What is positive displacement circulate meter?

Positive displacement (PD) move meters are flow meters that present excessive accuracy (±0.1% of actual flow in some cases) and good repeatability (up to zero.05% of reading). These meters require no energy provide to operate and no direct upstream or downstream piping for set up. They are nicely suited for flow measurement of viscous fluids, corresponding to oils, fuels and solvents, that are troublesome to measure with other kinds of move meters.
PD flow meters are most widely used in house water meters, with tens of millions of these models produced annually. Volumetric flow meters can be used for clear, sanitary and corrosive fluids corresponding to water and meals, in addition to some gases. They are often most relevant when high accuracy at a reasonable value is required.
How does a constructive displacement circulate meter work?

Positive displacement flow meter expertise is the one circulate measurement know-how that immediately measures the quantity of fluid passing by way of the meter. Volumetric flowmeters do this by repeatedly intercepting fluid to measure its move rate. This course of may be considered repeatedly filling a bucket with fluid before pouring the contents downstream. The number of times the bucket is stuffed and emptied indicates the move rate by way of the flowmeter. There are many volumetric flow meter geometries available.
Retention is usually achieved utilizing rotating parts that type a moving seal between each other and/or the flowmeter body. In most designs, the rotating elements have tight tolerances so that these seals forestall fluid from passing via the flowmeter without being measured (sloshing). In some volumetric flowmeter designs, bearings are used to assist the rotating parts. Rotation could be sensed mechanically or by detecting the movement of the rotating parts. As extra fluid flows, the rotating elements rotate proportionally faster. The transmitter processes the signal generated by the rotation to find out the circulate price of the fluid. Some volumetric move meters have mechanical registers that present the total move rate on a neighborhood display.
Features

Suitable for smaller line sizes, low flow charges, excessive viscosities and lengthy durations, particularly for oils. The disadvantages are that there are shifting components to wear, upkeep required, extra impurities, and never as up to date as other technologies with new protocols, etc.
Accuracy: One of the primary benefits of using PD flow meters is the excessive accuracy they provide, the excessive accuracy of the inner elements means keeping the clearances between the sealing surfaces to a minimal. The smaller these clearances are, the higher the accuracy related to them. Only fluids that can bypass this seal are not accounted for, that is called “bypass” or “sloshing”.
Range and repeatability: Another benefit is that flow meters can handle a extensive range of viscosities, and it is not uncommon to experience greater levels of accuracy when dealing with excessive viscosity fluids, merely due to the discount of bypasses. When contemplating and comparing flowmeter accuracy, it is important to understand “linearity”; i.e., the ability of the meter to accurately measure the complete regulation ratio, and “repeatability”, i.e., the flexibility to stay accurate over multiple cycles. This is one other area the place PD move meters excel, with 0.02% repeatability and 0.5% linearity being commonplace.
Reliability: If the best circulate meter is selected for an utility, it might be anticipated to function properly for a few years. Meters are often despatched for restore and recalibration which have been in the field for 10 and typically 20 years of steady use. This reliability is due in giant part to the fact that the same proven know-how has been in use for greater than 60 years, permitting major advances to be targeted on tribology and reaching the required accuracy at a reasonable price.
Low maintenance: The really helpful maintenance stage is strongly influenced by the application. For instance, if the flow meter is dealing with a fluid with lubricating properties (i.e. oil), routine maintenance could be nearly eradicated. However, if เกจวัดแรงดัน has poor lubrication properties, then it’s best to debate maintenance requirements together with your distributor.
It could be very uncommon that any upkeep on a optimistic displacement flow meter is more frequent than other equipment inside the identical system and can be scheduled on the similar time, thus minimizing downtime.
Types of displacement circulate meters

The operation of a volumetric (PD) flow meter consists of separating the liquid into exactly measured increments and persevering with to maneuver. Each section is counted by a connection register. Because each increment represents a discrete volume, constructive displacement models are in style in automated batching and accounting functions. Volumetric circulate meters are perfect for measuring the flow of viscous liquids or the place a easy mechanical instrumentation system is required.
Positive displacement flow meters for liquids or chapter-action disc meters

Chapter-action disc meters are the most typical type of PD meter. They are used as residential water meters around the globe. As water flows through the metering chamber, it causes the disc to oscillate (chapter motion), which turns the spindle, which rotates the magnet. This magnet is coupled to a mechanical register or pulse transmitter. Because the meter captures a set amount of fluid each time the spindle rotates, the move price is proportional to the speed of rotation of the spindle.
Oscillating piston flowmeter

Oscillating piston move meters are typically used in viscous fluid providers, corresponding to oil metering on engine take a look at stands, the place the regulation ratio just isn’t crucial. These meters are also used in residential water service and may move a restricted amount of dirt, such as pipe scale and fantastic sand (i.e. -200 mesh or -74 micron), however not giant particles or abrasive solids.
Elliptical Gear and Convex Angle Gauges

The elliptical gear partial discharge meter makes use of two fine-tooth gears, one mounted horizontally and the opposite vertically, with the gears meshing on the tip of the vertical gear and the middle of the horizontal gear. The two rotors rotate relative to one another, thereby creating interception in the crescent-shaped gap between the housing and the gears. These gauges could be very correct if the slippage between the housing and gear is kept small. If the process fluid viscosity is bigger than 10 centipoise and the move price is greater than 20% of rated capability, an accuracy of zero.1% AR could be obtained. At lower circulate rates and decrease viscosities, slippage will increase and accuracy decreases to zero.5% AR or much less.
Helical meter

The Helical Meter is a volumetric system that makes use of two radially inclined helical gears to constantly trap the method fluid because it flows. The circulate forces the helical gears to rotate within the aircraft of the pipe. Optical or magnetic sensors are used to encode a sequence of pulses proportional to the rotation speed of the helical gears. The pressure required to rotate the helix is comparatively low, resulting in a relatively low strain drop compared to other PD instruments. The greatest achievable accuracy is roughly ±0.2% or rate.
Metering Pumps

Metering pumps are PD devices that additionally switch kinetic energy to the method fluid. There are three fundamental designs: peristaltic, piston and diaphragm.
Peristaltic pumps run by systematically squeezing plastic tubing through a finger or cam right into a housing, which can be used to position the tubing. These metering pumps are used in laboratories, various medical purposes, most environmental sampling techniques, and for allotting hypochlorite options. The tubing can be silicone rubber or, if a more corrosion resistant material is required, PTFE tubing can be utilized.
The piston pump delivers a fixed quantity of fluid on each “out” stroke and a exhausting and fast volume of fluid into the chamber on every “in” stroke. A examine valve prevents fluid from flowing backwards. As with all positive displacement pumps, piston pumps generate pulsating move. To minimize pulsation, multiple pistons or pulsation dampening vessels are installed. Because of the tight tolerances of the piston and cylinder liner, a flushing mechanism should be offered in abrasive functions. The measurement of the piston pump is decided by the piston displacement as well as the required circulate and discharge strain. Select a check valve (or in important functions, a double examine valve) to forestall backflow.
Diaphragm metering pumps are the most common industrial PD pumps. A typical configuration features a diaphragm, a chamber, and suction and discharge verify valves to stop backflow. The piston can be related directly to the diaphragm or can pressure hydraulic fluid to actuate the diaphragm. Maximum output pressure is approximately 125 psig. variants include bellows diaphragms, hydraulically actuated double diaphragms, and pneumatically reciprocating double diaphragms.
Gas optimistic displacement circulate meters

PD fuel circulate meters function by calculating the cut-off volume of the gasoline passing by way of, similar to the greatest way PD move meters function on liquids. The major difference is that the gas is compressible.
Diaphragm gasoline meters are mostly used to measure the circulate of natural fuel, especially for family metered consumption. The meter is manufactured from cast aluminum with a cloth-backed rubber diaphragm. The meter consists of four chambers: two diaphragm chambers on the inlet and outlet side and an inlet and outlet chamber in the meter body. The passage of the gasoline via the meter creates a stress difference between the 2 diaphragm chambers via the diaphragm chamber on the compression inlet facet and the diaphragm chamber on the enlargement outlet side. This motion alternately empties and fills the four chambers. A slide valve at the top of the instrument alternately acts on the chambers and synchronizes the motion of the diaphragms, as nicely as the crank mechanism that operates the instrument register.
High Precision Positive Displacement Systems

A high accuracy fuel meter is typically a hybrid that combines a standard constructive displacement meter with a motor drive that eliminates pressure drop throughout the meter. Balancing inlet and outlet pressures eliminates slip, leakage and gas fugitive. In a high-precision fuel meter installation, a high-sensitivity vane is used to detect differential strain and a displacement sensor is used to measure vane deflection.
How to use volumetric circulate meters?

Positive displacement flow meters measure the volumetric circulate of fluids in pipelines, corresponding to water, hydrocarbons, cryogenic liquids and chemicals. Some designs can measure fuel move, although liquid move purposes are more frequent. In liquid service, increasing viscosity reduces slip and increases the stress drop through the flowmeter. Surprisingly, underneath low move situations for a given volumetric circulate meter, accuracy can actually enhance when viscosity increases and slip decreases.
Larger pressure drops across the flow meter can prematurely wear and/or harm bearings and/or seals. Therefore, most optimistic displacement circulate meters have a maximum stress drop specification designed to restrict constructive displacement move meter bearing put on to an affordable degree. Operating the meter above the meter strain drop restrict can outcome in untimely bearing put on and catastrophic meter failure. Note that the flowmeter dimension can be elevated to cut back the stress drop in these purposes. This could considerably enhance the price, however failure to comply with this specification may be costlier in some purposes.
Be cautious, as damaged sealing surfaces can increase slippage and reduce measurement accuracy. Using a constructive displacement flowmeter in abrasive or dirty fluids may cause maintenance problems because of the potential for harm to sealing surfaces, injury to bearings, and/or clogging of the flowmeter. A filter may be required to take away dirt.
When utilizing a volumetric flowmeter, ensure that air bubbles are faraway from the fluid stream. Flow measurements made in the presence of air bubbles might be greater than the true liquid circulate as a end result of the bubble volumes are measured as if they had been a sure volume of liquid. Therefore, the presence of air bubbles and (especially) the presence of various amounts of air bubbles can adversely affect the circulate measurement associated with a volumetric move meter. Gas eliminators could additionally be required to take away air bubbles and mitigate this problem.
The flowmeter can be used for clean, sanitary, corrosive liquids corresponding to water and food, in addition to some gases. Materials of construction are necessary as a outcome of small amounts of corrosion or wear can injury sealing surfaces and adversely have an effect on measurement accuracy. In addition, all wetted parts should be considered, together with the valve body, rotating parts, bearings and gaskets.
Municipal water districts use many volumetric circulate meters to measure residential water utilization. Considering the put in base of tens of millions of houses and apartments with metered water service, this software in all probability represents one of the largest numbers of volumetric flowmeter applications worldwide.
Corrosive liquid purposes are common in chemical industrial processes and chemical feed systems used in most industries. However, other flowmeter technologies may be more appropriate for these companies.
Industries used

Oil and fuel

Water and Wastewater

Chemical

Power

Pharmaceuticals

Food and Beverage

Pulp and Paper

Metals and Mining

Aerospace

Application concerns for volumetric circulate meters

Avoid utilizing Positive displacement flowmeters in dirty fluids until fouling can be effectively removed upstream of the flowmeter. Operating these flowmeters in soiled fluids can result in clogging and elevated upkeep prices. Be cautious when choosing bearings, because the non-lubricated nature of certain fluids, impurities and dirt can increase bearing wear and maintenance prices. Note that bearings normally do not always fail catastrophically; they could decelerate and adversely affect accuracy before they cease working.
Avoid using fluids with air bubbles except they are often successfully removed. As viscosity increases, make certain that the pressure drop via the meter is appropriate. Make positive the viscosity of the working fluid is just like the viscosity of the calibration fluid, as completely different fluids exhibit totally different amounts of slip that may result in measurement errors.
More articles on flow meters:
Working precept of rotameter

Ultrasonic move meter working principle

What is doppler circulate meter?

Relation between flow and straine
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What is positive displacement move meter?

Positive displacement (PD) circulate meters are flow meters that present high accuracy (±0.1% of actual flow in some cases) and good repeatability (up to 0.05% of reading). These meters require no power provide to function and no direct upstream or downstream piping for set up. They are nicely suited to flow measurement of viscous fluids, such as oils, fuels and solvents, which are troublesome to measure with other kinds of move meters.
PD flow meters are most widely utilized in residence water meters, with hundreds of thousands of those models produced annually. Volumetric move meters can be utilized for clean, sanitary and corrosive fluids corresponding to water and meals, as properly as some gases. They are often most applicable when high accuracy at an affordable worth is required.
How does a optimistic displacement flow meter work?

Positive displacement move meter technology is the only circulate measurement know-how that instantly measures the quantity of fluid passing through the meter. Volumetric flowmeters do that by repeatedly intercepting fluid to measure its flow rate. This process can be thought of as repeatedly filling a bucket with fluid before pouring the contents downstream. The variety of times the bucket is filled and emptied indicates the move fee via the flowmeter. There are many volumetric move meter geometries available.
Retention is often achieved using rotating elements that kind a moving seal between one another and/or the flowmeter physique. In most designs, the rotating components have tight tolerances so that these seals forestall fluid from passing through the flowmeter without being measured (sloshing). In some volumetric flowmeter designs, bearings are used to support the rotating elements. Rotation can be sensed mechanically or by detecting the movement of the rotating parts. As more fluid flows, the rotating parts rotate proportionally quicker. The transmitter processes the sign generated by the rotation to determine the flow fee of the fluid. Some volumetric flow meters have mechanical registers that show the whole move fee on an area show.
Features

Suitable for smaller line sizes, low flow charges, excessive viscosities and lengthy durations, especially for oils. The disadvantages are that there are shifting parts to put on, upkeep required, extra impurities, and not as up to date as different applied sciences with new protocols, and so on.
Accuracy: One of the main advantages of using PD move meters is the excessive accuracy they offer, the excessive accuracy of the interior elements means maintaining the clearances between the sealing surfaces to a minimum. The smaller these clearances are, the upper the accuracy related to them. Only fluids that may bypass this seal usually are not accounted for, that is known as “bypass” or “sloshing”.
Range and repeatability: Another profit is that flow meters can handle a variety of viscosities, and it is not unusual to experience larger levels of accuracy when coping with high viscosity fluids, merely as a end result of discount of bypasses. When contemplating and comparing flowmeter accuracy, it is very important perceive “linearity”; i.e., the ability of the meter to precisely measure the complete regulation ratio, and “repeatability”, i.e., the power to remain accurate over multiple cycles. This is one other area the place PD move meters excel, with 0.02% repeatability and 0.5% linearity being normal.
Reliability: If the proper circulate meter is selected for an application, it can be anticipated to function properly for many years. Meters are often despatched for repair and recalibration which were within the field for 10 and sometimes 20 years of continuous use. This reliability is due in giant part to the truth that the same confirmed know-how has been in use for greater than 60 years, permitting main advances to be targeted on tribology and achieving the required accuracy at a reasonable cost.
Low maintenance: The really helpful upkeep level is strongly influenced by the applying. For example, if the flow meter is handling a fluid with lubricating properties (i.e. oil), routine maintenance can be just about eliminated. However, if the fluid has poor lubrication properties, then it’s best to debate upkeep necessities along with your distributor.
It is very uncommon that any maintenance on a positive displacement move meter is more frequent than other tools within the identical system and can be scheduled at the same time, thus minimizing downtime.
Types of displacement circulate meters

The operation of a volumetric (PD) circulate meter consists of separating the liquid into precisely measured increments and continuing to maneuver. Each section is counted by a connection register. Because each increment represents a discrete volume, constructive displacement items are in style in automated batching and accounting purposes. Volumetric circulate meters are ideal for measuring the move of viscous liquids or where a easy mechanical instrumentation system is required.
Positive displacement flow meters for liquids or chapter-action disc meters

Chapter-action disc meters are the most common type of PD meter. They are used as residential water meters around the globe. As water flows by way of the metering chamber, it causes the disc to oscillate (chapter motion), which turns the spindle, which rotates the magnet. This magnet is coupled to a mechanical register or pulse transmitter. Because the meter captures a set amount of fluid every time the spindle rotates, the circulate rate is proportional to the pace of rotation of the spindle.
Oscillating piston flowmeter

Oscillating piston move meters are usually used in viscous fluid providers, such as oil metering on engine test stands, the place the regulation ratio just isn’t crucial. These meters are also used in residential water service and can pass a restricted amount of filth, similar to pipe scale and nice sand (i.e. -200 mesh or -74 micron), but not large particles or abrasive solids.
Elliptical Gear and Convex Angle Gauges

The elliptical gear partial discharge meter uses two fine-tooth gears, one mounted horizontally and the opposite vertically, with the gears meshing on the tip of the vertical gear and the center of the horizontal gear. The two rotors rotate relative to one another, thereby creating interception within the crescent-shaped hole between the housing and the gears. These gauges can be very accurate if the slippage between the housing and equipment is saved small. If the process fluid viscosity is greater than 10 centipoise and the move price is greater than 20% of rated capability, an accuracy of zero.1% AR may be obtained. At decrease move charges and decrease viscosities, slippage will increase and accuracy decreases to 0.5% AR or much less.
Helical meter

The Helical Meter is a volumetric system that uses two radially inclined helical gears to constantly entice the method fluid as it flows. The flow forces the helical gears to rotate in the airplane of the pipe. Optical or magnetic sensors are used to encode a sequence of pulses proportional to the rotation speed of the helical gears. The drive required to rotate the helix is comparatively low, resulting in a comparatively low stress drop compared to different PD instruments. The finest achievable accuracy is approximately ±0.2% or price.
Metering Pumps

Metering pumps are PD devices that also transfer kinetic vitality to the method fluid. There are three primary designs: peristaltic, piston and diaphragm.
Peristaltic pumps run by systematically squeezing plastic tubing by way of a finger or cam right into a housing, which can additionally be used to position the tubing. These metering pumps are used in laboratories, varied medical purposes, most environmental sampling methods, and for allotting hypochlorite solutions. The tubing can be silicone rubber or, if a more corrosion resistant materials is required, PTFE tubing can be utilized.
The piston pump delivers a onerous and fast volume of fluid on every “out” stroke and a set quantity of fluid into the chamber on every “in” stroke. A examine valve prevents fluid from flowing backwards. As with all positive displacement pumps, piston pumps generate pulsating move. To decrease pulsation, multiple pistons or pulsation dampening vessels are installed. Because of the tight tolerances of the piston and cylinder liner, a flushing mechanism should be offered in abrasive applications. The measurement of the piston pump is dependent upon the piston displacement as nicely as the required flow and discharge strain. Select a check valve (or in important purposes, a double verify valve) to prevent backflow.
Diaphragm metering pumps are the most common industrial PD pumps. A typical configuration includes a diaphragm, a chamber, and suction and discharge check valves to stop backflow. The piston could be related directly to the diaphragm or can drive hydraulic fluid to actuate the diaphragm. Maximum output stress is roughly one hundred twenty five psig. variants include bellows diaphragms, hydraulically actuated double diaphragms, and pneumatically reciprocating double diaphragms.
Gas constructive displacement flow meters

PD fuel circulate meters operate by calculating the cut-off quantity of the fuel passing through, much like the best way PD flow meters operate on liquids. The primary distinction is that the gasoline is compressible.
Diaphragm gas meters are most commonly used to measure the circulate of pure gas, particularly for household metered consumption. The meter is manufactured from cast aluminum with a cloth-backed rubber diaphragm. The meter consists of 4 chambers: two diaphragm chambers on the inlet and outlet side and an inlet and outlet chamber in the meter physique. The passage of the gas by way of the meter creates a stress distinction between the 2 diaphragm chambers by way of the diaphragm chamber on the compression inlet aspect and the diaphragm chamber on the expansion outlet side. This action alternately empties and fills the four chambers. A slide valve on the high of the instrument alternately acts on the chambers and synchronizes the motion of the diaphragms, in addition to the crank mechanism that operates the instrument register.
High Precision Positive Displacement Systems

A excessive accuracy gasoline meter is usually a hybrid that mixes a regular positive displacement meter with a motor drive that eliminates strain drop across the meter. Balancing inlet and outlet pressures eliminates slip, leakage and gasoline fugitive. In a high-precision gas meter set up, a high-sensitivity vane is used to detect differential strain and a displacement sensor is used to measure vane deflection.
How to use volumetric move meters?

Positive displacement flow meters measure the volumetric circulate of fluids in pipelines, corresponding to water, hydrocarbons, cryogenic liquids and chemical substances. Some designs can measure gasoline circulate, although liquid flow functions are extra widespread. In liquid service, growing viscosity reduces slip and will increase the strain drop by way of the flowmeter. Surprisingly, under low move conditions for a given volumetric flow meter, accuracy can actually improve when viscosity will increase and slip decreases.
Larger pressure drops throughout the move meter can prematurely wear and/or harm bearings and/or seals. Therefore, most optimistic displacement move meters have a maximum pressure drop specification designed to limit optimistic displacement flow meter bearing wear to a reasonable stage. Operating the meter above the meter pressure drop limit can outcome in untimely bearing put on and catastrophic meter failure. Note that the flowmeter measurement may be elevated to scale back the stress drop in these purposes. This could considerably increase the price, but failure to comply with this specification may be costlier in some purposes.
Be เกจวัดแรงดัน , as broken sealing surfaces can enhance slippage and cut back measurement accuracy. Using a constructive displacement flowmeter in abrasive or soiled fluids may cause maintenance issues because of the potential for injury to sealing surfaces, injury to bearings, and/or clogging of the flowmeter. A filter may be required to remove dirt.
When utilizing a volumetric flowmeter, be certain that air bubbles are faraway from the fluid stream. Flow measurements made within the presence of air bubbles might be larger than the true liquid move as a end result of the bubble volumes are measured as in the event that they were a sure quantity of liquid. Therefore, the presence of air bubbles and (especially) the presence of various amounts of air bubbles can adversely have an result on the circulate measurement associated with a volumetric move meter. Gas eliminators could additionally be required to take away air bubbles and mitigate this downside.
The flowmeter can be utilized for clean, sanitary, corrosive liquids such as water and food, in addition to some gases. Materials of development are essential as a result of small amounts of corrosion or wear can injury sealing surfaces and adversely affect measurement accuracy. In addition, all wetted parts must be thought of, together with the valve body, rotating components, bearings and gaskets.
Municipal water districts use many volumetric flow meters to measure residential water usage. Considering the put in base of tens of millions of houses and residences with metered water service, this application probably represents one of the largest numbers of volumetric flowmeter functions worldwide.
Corrosive liquid purposes are frequent in chemical industrial processes and chemical feed methods utilized in most industries. However, other flowmeter technologies could also be more suitable for these companies.
Industries used

Oil and gasoline

Water and Wastewater

Chemical

Power

Pharmaceuticals

Food and Beverage

Pulp and Paper

Metals and Mining

Aerospace

Application considerations for volumetric circulate meters

Avoid utilizing Positive displacement flowmeters in soiled fluids unless fouling can be effectively eliminated upstream of the flowmeter. Operating these flowmeters in soiled fluids can result in clogging and increased upkeep costs. Be cautious when selecting bearings, because the non-lubricated nature of sure fluids, impurities and dirt can enhance bearing put on and upkeep prices. Note that bearings usually do not all the time fail catastrophically; they might decelerate and adversely affect accuracy earlier than they cease working.
Avoid utilizing fluids with air bubbles except they can be successfully eliminated. As viscosity increases, make certain that the strain drop via the meter is suitable. Make certain the viscosity of the working fluid is similar to the viscosity of the calibration fluid, as different fluids exhibit different amounts of slip that can lead to measurement errors.
More articles on move meters:
Working principle of rotameter

Ultrasonic circulate meter working principle

What is doppler circulate meter?

Relation between move and stresse