise solutions relies on true
OEM engineering and manufacturing specifications. Non-OEM
solutions may appear to be cost effective in the short term,
but introduce new risks of unexpected shutdowns and lost
production. Are you willing to take this risk?
Proven Results
Case histories have been written about the
noise solutions that Emerson has provided to
customers. To view them, scan the QR code or
go to Fisher.com/CaseHistories. They are listed
by industry, application, and subject.
Serving You for the Life of Your Plant
Emerson is a provider of trusted expertise for reliability-
centered control valve maintenance. A network of service
centers, manufacturing sites, local business partners, and sales
offices puts experienced professionals where and when they
are needed. Highly skilled technicians provide cost effective
maintenance, control valve reliability, and increased process
availability through flexible, local service.
Local Service and Repair
Emerson can provide immediate answers and world-class
service through a vast network of factory-trained and factory-
certified technicians. Service Centers are factory supported
to provide instant access to Emerson product manufacturing
records and engineering drawings. Service locations house
state-of-the-art equipment to address control valve problems
in a plant or process. Emerson technicians are factory
qualified with in-depth, hands-on training, safety awareness,
and ongoing education throughout their service career. A
comprehensive vehicle fleet is available to bring the right
capabilities, tools, and equipment directly to plant sites to
assist with repairs.
On Demand Services
Whether starting up a new plant or process, troubleshooting
maintenance issues, or preparing for new installations,
Emerson can help address immediate problems through
On Demand Services. Backed by years of application expertise,
Emerson service professionals provide innovative insight into
your process to maximize operation results throughout the
plant life cycle.
8 | The Silent Treatment
Additional Selection Factors
Advanced manufacturing techniques lead to consistent quality
and reduced lead-times. Laser cut disks produce tight tolerances
consistently for stacked-disk cages. The twelve spindle, high-speed
drilling machine reduces the manufacturing time for drilled-hole
cages such as Fisher Whisper Trim III.
The Silent Treatment | 9
offers proven attenuation of aerodynamic noise in
vapor, gas, or steam applications involving low to
medium pressure drops. The Whisper Trim I cage
offers economical, dependable noise attenuation in
a variety of globe and angle valve bodies. It is widely
used across all process industries, is incredibly
effective, and offers great application flexibility.
The shape, size, and spacing of the passages in the
Whisper Trim I cage reduce noise and associated
vibration across the control valve. These passages
break up turbulent fluid streams and ensure exit jet
independence, thereby reducing noise.
n Up to 18 dBA of attenuation
n ASME Class 125–900
n NPS 1–12
n Available in Fisher easy-e control valves
PROVEN RESULTS
Fisher® Whisper Trim I Cage
PRODUCTION: Steam
APPLICATION: Steam letdown
CHALLENGE: The previous general service valve generated high noise and vibration, which exceeded
fenceline noise requirements and caused process system damage.
SOLUTION: Fisher easy-e valve with a Fisher Whisper Trim I cage.
RESULTS: Reduced fenceline noise to an allowable level and eliminated vibration-related damage.
is a drilled hole trim available in a variety of control
valve sizes and styles. It delivers excellent noise
reduction for a wide range of vapor, gas, and
steam applications. The design architecture allows
for flexibility of size, pressure class, materials,
rangeability, and attenuation.
n Up to 30 dBA of attenuation
n ASME Class 150–4500
n NPS 1–42
n Available in Fisher easy-e, EW, HP, EH, FB, TBX,
and GX control valves
n Hundreds of standard constructions as well as
a readily-available process to routinely provide
custom, application-specific constructions
n Typical materials ranging from carbon, alloy, and
stainless steels to titanium
Control valves utilizing Whisper Trim III cages
reduce noise through the following three means:
n Exit Jet Independence: Parallel passages ensure
jet independence and prevent additional noise.
n Frequency Shifting: Higher frequencies are less
problematic to hearing and process systems.
n Complementary Body Design: Emerson-engineered
valve bodies prevent secondary noise sources.
PRODUCTION: Baseload fossil power
APPLICATION: Gland steam
CHALLENGE: High steam velocity at the outlet of the previous control valve plus large pressure drops
created excessive noise and vibration, which posed a serious risk of stress or fatigue-related
damage to both the control valve and adjacent piping.
SOLUTION: Emerson-engineered Fisher NPS 2 HPS control valve with a Fisher Whisper Trim III cage.
RESULTS: Damaging noise was reduced and vibration was eliminated.
PROVEN RESULTS
Fisher® Whisper Trim III Cage
10 | The Silent Treatment
The Silent Treatment | 11
offers state-of-the-art attenuation of noise in
vapor, gas, or steam applications involving large
pressure drops. WhisperFlo trim is a laser cut,
stacked-disk cage assembly that is available in
a variety of globe and angle bodies for the most
severe applications.
n Up to 40 dBA of attenuation
n ASME Class 125–2500
n NPS 4–42
n Available in Fisher easy-e, EW, FB, HP, and TBX
control valves
n Customized flow characteristic for your
specific application
Every WhisperFlo cage assembly provides noise
attenuation across the following six areas:
n Unique Passage Shape: Reduces acoustic
efficiency and turbulence.
n Staged Pressure Reduction: Further reduces
acoustic efficiency.
n Exit Jet Independence: Parallel passages ensure
jet independence and prevent additional noise.
n Frequency Shifting: Higher frequencies are less
problematic to hearing and process systems.
n Velocity Management: Accommodates natural
fluid expansion.
n Complementary Body Design: Emerson-engineered
valve bodies prevent secondary noise sources.
PRODUCTION: Liqueed natural gas (LNG)
APPLICATION: Compressor antisurge
CHALLENGE: The high ow rate experienced by the previous antisurge control valve generated
unacceptable noise and vibration levels, posing a risk to process availability.
SOLUTION: Fisher FBT valve with a Fisher WhisperFlo cage, Fisher 585CLS actuator, and Fisher antisurge
accessory package.
RESULTS: Damaging noise and associated vibration were reduced to a safe level, while maintaining
high turndown and fast stroking speed, which re-established process availability.
PROVEN RESULTS
Fisher® WhisperFlo Cage
Closeup View of
WhisperFlo Cage Section
12 | The Silent Treatment
combines the efficiency of a rotary valve with noise control trim to provide improved performance for demanding applications.
This design is used to reduce aerodynamic noise for steam, gas, and vapor applications. The Vee-Ball control valve features an
attenuator welded on the back of the V-notch ball, which separates the flow into multiple smaller jets, reducing flow turbulence.
Precise contouring of the V-notch ball provides an approximately equal percentage inherent flow characteristic, which is optimal
for most flow control applications.
n Up to 10 dBA of attenuation
n ASME Class 150–600
n NPS 4–20
PRODUCTION: Ethylene
APPLICATION: Steam pressure-reducing valve
CHALLENGE: The previous control valve experienced excessive noise due to a demanding ow and pressure
drop application.
SOLUTION: Fisher NPS 12 Vee-Ball control valve with rotary attenuator.
RESULTS: Field noise measurements indicated the rotary attenuator achieved attenuation of -8 to
-10 dBA, which was on target with the customer requirement.
PROVEN RESULTS
Fisher® Vee-Ball Control Valve with Rotary Attenuator
The Silent Treatment | 13
is designed for gas and vapor service to help eliminate or reduce noise and vibration. The V260A is a full bore ball valve designed
with features for optimized pressure, flow, and process control. The integral, drilled Aerodome attenuator controls noise and
vibration from large pressure drop and high flow processes.
The V260A ball valve is available with single or dual-stage Aerodome attenuator configurations that provide a variety of noise
reduction levels.
The Aerodome attenuator is active throughout the ball rotation for very demanding services or a characterized attenuator (as shown)
is used to match specific service conditions.
n Up to 25 dBA of attenuation
n ASME Class 300–900
n NPS 8–24
n Large pressure drops
PRODUCTION: Gas transmission
APPLICATION: Pressure control to distribution service
CHALLENGE: The previous control valve suffered excessive noise and vibration, which caused damage.
SOLUTION: Fisher NPS 8 V260A control valve with characterized Aerodome attenuator.
RESULTS: Resolved the noise and vibration that were attributed to an unattenuated control valve design.
PROVEN RESULTS
Fisher® V260A Control Valve with Aerodome Attenuator
14 | The Silent Treatment
offers proven noise attenuation in steam, gas, or
vapor venting applications. A vent diffuser places
backpressure on the control valve while venting
process to the atmosphere.
The Fisher vent diffuser shares the total system
pressure drop with the vent valve. The benefits are:
1) the vent valve noise is reduced and 2) the noise
at the atmospheric vent point is reduced.
n Up to 40 dBA of system noise attenuation
n ASME Class 150–2500
n Inl et sizes NPS 2–26
n End connections include raised-face flange,
ring-type joint flange, or buttweld end
n Optional outer shell directs the vented process
away from components and personnel
PROVEN RESULTS
Fisher® Vent Diffuser
PRODUCTION: Combined cycle power plant
APPLICATION: Sky vent
CHALLENGE: Noise and vibration occurred during high flow venting of the heat recovery steam generator.
SOLUTION: Engineered system of Fisher NPS 16 valve body, Fisher WhisperFlo cage, and Fisher vent diffuser.
RESULTS: Damaging noise and vibration were reduced to a safe level for plant personnel and at
the fenceline.
6010 Inline Diffuser
6011 Inline Diffuser
Whisper Disk Inline Diffuser
The Silent Treatment | 15
offers noise attenuation in vapor, gas, or steam
applications. A diffuser places back pressure on
the control valve, thereby reducing the turbulence
and pressure drop across the valve, which
are main contributors in damaging noise and
vibration. When paired with a Fisher control valve
and Whisper Trim cage, the resulting solution is
one that will provide the greatest level of noise
attenuation for the most severe application.
Specially-designed flow passages featured in all
three Fisher diffusers provide a custom-engineered
product. Furthermore, these diffusers can be placed
at almost any point in the pipe; they do not need to
be placed immediately after a control valve.
n Up to 50 dBA of system noise attenuation
n ASME Class 150–2500
n The Fisher 6010 has inlet and outlet connections
(available in sizes up to NPS 72)
n The Fisher 6011 has a wafer flange mounting
(available in sizes up to NPS 48)
n The Fisher Whisper Disk is a flat plate (available in
sizes up to NPS 36)
n Customized flow characteristic for your
specific application
PRODUCTION: Co-generation for a process plant
APPLICATION: Steam letdown
CHALLENGE: The previous control valve experienced damage from high pressure and temperature
steam letdown.
SOLUTION: Fisher HP control valve with a Whisper Trim III cage paired with a Fisher 6010 inline diffuser.
RESULTS: Staged pressure drop on the valve and diffuser effectively reduced the noise and vibration.
PROVEN RESULTS
Fisher® Inline Diffuser
D351989X012 / MX94 (H:) / Feb12
Emerson Process Management
Marshalltown, Iowa 50158 USA
Sorocaba, 18087 Brazil
Chatham, Kent ME4 4QZ UK
Dubai, United Arab Emirates
Singapore 128461 Singapore
www.FisherSevereService.com
© 2012 Fisher Controls International LLC. All rights reserved.
Fisher, WhisperFlo, Whisper Trim, Vee-Ball, and easy-e are marks owned by one of the companies in the
Emerson Process Management business unit of Emerson Electric Co. Emerson Process Management,
Emerson, and the Emerson logo are trademarks and service marks of Emerson Electric Co. All other
marks are the property of their respective owners.
The contents of this publication are presented for informational purposes only, and while every
effort has been made to ensure their accuracy they are not to be construed as warranties or
guarantees, express or implied, regarding the products or services described herein or their use or
applicability. All sales are governed by our terms and conditions, which are available upon request.
We reserve the right to modify or improve the designs or specications of such products at any
time without notice. Neither Emerson, Emerson Process Management, nor any of their afliated
entities assumes responsibility for the selection, use, or maintenance of any product. Responsibility
for proper selection, use, and maintenance of any product remains solely with the purchaser and
end user.
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