How new testing approach matches real world conditions?

Electric motors are the key factor in many industrial processes and can account for up to 70% of the total energy consumed in an industrial plant and consume up to 46% of all generated electricity worldwide. Given their precarious nature for industrial processes, the cost of downtime associated with failed motors can be tens of thousands of dollars per hour. Ensuring that motors are efficient and operate reliably is one of the most important tasks that maintenance technicians and engineers face daily.

In many circumstances, energy efficiency can mean the difference between profitability and financial losses. And, since motors consume such a significant portion of energy in industry, they have become the main target for generating savings and conserving profitability.

Traditional motor testing methods

Calculating electric motor performance and effectiveness in traditional methods should be well distinct. However, the process can be inflated to set up and difficult to apply in working processes. To measure electric motor efficiency both the electric input power and mechanical output power must be established over a wide range of dynamic operating conditions. The traditional method of measuring motor performance first requires technicians to install the motor into a motor testbed. The testbed consists of the motor under test, attached to either a generator or dynamometer.

During testing the load is varied to determine the efficiency over a range of operating modes. The testbed system may seem straightforward but there are several essential disadvantages:

  1. The motor must be removed from the service.
  2. The motor load is not truly representative of the load the motor serves while in service.
  3. During testing, the operation must be suspended (creating downtime) or a replacement motor must be temporarily installed.
  4. Torque sensors are expensive and have a limited operating range, so several sensors may be needed to test different motors.
  5. A motor testbed that can cover a wide range of motors is expensive and the users of this type of testbed are typically specialist motor repair or development organizations.
  6. “Real-world” operating conditions are not taken into account.

Electric motor parameters

Electric motors are designed for specific kinds of applications depending on the load, and each motor has different characteristics. These characteristics are classified according to the National Electrical Manufacturers Association (NEMA) or International Electrotechnical Commission (IEC) standards and have a direct effect on the operation and efficiency of the motor. Each motor has a nameplate that details key motor operating parameters and efficiency information in accordance with either NEMA or IEC recommendations. The data on the nameplate can then be used to compare the requirements of the motor against the true operating use mode.

A new approach

The Fluke 438-II Power Quality and Motor Analyzer provide a modernized and cost-effective method for testing motor efficiency while eliminating the need for external mechanical sensors and costly downtime. The Fluke 438-II, based on the Fluke 430-II Series Power Quality and Energy Analyzers, has its full capability to measure power quality while also measuring mechanical parameters for direct-on-line electric motors. Using data from the motor nameplate (either NEMA or IEC data) coupled with three-phase power measurements, the 438-II calculates the real-time motor performance data including speed, torque, mechanical power and efficiency without the need for additional torque and speed sensors. Also, it directly calculates the motor de-rating factor in operating mode.

The data required by the Fluke 438-II to perform these measurements is entered by the technician or engineer and includes the rated power in kW or HP, rated voltage and current, the rated frequency, rated cos φ or power factor, rated service factor and motor design type from the NEMA or IEC classes.

How it works

The Fluke 438-II unit provides mechanical measurements (motor rotating speed, load, torque, and efficiency) by applying proprietary algorithms to electrical waveform signals. The algorithms combine a mixture of physics-based and data-driven models of an induction motor without requiring any of the pre-measurement testing typically needed to estimate motor model parameters, such as stator resistance. Motor speed can be estimated from the rotor slot harmonics present in the current waveforms. Motor shaft torque can be related to induction motor voltages, currents and slip by well-known but complex physical relations. Electric power is measured using the input current and voltage waveforms. Upon obtaining torque and speed estimates, the mechanical power is computed using torque times speed. The motor efficiency is computed by dividing the estimated mechanical power by the measured electric power. Fluke conducted extensive testing with instrumented motors driving dynamometers. Actual electric power, motor shaft torque and motor speed were measured and compared to the values reported by the 438-II to determine accuracy levels.

Summary

Taking critical motor efficiency measurements is simplified by eliminating the need for external torque and separate speed sensors, making it possible to analyze the performance of most industrial motor-driven processes while they are still in service. This gives technicians the ability to decrease downtime and gives them the opportunity to trend motor performance over time, giving them a better picture of overall system health and performance. By trending performance, it becomes possible to see changes that may indicate forthcoming motor failures and allow replacement before failure. For best Fluke 438-II in the Philippines, check out our products at https://presidium.ph/product-category/products/fluke-industrial-group-tools/power-quality/.

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Preparing for Absence of Voltage Testing

Above anything else, safety in-home or workplace has to be a priority. According to OSHA and NFPA 70E, to ensure safety especially in a workplace, workers must de-energize all energized parts to which they will be exposed unless required for troubleshooting.

It may seem easy to place electrical equipment in an electrically-safe work condition but actually there’s more to it than just that, there are several factors you need to consider.

Planning

Proper planning is safety’s friend. A rigid and detailed plan before diving into the process makes everything easier and you will be freed from any harm. In this case, it will make testing simpler and safer.

Risk Assessment

A risk assessment has to be done. This is required by NFPA 70E 110.1(G) Electrical Safety Program, 130.1 Working While Exposed to Electrical Hazards, 130.4 (A) Shock Risk Assessment and 130.5 Arc Flash Risk Assessment.

Free from distractions

Before going into the process, workers must be fully prepped with tools and equipment and must be secured to their body to avoid falling off or any other possible distractions that might destroy the focus and might lead on to possible accidents.

Traffic in the area

Anything that isn’t necessary in the workplace must be put somewhere safe or things like barricades or barriers, vehicles or forklifts must be strategically positioned to exact places so it wouldn’t cause traffic. This is because these are factors that cause substantial hazards and if not attended to readily may pose threats or accidents.

Secure Work Permit

A secured Energized Electrical Work Permit is also required by NFPA 70E Section 130.2 (B). In this section, it indicates the assessments that are needed to be done, required PPE and precautionary measures in the work zone.

Given these factors to ensure safety in the workplace, workers must also remember these things before taking a single measurement.

  • Is this troubleshooting for the absence of voltage?
  • What required test instruments are needed?
  • Is a safety backup required? Do workers need training for CPR/use of an AED?
  • Where will the safe work zone be established?
  • What personal protective instruments are needed?

In testing for the absence of voltage which will verify if the voltage isn’t present before the beginning of work, you might also need to consider a non-contact proximity tester.

 

Running around the business in the vicinity of an electrically-active workplace, precautionary measures are absolutely needed. But before you go into the process of testing, be sure to be equipped with the right tools and equipment like professional digital meters to keep you away from harm or possible accidents. Visit us at www.presidium.ph to get the best and quality-assured digital multimeter for your business.

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Things to consider before adding thermal imaging to your business

Cheers to developments in technology, thermal images are now more affordable, easier to use and better deployed in industrial and commercial markets than ever before. ­­

This is a pleasant development for contractors looking into adding thermal imaging into their services, as most customers would have likely heard about thermal imaging and how it can improve their business.

Thermal cameras as the name suggests, produce thermal (heat) pictures of equipment which enables you to have a powerful demonstration to display indications that your equipment is about to fail.

For contractors, your edge is your experience in handling different types of equipment and failure scenarios. Like any troubleshooting scenario, the person using the thermal camera should draw on experience to analyze and understand the readings. With this, you can easily identify if the reading indicates that the electrical panel is hot and whether you should investigate the connections or the load.

Additionally, thermography is also helpful for regular maintenance and troubleshooting. It can easily help you identify which facility and units are critical to performance.

Thermal tools can easily be a part of your regular site inspections or during troubleshooting calls.

To maximize the effectiveness of your thermal imaging tools, it is also advisable to enroll in courses from reputable trainers on how to use them. This will give you a competitive advantage if you decide to offer thermal imaging as part of your services, as you will have the credentials, theoretical and practical knowledge on how you can get the best results from your thermal camera.

Here are just a few things on what you learn about in thermal imaging training:

  • How to use the thermal camera
  • Applications with the greatest return on investment
  • How to properly perform inspections
  • How to interpret results and generate meaningful and actionable reports
  • How to safely conduct thermography inspections in an industrial work environment

electrical thermal inspections

Source: Fluke.com

 

In summary, it would be beneficial for contractors to be equipped with thermal cameras. To maximize your investment in buying one, make sure that you take the time to train on the basics of using it and train by learning by using the tool to improve your services. Remember, the more you use, the more familiar you become in using thermal imaging tools. Visit our website at www.presidium.ph to know more about our products. GET A FREE DEMO https://presidium.ph/contact-us/

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Use the infrared camera lens that goes the distance

Thermal imagers aren’t your typical cameras. In addition to the standard lens that comes with it, most of them are compatible with other optional lenses as well. Changing the standard lens with a macro, telephoto, or wide-angle lens effectively gives you a different camera. This means it can give you more range and accuracy in capturing images anywhere, whether it’s right across you or hundreds of feet away.

One camera for everything

While a standard lens can do the job perfectly for occasions such as performing a general inspection of electrical equipment around a factory, you’d be limited should you need to scan a larger area like the ceiling or roof of a factory or warehouse. A wide-angle lens would be needed in such cases and it would be really useful if you are also a home inspector and you would need to scan the outside of a house. When it comes to scanning overhead vents or ductwork or high power transmission towers, a telephoto lens is your best bet which can allow you to work from the ground. An infrared camera can do all of that, with all the lenses packed into one single camera.

Importance of infrared lens material

It is important that the lenses you use are engineered for the most efficient transmission of energy to the detector. The first choice for the quality of infrared lenses is Germanium because it is transparent in the infrared spectrum and has a high index of refraction. Germanium lenses are protected by engineered coating, provide the most efficient material to transmit energy to the detector, making high-quality infrared images.

If you can get “smart” add-on lenses that can be swapped and used among multiple compatible cameras without any special recalibration for each camera, you can save a lot of time and money in being able to quickly swap out lenses for whatever the situation calls for. For best Fluke Ti401 PRO Thermal Camera, get a demo at https://presidium.ph/product-category/products/fluke-industrial-group-tools/infrared-cameras/.

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