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Engineers, process managers, and technicians rely on flow meters to deliver the precise, real-time data they need to handle, transfer, and store fluids safely and efficiently in applications from oil and gas production to precision manufacturing and even healthcare.
Modern flow sensors from leading industry suppliers deliver high levels of accuracy, reliability, and durability over their lifetimes. However, when they fail or deliver inaccurate or inconsistent readings either out of the box or over time it can have a serious impact on productivity, product quality, and even safety.
Here we take a look at some common flow meter problems associated with performance and their likely causes. We also consider how better choices in selecting, installing, and maintaining flow meters as well as partnering with a reliable equipment supplier over time can help you prevent problems and manage them better when they occur.
Flow meter readings need to be accurate, instant, and consistently repeatable to be useful in fluid handling and transfer. Here are the most common causes of flow meter failure or inaccuracy.
Undetected obstruction of blockages in fluid flow, immediately upstream or even between meter sensors, can cause inaccurate or inconsistent readings. This problem can potentially affect all flow meters.
Sudden changes in the property of the fluid being metered, from temperature to pressure to viscosity, can mean measurements fall outside an instruments calibrated range or prevent the meter from working entirely. This is a common challenge for saturated steam applications and some oil and gas in-field production processes.
Depending on the process, industrial flow meters can be susceptible to several types of fouling over time. This can include:
, including calcium, magnesium, or sodium deposits
, including grime, oil, drill cuttings, grindings, or other impurities
or corrosion that cakes and eventually eats away metal parts
or microorganisms in untreated water
Fouling can thicken and slow down liquid or gas flows and over time reduce and eventually cover sensor surfaces or fluid intakes. The more intrusive an instrument is into the fluid flow, and the more moving parts it has, the more at risk it is to fouling, while meters with reactive metal parts are vulnerable to chemical processes like corrosion and scaling.
All sensors are subject to wear and tear, from friction on the moving parts of turbine or vane instruments to damage caused by the expansion and contraction of heated parts such as resistance-temperature detectors (RTDs). Wear is highest in high-temperature/high-pressure applications or processes involving corrosive fluids or big swings in temperature.
While a meter may be mechanically sound, incorrect calibration can lead to inaccurate or inconsistent readings. Flow meters and controllers need to be calibrated to account for the temperature, pressure, density, and viscosity of the fluids they are metering. A meters calibration can be off if:
It was poorly calibrated in the factory
It is being used with the wrong gas or liquid mix
Calibration settings have drifted over time
In addition, exposure to unexpected fluid types of mixes will also make existing flow range calibration settings less accurate.
There are also several ways in which incorrect or faulty meter installation can affect the accuracy and consistency of readings:
: a meter is exposed to fluids it is not designed to measure
meters are inserted incorrectly into the fluid flow so intake direction or sensor order is reversed
meters are affected by undiagnosed local turbulence, bubbles, or pressure drops caused by pipe geometry or intrusive structures.
Most potential problems that may affect meter performance can be prevented or minimized by choosing appropriate equipment from a reputable supplier, ensuring it is properly calibrated and installed, and checking and maintaining it on schedule. Lets take a closer look at these considerations.
You can prevent many performance and maintenance headaches by working closely with your supplier to identify the best meter for your application based on your measurement needs, fluid characteristics, and operating conditions. Common considerations include:
While measuring the volume of fluid passing a point is important in almost every industrial process, applications that rely specifically on gas transfers usually need to measure the actual mass of gas being moved. Mass flow can be measured directly by Coriolis and thermal mass flow meters. Thermal mass flowmeters count the gas molecules, they are immune to changes in inlet temperature and pressure and measure mass flow directly without compensation.
Coriolis and thermal mass meters also offer significantly higher accuracy for most applications, while their simple design enhances overall reliability. Their design and direct mass reading mean confidence that your results are more repeatable, while excellent rangeability means more accurate calibration, even in variable or low-flow environments. However, Sierras QuadraTherm® thermal mass flow meters deliver accuracy as good as, if not better than, Coriolis meters with a single device at a fraction of the price.
Where unfiltered or untreated fluids are being handled it is best to use robust, less intrusive metering equipment with few moving parts to prevent blockages and fouling. Differential pressure equipment such as orifice plates or Venturi meters are commonly used for a wide range of applications but less intrusive thermal mass sensors are gaining popularity.
High-temperature processes can wreak havoc with meters that rely directly on pressure measurements. High-performing thermal mass meters are increasingly the go-to choice for demanding flaring, boiler, and furnace applications, while vortex flow meters are often used with superheated and saturated steam.
Meter designs that minimize the exposure of metallic surfaces to fluids are preferred for corrosive environments.
Where meters are required to respond to variable mixes of gases, the direct mass measurement, high rangeability, and more accurate calibration of Coriolis or thermal mass instruments work best. Some units, such as Sierra Instruments QuadraTherm® and SmartTrak® systems, can be reprogrammed to read different mixes.
Any meter exposed directly to fluid flows will experience some wear and tear, which makes remote sensing capabilities of mobile ultrasonic meters invaluable for on-the-go line measurements. For in-pipe measurements, thermal mass meters offer less intrusion and no moving parts, keeping maintenance requirements to a minimum.
This table summarizes the strengths and weaknesses of flow available flow measurement technologies for use in different fluid transfer environments
ULTRASONIC FLOW METERS
STRENGTH
WEAKNESSES
No
moving parts
Does not obstruct flow
Extremely accurate
Higher overall cost
Can struggle with contaminated fluids and liquids with bubbles
DIFFERENTIAL PRESSURE DEVICES
STRENGTH
WEAKNESSES
Versatile suitable for liquids, gases, or steam
Robust Can handle extreme pressure and temperatures
Vulnerable to plugging and scale
Less accurate at low pressures
Volumetric requires additional equipment to convert measurements to mass
flow rate
VORTEX FLOW DEVICES
STRENGTH
WEAKNESSES
Versatile suitable for liquids, gases, or steam
More accurate liquid measurement than DP devices with smaller local pressure drop
Robust High-temperature tolerance makes them ideal for metering steam
Intrusive vulnerable to fouling
Creates local pressure drop
Not ideal for thicker liquids or complex gases
CORIOLIS MASS FLOW METERS
STRENGTH
WEAKNESSES
Accurate and reliable with high turndown capabilities
No
Link to tnma
moving parts
Minimal maintenance
Higher initial costs
More accurate for
liquid flows
than gas flows
Gas
flow measurement
can be challenging at low densities
THERMAL MASS FLOW METERS
STRENGTH
WEAKNESSES
Excellent accuracy and repeatability
Direct mass
flow measurement
Easy to install
No
moving parts
Ruggedly constructed
Ideal for demanding gas flow applications such as measuring flow of stack gases, emissions monitoring and gases in large pipes or ducts
Not suited to liquid flow applications
* Adapted from Understanding Flow Measurement for Emissions Monitoring | Sierra Instruments.
Regular maintenance will increase the useful life of your flow metering equipment while improving overall performance and accuracy. Cleaning equipment and checking seatings, sealing, and connections will prevent many reliability headaches. It also helps to choose simple equipment that is easy to clean and to pay more up-front for quality components that will wear longer.
Choose a long-term equipment partner with a reputable support and customer service program. Sierra Instruments leak-checks every meter and tests each unit to 150% of its maximum working pressure. Electrical components are also extensively burnt in. All of our flow meters feature a 1-year warranty, and we support every flow product over its full lifetime.
Meter calibration is essential to assuring the accuracy, reliability, and repeatability of your fluid flow data. In fact, at Sierra Instruments, we have a saying: An instruments accuracy is only as good as its calibration.
In many cases, improperly calibrated metering can lead to a gradual decline in performance as instrumentation drifts further away from factory settings. In some industries, flow meters are required by local, state, and federal to be regularly checked and recalibrated. Many operators choose to have their instrumentation recalibrated annually.
Some equipment suppliers check their equipment against common secondary transfer standards. Sierra Equipment chooses to calibrate our equipment to the primary standards set by the U.S. National Institute of Standards and Testing (NIST) for world-class levels of accuracy and traceability.
We also offer our customers a detailed 10-point calibration standard for our full mass flow meter and controller range. That means equipment is calibrated to an accuracy of better than 1% of its full scale in line with NIST-traceable standard requirements.
Sierra Instruments maintains an ISO -certified, state-of-the-art calibration facility at our Monterey headquarters that features high-temperature gas wind tunnels, closed-loop gas calibration systems, and other equipment that allows calibrations to within 0.15% of a reading.
We offer full meter calibration services at our global centers of excellence in Mexico, Brazil, Singapore, South Korea, and other locations worldwide. We can also schedule same-day visits by our technicians for on-site calibration of equipment.
Spending good money on quality flow meter equipment makes little sense if youre not going to take the trouble to ensure every unit is installed correctly. Choose an equipment supplier who will not only ensure that you get meters that match your application perfectly but will also stand by you to make sure they are installed correctly for optimum performance.
Sierra Instruments offers the worlds widest selection of quality gas mass flow metering equipment and we stand by our products with expert guidance, installation support, and training. We offer resources and support services to help you avoid common mistakes like:
Insufficient straight-run pipe upstream and downstream of flow meters
Accidental backward installation of vortex and other meters
Incorrect meter or calibration for the fluid type in a pipe
We also build our equipment with easy, right-first-time installation in mind. Many of our flow meters have clearly marked flow direction indicators and our QuadraTherm, and BioTrak flow meters have special retractors that allow them to be installed directly with no process shutdown.
Working with a reliable supplier like Sierra Instruments will help ensure your equipment is properly installed to deliver accuracy, efficiency, and performance from day one, and a better return on your flow measurement investment over time. At Sierra, we support our customers from day one with:
Custom flow engineering
Expert advice
Short lead times
Lifetime product support
At Sierra Instruments, we build quality fluid flow metering solutions that are designed to solve common product, installation, and calibration problems before they occur. As pioneers in direct mass flow measurement technology, we have more than 50 years of experience in matching products to flow applications to ensure performance, accuracy, reliability, and durability.
Were proud to offer our customers:
Innovative, precision-engineered flow meter technologies
Durable construction and corrosion-resistant platinum and stainless steel components
Industry-leading meter calibration and repair services
An easy
online management system
to track and schedule meter calibrations
Unmatched support through our
technical assistance hotline
, live chat service,
online resources
, and technician site visits
Whether youre handling process gases, industrial liquids, or superheated water and steam, we have the products, know-how, and experience to help you solve your toughest flow challenges.
Click below to learn more about our wide range of high-performance flow meters.
See Our Flow Meter Options & Benefits
An overflow in a sewage line generally results from a blockage in the line, causing the sewage to back up into nearby pipes and drains. Blockages can occur in the main sewer lines outside your home, as well as within your home or office plumbing system.
How could a sewage backup affect me?
If the backup occurs in a public county-maintained line, the sewage normally will overflow out of the lowest possible opening, which is usually a manhole. However, in some homes, especially those with basements or where the lowest level has the same elevation as the sewer lines, the overflowing sewage may exit through lower drains and toilets.
What causes sewage backups?
In home and office plumbing systems, the main cause is accumulation of grease, hair and other solid materials. Also, many items that are too large for sewage pipes to handle, such as disposable diapers and sanitary napkins, often are flushed down toilets. All of these items can cause major backups with both private and public sewer lines. The greatest cause of sewage blockages within the county system, however, is vandalism. Leaves, sticks, rocks, bricks and trash have been found stuffed down manholes.
What can I do to help?
Call the Chesterfield Utilities Department immediately if you notice any cases of vandalism to sewer lines or manholes, so that the debris can be removed before it causes a backup. Avoid putting grease down your garbage disposal or any household drain. Not only could it accumulate in county lines, it could also build up in your own system and eventually require the services of a plumber. Never put disposable diapers or sanitary napkins down the toilet. These were not meant to be disposed of in this manner. Besides stopping up lines, they could damage your plumbing system.
Is there anything I can do to reduce the possibility of sewage backing up into my home?
If the lowest level of your home or office is above ground level, it is unlikely that you will ever have a problem with overflows from county sewage lines. However, if the lowest level is below ground level, there is a possibility that you may one day be affected by a backup. Normally, if a blockage occurs in your neighborhoods main sewage line, only the lowest level drains and toilets will be affected. A common exit point for backed-up sewage is floor drains located in basements. One way to prevent sewage from backing up at these locations is to install a backflow valve on a the lowest drain. For floor drains, a plumbers test plug can be used to close the drain when not in use. For more information about these items and other preventative measures, contact a plumber or your local plumbing-supply dealer.
What should I do if sewage backs up into my home?
Keeping in mind that ceramic plumbing fixtures such as toilets are fragile, quickly close all drain openings with stoppers or plugs. Tub, sink and floor drains may need additional weight to keep them sealed. A string mop can be used to help plug toilets. If you suspect the stoppage is in your home plumbing system, do not run water down your drains until the blockage is cleared. A quick check with several nearby neighbors will help you determine if the blockage is widespread or if it is limited to your home. If the backup appears to be in your neighborhoods main line, call Chesterfield County Utilities at the number listed on this brochure.
What does Chesterfield County do to prevent sewage backups?
Chesterfield County makes every attempt to prevent backups in the public sewage system before they occur. Sewer lines are specifically designed to prevent accumulation and blockages. In addition, utility maintenance crews inspect and clean sewage lines daily throughout the county. These lines are examined using high-tech video equipment that enables workers to see inside the pipelines. Even with the countys extensive maintenance program, backups often are beyond the control of the Utilities Department. Fortunately, they dont happen often. Only on rare occasions has the sewage actually backed up into a home.
Will my insurance cover any damages resulting from sewage backups?
In the majority of cases, a special rider is needed on your homeowners or renters insurance policy to cover damages related to sewage backups or water damage. This optional coverage is generally inexpensive. However, you usually must request it, as it is not automatically included in most policies. Customers whose homes may be vulnerable to backups, such as those with lower levels below the ground, are especially advised to investigate this option. Like the majority of municipalities throughout the country, Chesterfield does not assume financial liability for damages resulting from sewage backups, since most blockages are related to conditions that are beyond the countys control. This is why it is important to verify that your home is adequately insured.
Whom should I call to report a sewage backup?
Emergency crews from Chesterfield Utilities are on call 24 hours a day to assist you. In an emergency such as a sewage line backup, contact the department at 804-748- Monday-Friday, 7:30 a.m.- 4 p.m.
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