Electromagnetic flowmeters from NovaMAG offer a unique option with their no-proving (simulation) calibration process, making in-situ installation and maintenance much more economical and efficient. This article provides an overview of the advantages of using a no-proving calibration and how to go about the process.
No-proving calibration is a method of verifying the accuracy of a flowmeter without performing a full calibration (i.e., proving). In no-proving calibration, the flowmeter is still tested and verified for accuracy, but without the added costs and time associated with a full calibration. The main advantage of no-proving calibration is that it allows for in-situ testing and avoids the need to remove the flowmeter from its location for calibration. This saves time, money, and reduces the potential of error due to manual handling.
In no-proving calibration, the flowmeter is tested using a reference or test flow meter that is calibrated against a standard reference meter. This provides a baseline comparison to confirm the accuracy of the flowmeter. The test is usually performed over a range of flow rates, ensuring that the flowmeter is accurate across its entire measurement range.
The flowmeter performance is also checked against known reference data, which is used to identify any issues with the flowmeter. If any issues are identified, the flowmeter can be adjusted to compensate for them. This ensures that the flowmeter is accurate and can be trusted to accurately measure flow.
The no-proving calibration process is relatively quick and straightforward, so it is a great option for those looking to quickly and accurately verify the accuracy of their flowmeters. Additionally, no-proving calibration is less expensive than traditional proving methods, making it a cost-effective solution for those who need to verify the accuracy of their flowmeters.
In conclusion, no-proving calibration is a great option for verifying the accuracy of NovaMAG flowmeters. It is a cost-effective, quick, and accurate solution that allows for in-situ testing and reduces the potential for error caused by manual handling. If you are looking for a reliable and accurate way to verify the accuracy of your flowmeters, no-proving calibration is the way to go.
