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Your Position: Home - Machinery Design Services - Choosing the Best Type of Flow Meter for Your Application

Choosing the Best Type of Flow Meter for Your Application

Author: Molly

Nov. 27, 2024

Choosing the Best Type of Flow Meter for Your Application

TNMA are exported all over the world and different industries with quality first. Our belief is to provide our customers with more and better high value-added products. Let's create a better future together.

 

Flow meters are some of the most versatile and integral components in any fluid handling system. From agriculture chemical production to water treatment facilities, meters offer a reliable means to monitor how efficient your operation is and provide a tangible reading to identify potential issues within the plumbing system. This makes choosing the right flow meter for your application even more important. Selecting the wrong meter causes inaccuracies within your flow monitoring processes and creates inefficiencies throughout the rest of the system, not to mention significant unintended costs.

Dultmeier Sales is here to ensure that doesn't happen.

In this guide to flow meter selection, we'll take a look at several common meter types and the various applications in which they are used. We will also highlight some key considerations to keep in mind so that you always choose the best flow meter for your application needs. So, without further ado, let's get started.

 

Understanding What a Flow Meter Does

Simply put, a flow meter is a device that measures the flow of material-typically either liquids or gases-through a pipe. It determines how much material passes through the pipe (or hose) in a given period. It typically provides this measurement in units like gallons per minute (GPM), liters per second (L/s), or cubic feet per minute (CFM).

While this concept is straightforward, selecting the right flow meter for your specific task, however, can be more complicated.

 

Fill-Rite mechanical flow meters & digital flow meters

 

How to Choose the Right Flow Meter

First off, It is important to note that no two meters are exactly alike. Depending on application and metering needs, you may have several meter options or a single very specific one from which to choose. Complicating things further are the many external considerations your meter must satisfy in order to accomplish its intended purpose. As they say, the "devil is in the details," and the same goes for choosing the best flow meter for your application.

Below are some key characteristics to keep in mind when selecting the proper flow meter:

  • Accuracy & Repeatability
  • Type of Fluid (liquid, gas, slurry, steam)
  • Density
  • Viscosity
  • Conductivity
  • Temperature
  • Pressure
  • Flammable/Oxidizer
  • Corrosiveness/Toxicity
  • Flow Range/Turndown
  • Materials of Construction
  • Environment/Location & System Configuration
  • Hygiene Requirements (pharmaceutical, food processing, etc.)
  • Costs
    • Initial Investment
    • Installation
    • Long-term Maintenance

While the meter you ultimately select should ideally meet every factor above, ensuring it meets the most important ones for your operation will help guarantee you receive the best results. Let's dive into a few of the main ones on which you should focus.

Accuracy & Repeatability

Near the top of the list when evaluating flow meter specs is flow meter accuracy. Accuracy is how close a measurement is to the actual true value passing through a system. Expressed as a percentage (i.e. +/- 1%) accuracy represents how close the meter's output is to its calibrated parameters. Generally, the lower the percentage, the more accurate a meter is.

However, accuracy is not the only side of the coin. Repeatability, or the production of like outcomes under the same conditions, is perhaps even more important when evaluating which flow meter to choose. This is because accuracy is only reliable so far as its consistency. As you can see below, repeatability is possible without high accuracy, but high accuracy is not achievable without repeatability.

Flow meter accuracy & repeatability



If your flow readouts are unreliable-meaning you receive inconsistent results despite the same conditions-then you aren't gaining any value. Likewise, if your flow volume falls short of or exceeds your meter's rated flow range (also known as turndown), you won't receive accurate readings either.

Precision readings go hand in hand with any well-tuned operation. Choosing the best flow meter accuracy and repeatability percentages that meet your application requirements ensures your system maintains the precision readings you desire.

Liquid, Gas, or Semi-Liquid?

The type of fluid you work with is another big factor when choosing which flow meter best fits your application. Fluid type breaks into four categories: gas, liquid, slurry, and vapor-each with its own unique characteristics.

Properties such as fluid density, temperature, viscosity, and corrosiveness/acidity all must be determined before a final selection. This ensures you avoid choosing a flow meter incompatible with the fluid type you are attempting to measure. Electromagnetic flow meters, for example, won't work with non-conductive fluids like hydrocarbons. Likewise, few meter types are capable of measuring slurries because of their unique semi-liquid characteristics.

Illustration of how slurry particles behave between homogenous & heterogeneous mixtures



Here is a short list of flow meter types commonly used for the four fluid categories:

  • Gas: Coriolis, Thermal Mass, Positive Displacement, Turbine, Variable Differential Pressure, Ultrasonic
  • Liquid: Coriolis. Thermal Mass, Positive Displacement, Variable Flow, Paddlewheel, Turbine, Variable Differential Pressure, Ultrasonic, Electromagnetic
  • Slurry: Coriolis, Electromagnetic, some subsets of Differential Pressure
  • Vapor: Vortex, Ultrasonic, Floating Element

While not comprehensive, this list should offer a good starting point. That said, not every meter listed may work for your specific setup or needs. For instance, if your operation handles multiple fluids, you'll want to ensure that the meter you go with is compatible with all fluids-not just one. Otherwise, you likely spend valuable time calibrating your flow meter each time you handle a different product or troubleshooting why your inventories are off from your readouts.

Location & System Configuration

Meter location, as in real estate, is another major consideration. Will the flow meter be installed inside a controlled environment or outdoors in the elements? Is space a non-factor, or must size be considered? Certain flow meters even require stretches of straight pipe before and after the meter to generate accurate flow readings.

As a rule of thumb, pipe lengths of 10X (where X = pipe diameter) are needed before and after a meter for straight runs of pipe. So, if your plumbing's diameter is 2" you would need 20" or approximately 2 feet of pipe before and after the flow meter. This goes for just about any meter type, but it is always best to check the manufacturer's specs.

Also, keep in mind horizontal or vertical mounting. Some meters can be mounted in either orientation while others must be in one orientation or the other. Variable flow meters, for example, rely primarily on gravity in order to measure flow rate. Thus, they must be installed vertically to work. Determining how and where a meter will be installed while choosing a meter saves installation time and avoids costs related to unintended system reconfiguring.

Differentiating Between Volumetric vs. Mass Flow

Before we break down various flow meters, it is important to say a word on flow measurement. While there are many types of flow meters, most used today fall under two primary categories according to how they calculate flow: volumetric and mass.

As their name suggests, volumetric flow meters measure flow by calculating the volume of a fluid. Flow is often directed through an intrusion metering device such as a turbine or orifice plate, which then measures fluid velocity proportionally to the volume of matter passing by. Volumetric flowmeters make up the majority of meter types today and include turbine, magnetic, positive displacement, ultrasonic, and vortex meters to name a few.

Volume flow vs. mass flow within a cylinder



Mass flow meters, meanwhile, calculate flow rate by measuring the mass of a fluid. Mass meters have become increasingly popular due to their precision performance and truer reading of product flow compared to older metering technologies. In the diagram above, for instance, the product volume significantly changes depending on the position of the piston-even as mass remains the same. Today, mass meters have more or less become synonymous with Coriolis mass meters, but other types do exist. We'll discuss how mass meters work later in the article.

Whether you choose volumetric meters and mass meters depends on your application and metering needs, as well as your operational preferences and cost differences. In the end, you can still calculate volume to mass or mass to volume so long as the fluid density, surrounding temperature effects, and other conversion factors are all understood.

Comparing Flow Meter Types

There is, unfortunately, no such thing as a universal flow meter. Each flow meter type has fluids and applications for which it is well suited, and similarly, ones for which they are not. The following is a breakdown of some of the most common types of flow meters and the pros and cons of using each one.

Positive Displacement Flow Meters

Pros

  • Accurate across wide flow ranges
  • *Can handle very viscous fluids
  • Versatile applications-simple, reliable design
  • Require no power supply
  • Cost-effective

*Thicker viscosity fluids create larger pressure losses & reductions in flow rates

Cons

  • Requires medium to high-flow applications
  • Experience greater pressure drops
  • Larger/heavier than other meters
  • Not recommended for dirty fluids or gases
  • Some subsets require constant lubrication
  • Many moving components need regular maintenance and replacement

Positive displacement (PD) meters consist of chambers featuring mechanical components that rotate in relation to volume flow. As fluid passes through, the reciprocating components-generally a type of gear, vane, or diaphragm-divides the fluid into fixed, metered volumetric units. The number of units rotated through within a specified time frame directly correlates to flow rate. Subtypes include screw meters, rotary vane meters, diaphragm meters, reciprocating or oscillating piston meters, and helical or oval gear meters.

 

TCS 700 Series Rotary Fuel Meter with Register



Since PD meters only measure flow while fluid passes through, they're ideal for applications where metering is crucial to calculate fluid usage. The TCS 700 series rotary vane meters, for example, are widely used in oil and gas custody transfer industries, while diaphragm meters are commonly installed on residential or municipal water and gas lines. Their fluid-driven design additionally makes positive displacement flow meters one of the more cost-effective options since they require no outside power supply to operate. However, these meters are ill-suited for impure fluids such as wastewater or slurries, as the suspended soils can clog or slow the reciprocating elements and create inaccurate readings.

Are you interested in learning more about Gas Flow Meters? Contact us today to secure an expert consultation!

Electromagnetic Flow Meters

Pros

  • Obstruction-less/No moving components
  • Highly accurate-unaffected by density, viscosity, turbulence, or pipe configuration
  • Can handle wide flow ranges & multiple fluid types
  • Zero pressure drop
  • Bi-directional
  • Cost-effective

Cons

  • Cannot measure gases, vapors, or non-conductive liquids
  • Limited fluid temperature range
  • Interference possible with certain suspended fluids
  • Specialized subsets can be expensive

 

Electromagnetic flow meters, also known as magnetic flow meters or magmeters, are rather unique in the technology they use to measure flow. Magmeters feature two parts, a transmitter and an inline sensor, the latter of which features coils that generate a magnetic field. When a conductive fluid passes through the field, a voltage is produced proportional to flow. This flow principle is known as Faraday's Law.

 

 

Unlike other meters, magnetic flow meters can measure fluids regardless of fluid density, viscosity, or flow turbulence. This makes mag meters highly accurate and reliable across a wide range of solutions. Additionally, their design features no obstructions in the pipe, making these meters ideal for a wide spectrum of applications, from highly sanitary liquids to slurries and highly corrosive fluids. Electromagnetic meters can be found in industries such as pulp and paper, metals and mining, food and beverage, water and wastewater, chemical transfer, and many more.

 



Magnetic meters, however, only work with conductive fluids. This means hydrocarbons such as oils, gasoline, or deionized liquids are not recommended with mag meters. Suspended solids, such as those found in various ag chemicals and fertilizers, can also sometimes pose a problem. The suspended soils, which may not be conductive, can interrupt the magnetic field and throw off the reading's accuracy. Newer, specialized magmeters such as slurry magmeters are engineered to counteract this magnetic interference. However, these units generally feature heftier price tags compared to standard models.

Turbine Flow Meters

Pros

  • Highly accurate
  • Cost-effective
  • Capable of measuring low flow rates
  • Versatile applications-simple, reliable design

Cons

  • Not recommended for dirty or suspended liquids
  • Require straight pipe runs for best results
  • Limited to certain pipe sizes
  • High flow rates can cause damage or inaccuracies
  • Moving components need regular maintenance and replacement

Like paddlewheel or propeller flow meters, turbine meters feature a multi-bladed rotor mounted inline to fluid flow. Sensors attached to one or more of the turbine blades transmit the number of revolutions the turbine makes. The speed at which these revolutions happen is proportional to volumetric flow rate. Similar to positive displacement meters, turbine and paddlewheel meters only measure flow when fluid mechanically acts upon their metering components.

 

 

Because turbine meters provide accurate readouts in relation to linear flow-even at low flow rates-they are widely used in the oil and natural gas, custody transfer, and petrochemical industries. In fact, turbine meters are often used to help verify the accuracy of other meter types.

Turbine meters aren't without their limitations, though. For starters, turbine meters are not well suited to handle dirty or highly viscous fluids, as the turbines can be easily fouled by the soils. These meters also require straight runs of pipe before and after the meter to stabilize flow for the most accurate results. Additionally, larger pipe diameters are incompatible from an engineering standpoint. This limits where and for what applications turbine meters can be installed. Finally, as with any technology with moving components, regular maintenance is necessary to keep these meters in peak-performing condition.

Coriolis Flow Meters

Pros

  • Extremely accurate
  • Low maintenance
  • Can handle a wide spectrum of flow ranges
  • Compatible with many dirty, corrosive & difficult to handle fluid types
  • Versatile installation-no straight pipe runs required
  • Serviceable without removing from the pipeline
  • Easy in-field calibration
  • Capable of measuring gases

Cons

  • Expensive initial investment
  • Not suited for low-pressure gases
  • Limited to certain pipe sizes

Coriolis meters, more commonly known as mass meters, differ from other meter types in that they measure mass flow instead of volume flow. These meters also feature a unique means of calculating flow rate based upon the Coriolis Principle. Check out the video below for a quick look at Coriolis meter technology.

 

Advantages of Mass Meters

Mass meters generally hold an NTEP certification and are widely used in legal-for-trade (resale) applications. In the Dultmeier Sales world, this generally means fertilizers or chemicals with respect to the agricultural industry. Back in the s, Dultmeier Sales partnered with Kahler Automation to offer some of the first automated solutions for fertilizer/chemical plant automation.

The mass meter was at the heart of the system because it was new technology that allowed end-users to sell using the real-time density of the product - a truer way to meter liquids. For example, water is known to be 8.34 lbs. per gallon at 70°F. However, as temperature drops, the weight of water increases. Thus, the solution of water becomes denser as the ambient temperature drops. This would mean static volumetric calculations would be off if one pumped gallons of water and converted to 834 lbs. (using 8.34lbs/gal as the constant conversion factor) if the water were only 50°F.

This same principle happens with fertilizer and chemicals - as they are generally water-based solutions. Volumetric meters of the time; however, were unable to account for this change in density in relation to volume flow. Take this scenario for example, which was quite common in the s and early s:

Let's say that it's 40° F. and we're loading a 10,000 gallon tender trailer, running 32% Nitrogen into the vessel. We're using a paddlewheel meter as our measuring device and pumping the product into the vessel. Once we reach our hit point of 10,000 gallons - the automated equipment shuts down and we send our trucker to the scale. The scale breaks in 20 lb. increments.

Our potential for error:

  • Paddlewheel meter runs at approx. +/- 2% accuracy (mass meter is +/- .3% accuracy)
  • Paddlewheel cannot determine density reading, so we have a static calibration factor that was calibrated at 70° F. (or another temperature) and we are using that static factor to now calibrate pounds to gallons at 40° F.
  • Scale breaks in 20 lb. increments vs. mass meter measuring in increments of 1/10th of a pound
  • Scale cannot account for "slosh" or movement of liquid as truck stops abruptly on the scale

Considering these many variables and the potential for error, it's no wonder why inventories could, and often would, be way off come year-end. We know that a solution's density changes constantly if in an ambient environment. For this reason alone, mass meter technology is the preferred method of measurement in many instances. By using a mass meter that can continually read this fluctuation in density on the fly, we offer our customers a better method to dispense and record inventory.

Today, Dultmeier works with Easy Automation Inc. to provide automated plant solutions using mass meters in addition to other state-of-the-art meters, controls, and equipment.

Flow Meter Price, Performance & Popularity

Unfortunately, there is no universal flow meter that works for every application. Depending on how diversified your operation is, that could mean multiple types of flow meters are needed. While it is fair to research the most popular meters for your industry, don't buy the first meter you think will work.

Price, quality, and other key factors do play a significant role in a flow meter's overall performance. Simply because everyone else uses a certain meter does not mean you should be. Low purchase cost, for instance, shouldn't be the deciding factor in choosing the best flow meter for your application. When choosing a flow meter, you have to consider not only the initial purchase price, but the overall lifetime costs and long-term returns on investment, too.

 

For instance, while a Coriolis meter boasts a hefty price tag at initial investment, it provides a great ROI because less maintenance and greater product savings are realized over the long run. Mass meters' exceptional accuracy, versatile flow ranges, and fluid compatibilities, minimal wearable parts, and the ability to recalibrate without removing the meter from the pipeline all translate to fewer dollars spent overall. When it comes to the bottom line, spending more money upfront can outweigh years of hemorrhaging dollars spent repairing or replacing inefficient meters.

That said, not every operation needs an expensive, high-end flow meter. It's a good idea to run a cost assessment evaluating application needs against initial investment costs and long-term cost savings. This way you have the best picture of whether a certain meter is practical or worth the price tag over the long haul. If you need help assessing meter options and determining what is best for your application(s), we are always just a call away at 1-888-677-.

Final Words

We hope this article has provided some insight into the world of flow meter solutions. Although we covered some of the most common types, these are by no means the only flow meters out there. Choosing the best type of flow meter for your application all starts with knowing what you need and researching your best options. Compare all associated costs-both short and long-term-and avoid making a decision based on price tags alone. Ultimately; however, the manner in which you choose to meter is entirely up to you.

If you have any questions regarding flowmeter selection, give us a call at 888-667- or dultmeier.com. Dultmeier Sales carries a diverse inventory of chemical and water flow meters, flow meter repair parts, and flow meter accessories. No matter what meter your operation requires, our experience and technical expertise will help make sure you select the right one.

What is the Industry's Most Reliable Flow Meter Sensor?

Selecting the right flow meter for industrial applications is crucial for ensuring precision, efficiency, and safety in various processes. Therefore, among the many options available, the Truflo series by Icon Process Controls stands out for being industry&#;s most reliable flow meter sensor with advanced technology. So, this blog delves into the Truflo TK, TI, and UltraFlo 500 series flow meters, their features, benefits. Additionally, we&#;ll cover the working principles of paddle wheel and clamp-on ultrasonic flow meters.

Truflo Series by Icon &#; Reliable Flow Meter Sensors

Icon Process Controls is renowned for manufacturing high-quality, innovative flow and level measurement solutions. Correspondingly, the Truflo series is designed to meet the rigorous demands of industrial environments, Moreover, they offer robust performance and precise measurement.

Truflo TK Series

The Truflo TK series is known as a reliable flow meter that&#;s versatile and precise. For instance, key features and benefits include:

  • Material Compatibility: Constructed from PVC, PP, PVDF, and 316SS, the TK series is resistant to corrosion and chemical wear, making it suitable for a wide range of chemicals.
  • High Accuracy: Offers an accuracy of ±0.5% of full scale, ensuring precise flow measurements.
  • Durable Construction: The paddle assembly comes with a lifetime warranty, reflecting the product&#;s durability.
  • Easy Installation: The compact design and user-friendly installation reduce setup time and costs.
  • Wide Flow Range: Capable of measuring flow rates from 0.3 to 200 gallons per minute (GPM), making it suitable for various applications.

Truflo TI Series

The Truflo TI series is designed for applications requiring high accuracy and reliability. For instance, key features and benefits include:

  • Robust Construction: Made from PVDF and stainless steel, the TI series can withstand aggressive chemicals and high temperatures.
  • Enhanced Accuracy: Provides an accuracy of ±0.5%, ensuring reliable flow meter measurements.
  • Digital Display: Equipped with an integrated digital display for real-time flow data, enhancing monitoring and control.
  • Low Maintenance: Fewer moving parts result in lower maintenance needs, reducing downtime and operational costs.

UltraFlo 500 Series

The UltraFlo 500 series represents a state-of-the-art clamp-on ultrasonic flow meter, known for its advanced features:

  • Non-Invasive Measurement: The clamp-on design eliminates the need for pipe cutting or process interruption, facilitating easy installation and maintenance.
  • High Accuracy: With an accuracy of ±1% of reading, the UltraFlo 500 ensures reliable flow meter measurement.
  • Real-Time Data: Features a local OLCD display for immediate flow data feedback, aiding in quick decision-making.
  • Durability: Constructed with a high-impact polycarbonate cover and corrosion-resistant Teflon epoxy coating, ensuring long-lasting performance.

How Paddle Wheel Flow Meters Work

Paddle wheel flow meters, such as the Truflo TK and TI series, operate on a straightforward yet effective principle. Here&#;s how they work:

  • Working Principle: As fluid flows through the pipe, it turns the paddle wheel. The rotational speed of the wheel is proportional to the flow rate.
  • Installation: These meters require insertion into the pipe, which may involve cutting the pipe and temporarily stopping the process.
  • Accuracy and Maintenance: Paddle wheel meters provide good accuracy but have moving parts that may wear over time, necessitating periodic maintenance.

How Clamp-On Ultrasonic Flow Meters Work

Clamp-on ultrasonic flow meters, like the UltraFlo 500, offer a non-invasive alternative. Here&#;s how they work:

  • Working Principle: These meters use ultrasonic signals that travel through the pipe walls and the fluid. By measuring the time it takes for the signals to traverse the fluid, the flow rate is determined.
  • Installation: They clamp onto the outside of the pipe, eliminating the need for any pipe modifications or process interruptions.
  • Accuracy and Maintenance: Ultrasonic flow meters provide high accuracy and have no moving parts, reducing maintenance requirements and enhancing longevity. Thus, they are a reliable flow meter.

What is the Industry&#;s Most Reliable Flow Meter Sensor? &#; Conclusion

Choosing a reliable flow meter is essential for optimizing industrial operations. The Truflo series by Icon Process Controls, including the TK, TI, and UltraFlo 500, offers reliable and accurate solutions for various applications. Understanding the differences between paddle wheel and clamp-on ultrasonic flow meters can further assist in making an informed decision. Whether you need precision, durability, or ease of installation, the Truflo series provides a comprehensive range of options to meet your specific needs.

For more detailed information on these flow meters, visit Icon Process Controls.

If you want to learn more, please visit our website Water Meter Test Bench Systems.

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