Choosing a water meter is not as straightforward as it might seem. Different applications may require different types of water meters. So its important to understand the factors that influence water meter selection, so you can choose the right one for your application, whether residential, commercial, or industrial. In this article, we explore nine important factors in water meter selection.
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Water meter selection has no room for error. Choosing the incorrect meter can complicate matters, leading to inaccurate readings, poor flow rates, unnecessary wastage, and faster meter deterioration. You can improve your proficiency in picking the ideal water meter for various applications by considering the nine factors below.
Size is among the first points to consider when choosing a water meter. The meter size determines the minimum and maximum flow rate from the supply source to your residential, commercial, or industrial application. It impacts water pressure and can influence readings and the service life of the meter.
Standard meters come in different sizes, including 5/8, 3/4, 1, 1.5, and 2. Choosing the incorrect meter size can lead to inaccurate readings because of increased or decreased water pressure. The ideal meter size should ensure that the maximum flow rate does not exceed constant flow within nominal operating conditions. Check the flow rate in your distribution system to determine the appropriate meter size for your application.
When selecting a water meter, youll need to consider your water supply source. Does your water come from a river, a well, a pipe, or somewhere else? Where your water comes from will influence its quality, and therefore the type of meter youll need.
For example, mechanical water meters are not ideal for applications where the water is not of good quality, as poor-quality water can quickly wear out the propeller and other moving parts inside the meter. This type of water meter is better suited to measuring less contaminated water. In addition, the water source will affect the range of flow rates and pressures and consequently the selection of the right water meter for the application.
The essence of installing a water meter is to ensure accurate readings. Knowing how much water flows into your building or unit can help minimize consumption and encourage conservation. Considering this, the ideal water meter should be as precise as possible, constantly delivering the same readings under similar conditions.
Inaccurate readings might result in quality issues and high energy costs. For a water meter to be accurate, the environmental conditions must meet the manufacturers requirements. These requirements include the flow range, temperature, vibration, installation, and flow profile.
Normally observed over the course of a week, the water demand for a building can vary according to its use, the number of occupants, the time of day and the season. While some applications experience very little fluctuation in water consumption, others can experience significant variations. Its therefore important to choose a water meter capable of operating under the flow conditions dictated by the building or application, whether they be variable or more or less stable.
To do this, youll need to know the operating flow rates of the chosen water meter, which include minimum, transitional, permanent and overload flow rates. The ideal water meter must be able to handle the different flow rates of your application, as choosing the wrong meter, once again, can lead to inaccurate measurements and premature meter wear.
Pressure loss is an important element to consider when selecting a water meter, as choosing the wrong meter for your application will impact your systems performance. To choose the right meter, start by determining the acceptable pressure loss for your building or application.
The acceptable pressure drop across the meter should be 10% of the initial pressure in the pipe. For example, if the pound per square inch (PSI) in the piping system is 80 PSI, the acceptable pressure drop should be 8 PSI. If the pressure is too low, the meter may fail and give inaccurate readings.
Once this acceptable pressure loss has been identified, select a water meter that falls within this pressure range, or provide provisions to compensate for proper system operation, such as a booster pump.
In Canada, water meters are mostly installed indoors to protect them from the harsh conditions of our northern climate. However, some regions with milder climates, such as southern British Columbia, may allow installation in underground chambers. Wherever the meter is installed, its essential to choose the right technology to enable it to operate under optimum conditions.
The piping system is another factor influencing location. The meter may be placed next to the pumping station, before a control valve or before an elbow. The direction of piping also affects whether the meter is installed vertically or horizontally. The right location for the meter determines its overall performance and guarantees more accurate readings.
In addition to the location and other factors mentioned above, its also important to check the conditions under which the water meter is installed. These conditions can vary from one water meter to another and include information such as orientation, accessibility, length of pipes, the addition of a strainer, installation of a certain type of valve and more. Its therefore important to take these factors into account when selecting your meter to ensure optimal operation and optimize its service life. Many manufacturers and suppliers supply guides with their water meters to facilitate installation.
Price comparison is a vital part of water meter selection. After all, water meters come with different price tags based on their features and specifications. The most dependable and accurate meters are pricier thanks to their high-reliability ratings. They are less likely to fail and provide accurate readings all the time.
The buying price is not the only factor to consider. Buyers should consider other costs, including installation, maintenance, calibration, adjustment, longevity, and data collection. Talking to an expert can help you decide the appropriate meter for your application based on your budget.
The lifespan of a water meter depends on several factors, such as make, installation, technology, operating mechanism, workload, and maintenance. On average, a solid water meter should last at least 12 years before requiring a replacement. The ideal water meter should be durable and easy to maintain. Moreover, replacement parts should be readily available for easy repairs. Ensure the meter site is easily accessible and clear of any hazardous materials for proper maintenance.
Selecting the right water meter for an application is based on several factors. These include considerations related to the building, its use, location, available space and meter size, and more economic factors such as budget, measurement accuracy and maintenance. Defining the conditions of your application from the outset will enable you to choose the right water meter quickly from among the many options available. And while choosing the right water meter help conserve water and reduce energy costs, it can potentially help detect leaks.
If youre considering the purchase of a mechanical water meter and need assistance, our experts are ready to answer all your questions. Please view our selection of mechanical water meters and contact us for more information.
Article | June 15, .
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Water utilities rely on accurate and dependable flow measurement for critical process controls. Regulatory agencies also require flow monitoring and reporting, with specific accuracy limits.
Flow metering technology is continually improving, and a variety of meter types and styles are available. Each flow meter application is unique, and flow meter selection should not be based on low bid. While cost is always important, other factors carry more weight when it comes to selecting a flow meter.
Here are six important considerations for choosing the best flow meter.
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Before specifying a meter, its important to clearly understand the entire process and where the meter fits in that process. Involve plant operators during design to discuss issues of maintenance, calibration, and access. Does flow need to be totaled? Does information need to be transmitted to a supervisory control and data acquisition (SCADA) system or be available on the Web? Knowing who will be using the meter and specifically how it will be used is the starting point.
The media being measured is one of the most important considerations when choosing a flow meter. Conductivity, temperature, pressure, and viscosity can affect certain types of flow meters. How clean or dirty the water is may also impact the type and style of meter.
So, the next step in choosing a flow meter is to thoroughly understand the characteristics of the flow to be measured. In an existing facility, data on the matrix should be readily available for review. Standard engineering criteria can be used for new facilities if needed.
For example, propeller meters are often used in drinking water systems, especially for measuring well water withdrawal. These velocity meters can measure fluids containing a certain amount of sand, dirt, iron, and other contaminants. However, these meters would not be recommended for raw wastewater containing stringy materials and wipes, which would foul or damage the meter.
On the other hand, electromagnetic mag meters are very accurate when measuring conductive materials like water and wastewater. They have no moving parts to corrode or break. Different styles of mag meters are available for specific fluid measurements, including drinking water, wastewater, and sludges.
How accurate must the flow measurement be? This depends on the meters purpose. Flow measured to control chemical feed may need greater accuracy than that used for general tracking of water treated. Flow measurement for billing purposes, such as a water supply authority selling water to a utility, must be extremely accurate.
Regulatory conditions may also apply. Most water and wastewater systems have permit limits for maximum flows and must measure and report daily flow totals. Be sure to check all existing permits for flow measurement accuracy requirements.
Measurement range and turndown rates must be considered as well. Engineers often size equipment and pipe for a 20-year growth period, which can lead to problems when current flows are much less than design rates.
Some utilities may require meters to have NSF-61, NSF-372 approvals or ISO certification. Manufacturers may also accredit their calibration laboratories through the National Voluntary Laboratory Accreditation Program (NVLAP). NVLAP provides NIST accreditation to testing and calibration laboratories using management and technical requirements of the international standard ISO/IEC :.
Proper location and installation of flow meters are critical for providing accurate measurement. Even the most sophisticated meter will read erroneously if installed improperly. Improper installation occurs most often when trying to force a flow meter into an existing plant or network or make it fit in a tight site.
Most flow meters require a specific amount of straight run pipe to prevent flow disturbances. Pipe bends, valves, tees, and reducers can create significant flow measurement errorsup to 50 percent for certain meters. In a new system, straight runs can usually be designed appropriately. However, sufficient straight runs may be difficult to obtain in existing systems or constrained sites. Flow conditioners may help reduce inaccuracies. Also, some meters can measure more accurately than others under these conditions.
Pipe size, material, and direction are part of the meter selection equation. For instance, downward flow should be avoided when measuring liquid. As noted previously, systems are sometimes overdesigned to accommodate future growth. In most cases, the pipe must be full for accurate measurement.
What information needs to be monitored and recorded, and how? Some applications require continuous recording of the flow, plus total flow readings. Do operators need event notification, such as high flow or zero flow alarms? Data must often be sent to a SCADA system. In some cases, flow meters are located remotely and need battery-powered devices.
During design, determine what type of output is needed. While 4 to 20 milliamp is most common, some facilities may need MODBUS cards or other instrumentation.
Flow meter manufacturers representatives have a great depth of expertise. They know the right questions to ask and can recommend the best solutions for each unique installation. Use them as a trusted technical partner.
Your technical partner can help to make cost-effective decisions as well. Manufacturers can help by outlining lifecycle costs, including installation, maintenance, and calibration in addition to purchase price.
Most of all, your technical partner can help you choose the right meter up front rather than trying to make the wrong meter work after its installed.
Are you interested in learning more about Water Meter Test Bench Systems? Contact us today to secure an expert consultation!