Blog - Post List

  • Temperature Blog: Wireless Temperature Monitoring and Control

    Jim Cahill
    Wireless sensors make sense in many monitoring and even some control applications. In a Food Engineering article, Making the argument for wireless temperature solutions , experts from several instrumentation and control suppliers offered their thoughts on where wireless temperature devices make sense. Emerson’s Kevin Stultz was one of these experts who shared his thoughts. Kevin first explained that: …Rosemount temperature…

  • Temperature Blog: Wireless Temperature Monitoring and Control

    Jim Cahill
    Wireless sensors make sense in many monitoring and even some control applications. In a Food Engineering article, Making the argument for wireless temperature solutions , experts from several instrumentation and control suppliers offered their thoughts on where wireless temperature devices make sense. Emerson’s Kevin Stultz was one of these experts who shared his thoughts. Kevin first explained that: …Rosemount temperature…

  • Temperature Blog: Wireless Temperature Monitoring and Control

    Jim Cahill
    Wireless sensors make sense in many monitoring and even some control applications. In a Food Engineering article, Making the argument for wireless temperature solutions , experts from several instrumentation and control suppliers offered their thoughts on where wireless temperature devices make sense. Emerson’s Kevin Stultz was one of these experts who shared his thoughts. Kevin first explained that: …Rosemount temperature…

  • Temperature Blog: Wireless Temperature Monitoring and Control

    Jim Cahill
    Wireless sensors make sense in many monitoring and even some control applications. In a Food Engineering article, Making the argument for wireless temperature solutions , experts from several instrumentation and control suppliers offered their thoughts on where wireless temperature devices make sense. Emerson’s Kevin Stultz was one of these experts who shared his thoughts. Kevin first explained that: …Rosemount temperature…

  • Analytical Experts Blog: Choosing the Right Gas Analyzer for Nitrogen Oxide (NOx) Emissions Monitoring

    Jim Cahill
    NO x is probably the most ubiquitous combustion-created air pollutant since it can be generated by any process burning any fossil fuel, and it is tightly regulated by the U.S. EPA and other regulatory bodies around the world. Plants with relevant combustion processes, including most refineries and chemical processing plants, must monitor NO x output continuously any time fuel is burning. How plants choose to do this is…

  • Analytical Experts Blog: Choosing the Right Gas Analyzer for Nitrogen Oxide (NOx) Emissions Monitoring

    Jim Cahill
    NO x is probably the most ubiquitous combustion-created air pollutant since it can be generated by any process burning any fossil fuel, and it is tightly regulated by the U.S. EPA and other regulatory bodies around the world. Plants with relevant combustion processes, including most refineries and chemical processing plants, must monitor NO x output continuously any time fuel is burning. How plants choose to do this is…

  • Analytical Experts Blog: Choosing the Right Gas Analyzer for Nitrogen Oxide (NOx) Emissions Monitoring

    Jim Cahill
    NO x is probably the most ubiquitous combustion-created air pollutant since it can be generated by any process burning any fossil fuel, and it is tightly regulated by the U.S. EPA and other regulatory bodies around the world. Plants with relevant combustion processes, including most refineries and chemical processing plants, must monitor NO x output continuously any time fuel is burning. How plants choose to do this is…

  • Analytical Experts Blog: Choosing the Right Gas Analyzer for Nitrogen Oxide (NOx) Emissions Monitoring

    Jim Cahill
    NO x is probably the most ubiquitous combustion-created air pollutant since it can be generated by any process burning any fossil fuel, and it is tightly regulated by the U.S. EPA and other regulatory bodies around the world. Plants with relevant combustion processes, including most refineries and chemical processing plants, must monitor NO x output continuously any time fuel is burning. How plants choose to do this is…

  • Analytical Experts Blog: Choosing the Right Gas Analyzer for Nitrogen Oxide (NOx) Emissions Monitoring

    Jim Cahill
    NO x is probably the most ubiquitous combustion-created air pollutant since it can be generated by any process burning any fossil fuel, and it is tightly regulated by the U.S. EPA and other regulatory bodies around the world. Plants with relevant combustion processes, including most refineries and chemical processing plants, must monitor NO x output continuously any time fuel is burning. How plants choose to do this is…

  • Pressure Blog: Prevent 4 Common Pressure Gauge Failures and Safety Risks

    Jim Cahill
    Mechanical pressure gauges could be costing your plant more than you think. Traditional Bourdon tube pressure gauges rely on an elastic tube that deforms in response to pressure changes. The following process environments can cause mechanical components to fail or Bourdon tubes to break, resulting in inaccurate readings, downtime, and potential safety issues. Extreme Temperatures: Hot processes and high ambient temperatures…

  • Pressure Blog: Prevent 4 Common Pressure Gauge Failures and Safety Risks

    Jim Cahill
    Mechanical pressure gauges could be costing your plant more than you think. Traditional Bourdon tube pressure gauges rely on an elastic tube that deforms in response to pressure changes. The following process environments can cause mechanical components to fail or Bourdon tubes to break, resulting in inaccurate readings, downtime, and potential safety issues. Extreme Temperatures: Hot processes and high ambient temperatures…

  • Pressure Blog: Prevent 4 Common Pressure Gauge Failures and Safety Risks

    Jim Cahill
    Mechanical pressure gauges could be costing your plant more than you think. Traditional Bourdon tube pressure gauges rely on an elastic tube that deforms in response to pressure changes. The following process environments can cause mechanical components to fail or Bourdon tubes to break, resulting in inaccurate readings, downtime, and potential safety issues. Extreme Temperatures: Hot processes and high ambient temperatures…

  • Pressure Blog: Prevent 4 Common Pressure Gauge Failures and Safety Risks

    Jim Cahill
    Mechanical pressure gauges could be costing your plant more than you think. Traditional Bourdon tube pressure gauges rely on an elastic tube that deforms in response to pressure changes. The following process environments can cause mechanical components to fail or Bourdon tubes to break, resulting in inaccurate readings, downtime, and potential safety issues. Extreme Temperatures: Hot processes and high ambient temperatures…

  • Flow Blog: Calibrating Fiscal Transfer Measurements with Master Meter Provers

    Jim Cahill
    Accuracy of fiscal transfer measurement is of great importance as even a small error in measurement can lead to a large financial difference. Provers ensure a fiscal transfer system is providing the most accurate measurement possible. They provide a stationary or mobile means to facilitate calibration of flow meters before, during or after a transfer. A prover is an automated system that provides on-site calibration…

  • Level Blog: Low Dielectric Radar Level Measurement

    Jim Cahill
    Guided wave level measurement technology works by sending low-energy microwave pulses along a metal probe which is then reflected by the surfaces. The probe is in direct contact with the media and detects a level when reaching a media with a different dielectric constant. It calculates the distance to the surface, which is then subtracted from the total length to calculate the level. For applications with fluids with…

  • Level Blog: Low Dielectric Radar Level Measurement

    Jim Cahill
    Guided wave level measurement technology works by sending low-energy microwave pulses along a metal probe which is then reflected by the surfaces. The probe is in direct contact with the media and detects a level when reaching a media with a different dielectric constant. It calculates the distance to the surface, which is then subtracted from the total length to calculate the level. For applications with fluids with…

  • Level Blog: Low Dielectric Radar Level Measurement

    Jim Cahill
    Guided wave level measurement technology works by sending low-energy microwave pulses along a metal probe which is then reflected by the surfaces. The probe is in direct contact with the media and detects a level when reaching a media with a different dielectric constant. It calculates the distance to the surface, which is then subtracted from the total length to calculate the level. For applications with fluids with…

  • Level Blog: Low Dielectric Radar Level Measurement

    Jim Cahill
    Guided wave level measurement technology works by sending low-energy microwave pulses along a metal probe which is then reflected by the surfaces. The probe is in direct contact with the media and detects a level when reaching a media with a different dielectric constant. It calculates the distance to the surface, which is then subtracted from the total length to calculate the level. For applications with fluids with…

  • Flow Blog: Overcoming Project Restart and Flow Measurement Challenges

    Jim Cahill
    I guess it’s maybe not true for most who fill up their cars at the gas station, but I’m happy seeing the steady rise in the price of a barrel of crude oil. Given the number of jobs affected in the oil & gas upstream, midstream and downstream industries here in Texas, higher prices are welcomed by many. In a World Oil article, Versatile DP flow metering technology solves redesign challenges on offshore platform project…

  • Flow Blog: Coriolis Flow Meters for High Accuracy Refining Applications

    Jim Cahill
    Measuring flow rates with differential pressure (DP) instruments has been a time-tested practice for decades. While still the most widely used flow measurement technology, other technologies have unique advantages for some applications. In a Processing article, Controlling critical refining applications with Coriolis meters , Emerson’s Julie Valentine and Meha Jha share specific applications where Coriolis flow measurement…

  • Analytical Experts Blog: Reduced Downtime with Gas Chromatograph Maintainable Module

    Jim Cahill
    Gas chromatographs (GCs) are used in natural gas custody transfer metering applications to measure the various hydrocarbon components. An analytical module inside the GC can become contaminated and require replacement. The traditional GC uses disposable analytical modules which are wasteful and expensive. This quick 1:38 YouTube video, The Maintainable Module of Rosemount 370XA Gas Chromatograph , shows how this innovative…

  • Analytical Experts Blog: Reduced Downtime with Gas Chromatograph Maintainable Module

    Jim Cahill
    Gas chromatographs (GCs) are used in natural gas custody transfer metering applications to measure the various hydrocarbon components. An analytical module inside the GC can become contaminated and require replacement. The traditional GC uses disposable analytical modules which are wasteful and expensive. This quick 1:38 YouTube video, The Maintainable Module of Rosemount 370XA Gas Chromatograph , shows how this innovative…

  • Analytical Experts Blog: Reduced Downtime with Gas Chromatograph Maintainable Module

    Jim Cahill
    Gas chromatographs (GCs) are used in natural gas custody transfer metering applications to measure the various hydrocarbon components. An analytical module inside the GC can become contaminated and require replacement. The traditional GC uses disposable analytical modules which are wasteful and expensive. This quick 1:38 YouTube video, The Maintainable Module of Rosemount 370XA Gas Chromatograph , shows how this innovative…

  • Analytical Experts Blog: Reduced Downtime with Gas Chromatograph Maintainable Module

    Jim Cahill
    Gas chromatographs (GCs) are used in natural gas custody transfer metering applications to measure the various hydrocarbon components. An analytical module inside the GC can become contaminated and require replacement. The traditional GC uses disposable analytical modules which are wasteful and expensive. This quick 1:38 YouTube video, The Maintainable Module of Rosemount 370XA Gas Chromatograph , shows how this innovative…

  • Analytical Experts Blog: Reduced Downtime with Gas Chromatograph Maintainable Module

    Jim Cahill
    Gas chromatographs (GCs) are used in natural gas custody transfer metering applications to measure the various hydrocarbon components. An analytical module inside the GC can become contaminated and require replacement. The traditional GC uses disposable analytical modules which are wasteful and expensive. This quick 1:38 YouTube video, The Maintainable Module of Rosemount 370XA Gas Chromatograph , shows how this innovative…

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