How to Diagnose ABS Problems in your Audi from Certified Mechanics in PowellAuto Assets
Audi is one of the most sought after luxury car in the world due to its powerful performance and impressive design. Your Audi comes equipped with many advanced features for the safety and smooth running of the car. The ABS system in your Audi is responsible for proper braking of the car and preventing the wheels from locking up. If there is a problem with the ABS system, it needs to be fixed immediately. Go through the slide to know the ways to diagnose ABS problems in your Audi.
Good drivers are both common and uncommon. It is possible you might encounter rash teenagers to truck drivers to overly-cautious senior citizens; yet all contribute to how we can learn to be better drivers.
Back injuries – injuries to the spine and surrounding soft tissues – are common following a motor vehicle accident or other traumatic event. There are many different kinds of spinal and soft-tissue injuries that can be obtained. A soft tissue injury is an injury to the soft tissues of the body – the muscles, ligaments and tendons. A joint is where two bones meet. The joints in the spine are called facet joints. The facet joints allow the bones of the spine to glide smoothly through a range of motions. Injury to the facet joint will result in the joint becoming stiff, swollen, and tender. A soft tissue injury or spinal injury can result in permanent and painful nerve damage if swelling caused by the primary injury (e.g., a herniated or bulging disc) causes compression on the nerve.
10 tips for answering difficult deposition or cross examination questionsJames Publishing
A soft tissue injury or spinal injury can result in permanent and painful nerve damage if swelling caused by the primary injury (e.g., a herniated or bulging disc) causes compression on the nerve. Here are common types of tricky questions with tips and examples of how to handle them. When asked multiple questions at one time, ask for a clarification or be clear which part you are responding to. Leading questions (questions that suggest how you are supposed to answer) should be expected, but do not assume the “facts” included in the question are true. When asked to describe what you saw, heard, or experienced, use factual statements. Avoid opinions and personal attacks. If asked a question with poorly defined or vague terms, ask for clarification. Request that complex questions (such as double negatives) be clarified before responding. If asked a question that is argumentative, try to answer the question without getting angry.
Settlement, Trial, and Appeal a Few Key Facts Every Plaintiff Should KnowRussell & Lazarus
As you begin your personal injury case, here are some basic facts about settlement offers, trial, post-trial motions, and appeals that you should understand.
Settling Your Case
Your personal injury attorney may be able to settle your case without a trial (and sometimes without even a lawsuit).
You Have a Right to Reject Any Settlement Offer
Your attorney cannot settle your case unless you approve and consent. If you are not satisfied with the settlement offer, you have a right to let the jury decide your case.
Law firm and non-legal vendor selection and assignment is an integral part of efficient case management protocols in any law department, insurance/tpa claims or risk management operation
4 factors that influence jurors and insurers in auto accident casesJames Publishing
There are 4 major factors that influence jurors and insurers in automobile accident cases. They will consider the following in your case: Which driver had the best chance to avoid the accident? Which driver had the most options from preventing the accident? What does the investigating officer say? What do the eyewitnesses say? These 4 components will greatly influence both the jurors and insurers in your case, it is important to know the answer to these questions and be able to articulate them.
If you have been injured by the unreasonable carelessness (i.e., the “negligence”) of another person or entity, you may be entitled to a sum of money to compensate you for the harm done to you. You may be wondering how much compensation you are entitled to, or how much your case is worth. There are factors that will determine the value of your soft-tissue injury case. The nature and severity of your injuries, the impact of your injuries, your pain and suffering, medical expenses, employment, and the recovery of damages can all be factors in determining a value to your case.
The Model DAFA Air Flow Indicator and Alarm alerts users of low or no air flow conditions in pipes utilizing a thin, field trimmable vane to sense the air flow rate. An 85 dB audible buzzer alternates with a bright red LED to alert users when the air flow rate drops, indicating low or no flow in the pipe. The DAFA is battery powered to provide versatility for where it can be installed, and offers a yellow LED to indicate a low battery. This device is ideal for monitoring radon mitigation systems by detecting a loss of air flow in the pipe and providing a signal to homeowners if the fan has stopped operating.
To place an order or learn more, please visit the Dwyer website at https://dwyer-inst.com/modeldafa.html
The Series PMT2 is a transmitting device that senses the current generated by particles as they pass by the sensing probe. The current level is correlated to the amount of particles in the air stream, and thus the PMT2 output (4-20mA loop signal) can provide a representation of the particulate in the duct.
Learn more or order at https://dwyer-inst.com/series-pmt2-particulate-transmitter.html
How to Diagnose ABS Problems in your Audi from Certified Mechanics in PowellAuto Assets
Audi is one of the most sought after luxury car in the world due to its powerful performance and impressive design. Your Audi comes equipped with many advanced features for the safety and smooth running of the car. The ABS system in your Audi is responsible for proper braking of the car and preventing the wheels from locking up. If there is a problem with the ABS system, it needs to be fixed immediately. Go through the slide to know the ways to diagnose ABS problems in your Audi.
Good drivers are both common and uncommon. It is possible you might encounter rash teenagers to truck drivers to overly-cautious senior citizens; yet all contribute to how we can learn to be better drivers.
Back injuries – injuries to the spine and surrounding soft tissues – are common following a motor vehicle accident or other traumatic event. There are many different kinds of spinal and soft-tissue injuries that can be obtained. A soft tissue injury is an injury to the soft tissues of the body – the muscles, ligaments and tendons. A joint is where two bones meet. The joints in the spine are called facet joints. The facet joints allow the bones of the spine to glide smoothly through a range of motions. Injury to the facet joint will result in the joint becoming stiff, swollen, and tender. A soft tissue injury or spinal injury can result in permanent and painful nerve damage if swelling caused by the primary injury (e.g., a herniated or bulging disc) causes compression on the nerve.
10 tips for answering difficult deposition or cross examination questionsJames Publishing
A soft tissue injury or spinal injury can result in permanent and painful nerve damage if swelling caused by the primary injury (e.g., a herniated or bulging disc) causes compression on the nerve. Here are common types of tricky questions with tips and examples of how to handle them. When asked multiple questions at one time, ask for a clarification or be clear which part you are responding to. Leading questions (questions that suggest how you are supposed to answer) should be expected, but do not assume the “facts” included in the question are true. When asked to describe what you saw, heard, or experienced, use factual statements. Avoid opinions and personal attacks. If asked a question with poorly defined or vague terms, ask for clarification. Request that complex questions (such as double negatives) be clarified before responding. If asked a question that is argumentative, try to answer the question without getting angry.
Settlement, Trial, and Appeal a Few Key Facts Every Plaintiff Should KnowRussell & Lazarus
As you begin your personal injury case, here are some basic facts about settlement offers, trial, post-trial motions, and appeals that you should understand.
Settling Your Case
Your personal injury attorney may be able to settle your case without a trial (and sometimes without even a lawsuit).
You Have a Right to Reject Any Settlement Offer
Your attorney cannot settle your case unless you approve and consent. If you are not satisfied with the settlement offer, you have a right to let the jury decide your case.
Law firm and non-legal vendor selection and assignment is an integral part of efficient case management protocols in any law department, insurance/tpa claims or risk management operation
4 factors that influence jurors and insurers in auto accident casesJames Publishing
There are 4 major factors that influence jurors and insurers in automobile accident cases. They will consider the following in your case: Which driver had the best chance to avoid the accident? Which driver had the most options from preventing the accident? What does the investigating officer say? What do the eyewitnesses say? These 4 components will greatly influence both the jurors and insurers in your case, it is important to know the answer to these questions and be able to articulate them.
If you have been injured by the unreasonable carelessness (i.e., the “negligence”) of another person or entity, you may be entitled to a sum of money to compensate you for the harm done to you. You may be wondering how much compensation you are entitled to, or how much your case is worth. There are factors that will determine the value of your soft-tissue injury case. The nature and severity of your injuries, the impact of your injuries, your pain and suffering, medical expenses, employment, and the recovery of damages can all be factors in determining a value to your case.
The Model DAFA Air Flow Indicator and Alarm alerts users of low or no air flow conditions in pipes utilizing a thin, field trimmable vane to sense the air flow rate. An 85 dB audible buzzer alternates with a bright red LED to alert users when the air flow rate drops, indicating low or no flow in the pipe. The DAFA is battery powered to provide versatility for where it can be installed, and offers a yellow LED to indicate a low battery. This device is ideal for monitoring radon mitigation systems by detecting a loss of air flow in the pipe and providing a signal to homeowners if the fan has stopped operating.
To place an order or learn more, please visit the Dwyer website at https://dwyer-inst.com/modeldafa.html
The Series PMT2 is a transmitting device that senses the current generated by particles as they pass by the sensing probe. The current level is correlated to the amount of particles in the air stream, and thus the PMT2 output (4-20mA loop signal) can provide a representation of the particulate in the duct.
Learn more or order at https://dwyer-inst.com/series-pmt2-particulate-transmitter.html
The Series WE08 incorporates a full port 2-piece brass ball valve for great flow rates with minimal pressure drop. The valve features a blowout proof stem for added safety, reinforced PTFE seats and seals for longer life, and a brass ball for better performance. Actuators are direct mounted creating a compact assembly for tight spaces. The Series WE08 can be configured with either an electric or pneumatic actuator. Electric actuators are available in weatherproof or explosion-proof, a variety of supply voltages, and two-position or modulating control. Two-position actuators use the supply voltage to drive the valve open or closed, while the modulating actuator accepts a 4 to 20 mA input for valve positioning. Actuators feature thermal overload protection and permanently lubricated gear train.
The pneumatic double acting actuator uses an air supply to drive the valve open and closed. The actuator has two supply ports, with one driving the valve open and the other driving the valve closed. Spring return pneumatic actuators use the air supply to open the valve and internally loaded springs return the valve to the closed position. Also, between the air supply ports for opening and closing the valve, actuators are constructed of anodized and epoxy coated aluminum for years of corrosion free service.
To place an order or learn more, please visit the Dwyer website at https://dwyer-inst.com/serieswe08.html
Series DP3 Wireless Differential Pressure ManometerDwyer Instruments
The Series DP3 Wireless Differential Pressure Manometer is a compact, highly accurate, auto-ranging differential pressure manometer ideal for low flow applications. The Series DP3 is used in conjunction with the Dwyer Mobile Meter® application software to view pressure drop across filters, static pressure in ducts, and velocity pressures from pitot tubes or air flow stations.
Learn more or order at https://dwyer-inst.com/series-dp3.html
Series IS/PX/TX Insite™ Air/Liquid In-Line FlowmeterDwyer Instruments
The Series IS/PX/TX Insite™ Air/Liquid In-Line Flowmeter is available in a variety of materials including PVC, Aluminum, Brass, or 316 stainless steel. The variety of optional materials allows the flowmeters to be used in many different applications. The Series INSITE Flowmeters are also available with an optional field adjustable reed switch for high and low alarms.
To learn more about the Series IS/TX/PX INSITE™ Flowmeter, please visit the Dwyer website at: https://www.dwyer-inst.com/Product/SeriesIS-PX-TX
Dwyer Carbon Dioxide and Temperature Transmitters accurately monitor the CO2 concentration and temperature in indoor environments to help achieve energy savings. For increased sensor accuracy, a single beam dual wavelength nondispersive infrared (NDIR) sensor is used to automatically correct the measurement in both occupied and unoccupied buildings against light source aging effects. The single beam dual wavelength sensor technology provides the highest level of accuracy compared to Automatic Baseline Correction methods which can unintentionally shift the calibration based on CO2 levels and barometric pressure conditions.
To place an order or learn more, please visit http://www.dwyer-inst.com/Product/AirQuality/CarbonDioxideTransmitters
The Series PMI Particulate Matter Transmitter is designed to measure indoor air quality by detecting particulate matter in an office environment or HVAC duct. Using laser scattering technology, the Series PMI can measure particles as small as 0.3 µm, making it an essential component of any indoor air quality monitoring system. The optional relay combined with the settable alarm and control parameters allow the Series PMI to be a stand-alone controller.
To learn more or order, please visit https://www.dwyer-inst.com/Product/AirQuality/IndoorAirQualityTransmitter/SeriesPMI
Series RSMC StabiliSENSE™ Critical Room Status MonitorDwyer Instruments
The Series RSMC StabiliSENSE™ Critical Room Status Monitor is designed for critical low differential pressure applications that require stringent pressure monitoring and alarming. It can be configured to monitor positive or negative pressure in clean rooms, hospital isolation rooms, school nurses offices, laboratories, and vivariums. The RSMC is a complete system with a touchscreen graphical user interface which enables access to pressure, humidity, temperature, air change, security, door status, calibration, and alarm setup. The graphical display color changes allow a clear determination of when the parameters are operating within the acceptable range (green), caution range (yellow), or have gone outside the acceptable operating range (red). The RSMC StabiliSENSE™ critical room status monitor comes standard with BACnet MS/TP and Modbus® RTU communications.
To learn more or order, please visit https://www.dwyer-inst.com/Product/SeriesRSMC#literature
The Series RSME Room Status Monitor is designed for low differential pressure applications that require stringent pressure monitoring and alarming. It can be configured to monitor positive or negative pressure in clean rooms, hospital isolation rooms, laboratories, and vivariums. The RSME is a complete system with a touchscreen graphical user interface which enables access to pressure, humidity, temperature, air change, security, door status, calibration, and alarm setup. The graphical display color changes allow a clear determination of when the parameters are operating within the acceptable range (green), caution range (yellow), or have gone outside the acceptable operating range (red). The RSME room status monitor comes standard with BACnet MS/TP and Modbus® RTU communications.
To learn more or order, please visit https://www.dwyer-inst.com/Product/Pressure/RoomStatusMonitors/SeriesRSME
Series MSX and MSX Pro Magnesense® Differential Pressure TransmittersDwyer Instruments
The Series MSX and MSX Pro Magnesense® differential pressure transmitters are ideal for monitoring building control applications. With enhanced accuracy and stability, the MSX Pro is also suitable for high performance, critical environments.
To learn more or order, please visit https://info.dwyer-inst.com/msx-msxpro
Model CMS300 Carbon Monoxide Transmitter and SwitchDwyer Instruments
The Carbon Monoxide Transmitter and Switch, Model CMS300, provides a field selectable current or voltage output that is proportional to the carbon monoxide concentration in underground parking garages, vehicle maintenance facilities, or mechanical rooms. An integral relay can be used for alarm conditions and is configured with preset jumper selectable ranges of 25, 60, or 150 PPM. Field calibration can be done by using calibration gas, a calibration adapter, and the on board zero and span potentiometers.
Learn more or order at http://www.dwyer-inst.com/Product/AirQuality/CarbonMonoxideTransmitters/ModelCMS300
Series RHPLC Wall Mount Humidity/Temperature TransmitterDwyer Instruments
The Series RHPLC Wall Mount Humidity/Temperature Transmitter is a compact economical sensor for the building automation market space. The stylish housing is well vented to provide air flow across the sensor to improve measurement accuracy. Each unit utilizes a capacitive polymer sensing element to deliver a proportional analog output. A combination humidity and temperature model can be configured with current, voltage, RTD, or thermistor output. A wide selection of passive RTD or thermistor temperature sensors are available in this series.
Learn more or order at www.dwyer-inst.com/Product/AirQuality/Humidity-TemperatureTransmitters/SeriesRHPLC
Dwyer is a global leader in designing and manufacturing innovative controls, sensors, and instrumentation solutions for the HVAC and process automation industries. They have over 650 technical patents, a 99.5% on-time delivery rate, and have won numerous awards for their innovative products. Dwyer offers solutions for applications such as building automation, HVAC systems, powder and bulk handling, water and wastewater treatment, and valve automation.
This document provides a selection guide for various pressure gauges, switches, transmitters, and transducers. It lists product series, measurement ranges, accuracy, materials, temperature and pressure limits, outputs, connections, and other specifications to help compare similar products for different applications. The guide contains information on over 20 product series to assist in choosing the best option.
Compact Differential Pressure Transmitters: Series 668B/DDwyer Instruments
The 668B/D is a compact differential pressure transmitter that measures extremely low pressure ranges down to 0.1" w.c. It features current or voltage outputs, front or bottom pressure connections, and protection from overpressure and incorrect wiring. It is designed for HVAC applications such as measuring pressure differences in clean rooms, duct static pressure, and monitoring variable air volume systems and air filters.
O documento descreve sensores de CO2 que usam tecnologia NDIR (infravermelho não dispersivo). Os sensores NDIR medem o CO2 com alta precisão usando espectroscopia infravermelha, onde diferentes moléculas absorvem comprimentos de onda específicos. Os sensores Dwyer usam uma fonte de luz infravermelha, câmara de amostra, filtro e detector para medir a absorção de CO2 e calcular sua concentração.
O documento descreve termos-anemômetros, que são instrumentos que medem velocidade do ar usando sensores térmicos ou de fio quente. Eles incluem modelos fixos para monitoramento contínuo e portáteis para teste, e medem velocidade do ar baseados no efeito de resfriamento dos sensores quando expostos ao fluxo de ar. Termos-anemômetros oferecem boa detecção de baixas velocidades e resposta rápida.
O documento descreve o funcionamento de placas de orifício para medição de fluxo. Placas de orifício medem o fluxo de um fluido através da placa detectando a queda de pressão causada pela restrição. A queda de pressão é proporcional à taxa de fluxo de acordo com o princípio de Bernoulli, permitindo a medição do fluxo.
O documento descreve os principais aspectos dos sensores de temperatura do tipo termopar. Termopares medem a diferença de temperatura entre suas junções quente e fria baseada no efeito Seebeck, gerando uma tensão proporcional à temperatura. Os mais comuns são os tipos K e J, feitos de metais diferentes, com cada tipo adequado a determinada faixa de temperatura.
Este documento fornece uma visão geral dos medidores de fluxo térmico de dispersão. Eles usam um elemento de sensor de temperatura aquecido para medir o fluxo com base na taxa de resfriamento, oferecendo maior confiabilidade e vida útil em comparação com medidores de fluxo mecânicos. Os medidores de fluxo térmico de dispersão são omnidirecionais e causam menor queda de pressão.
2. Control Valve Sizing
O v e r v i e w
C o n t r o l v a l v e s a r e u s e d t o c h a n g e p r o c e s s c o n d i t i o n s s u c h a s
f l o w, t e m p e r a t u r e , l e v e l , a n d p H
A c o m p l e t e c o n t r o l s y s t e m w o u l d i n c l u d e
a s e n s o r, c o n t r o l l e r, p o s i t i o n e r o r c u r r e n t
t o p r e s s u r e t r a n s d u c e r, a n d c o n t r o l v a l v e
G l o b e v a l v e s , s u c h a s D w y e r ’s H i - F l o w
S e r i e s , a r e a v e r y c o m m o n t y p e o f
c o n t r o l v a l v e
I n t h e e x a m p l e s h o w n , a H i - F l o w Va l v e i s
c o n t r o l l i n g t e m p e r a t u r e b y v a r y i n g t h e
a m o u n t s t e a m o r c o l d w a t e r a d d e d t o t h e p r o c e s s
3. Control Valve Sizing
O v e r v i e w
I t i s e s s e n t i a l t o c o r r e c t l y s i z e a c o n t r o l v a l v e f o r t h e
a p p l i c a t i o n , o r t h e p r o c e s s w i l l n o t
w o r k e f f e c t i v e l y o r e f f i c i e n t l y
A c o n t r o l v a l v e i s a l w a y s s e l e c t e d
a c c o r d i n g t o t h e a p p l i c a t i o n f l o w
r e q u i r e m e n t , n o t t h e l i n e s i z e i t
i s i n s t a l l e d i n
4. Control Valve Sizing
O v e r v i e w
A l l c o n t r o l v a l v e s h a v e a r a t e d f l o w c a p a c i t y e x p r e s s e d a s t h e C v
r a t i n g
C v, i s t h e v a l v e f l o w c o e f f i c i e n t , a n d i s t h e n u m b e r o f U S g a l l o n s
p e r m i n u t e , o f 6 0 d e g r e e F a h r e n h e i t w a t e r, t h a t w i l l p a s s t h r o u g h
a f u l l y o p e n v a l v e , w i t h a 1 p s i p r e s s u r e d r o p
F o r e x a m p l e , a H i - F l o w v a l v e w i t h a C v r a t i n g o f 1 0 . 7 5 , w i l l p a s s
1 0 . 7 5 g a l l o n s p e r m i n u t e o f w a t e r w i t h a p r e s s u r e d r o p o f 1 p s i
a c r o s s t h e v a l v e
5. Control Valve Sizing
O v e r v i e w
To s e l e c t t h e p r o p e r v a l v e f o r t h e a p p l i c a t i o n , i t i s n e c e s s a r y t o
c a l c u l a t e t h e n e e d e d f l o w c a p a c i t y, o r C v
T h e n e c e s s a r y C v, w i l l b e d e p e n d e n t u p o n t h e p r e s s u r e d r o p
a c r o s s t h e v a l v e
T h e g r e a t e r t h e p r e s s u r e d r o p t a k e n a c r o s s t h e v a l v e , t h e g r e a t e r
t h e f l o w t h r o u g h t h e v a l v e
H o w m u c h p r e s s u r e d r o p s h o u l d b e t a k e n d e p e n d s o n t h e
a p p l i c a t i o n n e e d s , a n d t h e p r e s s u r e a v a i l a b l e
T h e r e q u i r e d a p p l i c a t i o n C v i s c a l c u l a t e d w i t h d i f f e r e n t f o r m u l a s
a c c o r d i n g t h e m e d i u m t y p e : l i q u i d , g a s , o r s t e a m
6. Control Valve Sizing
O v e r v i e w
F o r G a s , u s e t h e e q u a t i o n s h o w n
C v i s d e p e n d e n t o n u p s t r e a m p r e s s u r e ,
d o w n s t r e a m p r e s s u r e ,
p r e s s u r e d r o p t a k e n , v o l u m e t r i c
f l o w r a t e n e e d e d , t e m p e r a t u r e ,
a n d s p e c i f i c g r a v i t y
7. Control Valve Sizing
O v e r v i e w
I f t a k i n g g r e a t e r t h a n 5 0 % o f t h e u p s t r e a m p r e s s u r e f o r p r e s s u r e
d r o p , u s e t h e s h o w n s i m p l i f i e d e q u a t i o n :
8. Control Valve Sizing
O v e r v i e w
H e r e i s a n e x a m p l e c a l c u l a t i o n f o r a g a s a p p l i c a t i o n :
9. Control Valve Sizing
O v e r v i e w
F o r s t e a m , u s e t h e e q u a t i o n s h o w n
C v i s d e p e n d e n t o n u p s t r e a m p r e s s u r e ,
d o w n s t r e a m p r e s s u r e , p r e s s u r e d r o p
t a k e n , a n d m a s s f l o w r a t e n e e d e d
10. Control Valve Sizing
O v e r v i e w
I f t a k i n g g r e a t e r t h a n 5 0 % o f t h e u p s t r e a m p r e s s u r e f o r p r e s s u r e
d r o p , u s e t h e s h o w n s i m p l i f i e d e q u a t i o n :
11. Control Valve Sizing
O v e r v i e w
H e r e i s a n e x a m p l e c a l c u l a t i o n f o r a s t e a m a p p l i c a t i o n :
12. Control Valve Sizing
O v e r v i e w
F o r l i q u i d s e r v i c e , t h e p r e s s u r e d r o p m u s t n o t e x c e e d 5 0 % o f t h e
u p s t r e a m p r e s s u r e
U s e t h e e q u a t i o n s h o w n w i t h C v d e p e n d e n t
o n u p s t r e a m p r e s s u r e , d o w n s t r e a m p r e s s u r e ,
p r e s s u r e d r o p t a k e n , v o l u m e t r i c f l o w r a t e
n e e d e d , a n d s p e c i f i c g r a v i t y
13. Control Valve Sizing
O v e r v i e w
O n c e t h e r e q u i r e d C v i s d e t e r m i n e d , s e l e c t i o n o f t h e p r o p e r s i z e
c o n t r o l v a l v e c a n b e o b t a i n e d b y c o m p a r i n g t h e c a l c u l a t e d
a p p l i c a t i o n r e q u i r e d C v t o t h e C v v a l u e s f o r t h e H i - F l o w v a l v e s
To s i z e p r o p e r l y, i t i s b e s t t o i n c r e a s e t h e r e q u i r e d C v b y 1 0 t o
1 5 % t o a c c o u n t f o r d i f f e r e n t o p e r a t i n g c o n d i t i o n s
A l s o , t h e m i n i m u m r e q u i r e d c o n t r o l l a b l e f l o w s h o u l d f a l l i n
w i t h i n t h e r a n g e a b i l i t y o f t h e v a l v e
T h e r a n g e a b i l i t y o f t h e H i - F l o w v a l v e s i s 5 0 t o 1
14. Control Valve Sizing
O v e r v i e w
F o r e x a m p l e , i f a H i - F l o w v a l v e w a s c h o s e n w i t h a C v o f 1 0 . 7 5 ,
t h e n t h e m i n i m u m c o n t r o l l a b l e C v w o u l d b e 1 0 . 7 5 d i v i d e d b y 5 0
o r 0 . 2 1 5
T h e C v v a l u e s f o r t h e H i g h F l o w v a l v e s a r e s h o w n o n c a t a l o g
p a g e s a n d i n s t r u c t i o n m a n u a l s o n t h e D w y e r w e b s i t e
15. Control Valve Sizing
O v e r v i e w
T h e C v v a l u e s f o r t h e H i - F l o w v a l v e s w i t h f u l l p o r t s a n d l i n e a r
c h a r a c t e r i s t i c s a r e s h o w n b e l o w