Liquid Interface Level Measurement Using Guided Wave Radar, Magnetic Level Gauges, Float & Displacer, Thermal Dispersion, and RF Capacitance

Liquid Interface Level Measurement

The need for interface measurement arises whenever immiscible liquids - those incapable of mixing - reside within the same vessel. The lighter material rises to the top and the heavier material settles at the bottom. In oil production, for example, water or steam is used to extract oil from a well. Well fluids then route to production separators where they settle into their primary constituent parts as a water-hydrocarbon interface. Water may also be used as a transport medium or a cleaning agent and forms an interface with an allied material which is later extracted.

Knowing the position of a process interface is necessary for maintaining product quality and operations efficiency. The interface is measured and controlled by precision level switches and transmitters. Though at least 20 different types of liquid level measurement devices are in service today, only a very few are suitable for accurate and reliable interface measurement. Grouped by their operating technologies, these include Buoyancy (Floats and Displacers), RF Capacitance, Thermal Dispersion, Radar, and Redundant Technologies (those combining two measurement technologies in one instrument).

Interface Level Measurement
The five leading interface measurement technologies in use today are Guided Wave Radar, Magnetic Level Gauges, Float & Displacer, Thermal Dispersion, and RF Capacitance. These five leading interface measurement technologies in use today are discussed in the technical bulletin titled "Liquid Interface Level Measurement" and produced by Magnetrol International.


For more information on any industrial level control application, contact Miller Energy. Call them at 800-631-5454 or visit their website at https://millerenergy.com.

Industrial Valve Automation from Miller Energy, Inc.

Miller Energy's valve automation philosophy is to design, build, and install automated valve packages that improve process efficiency and reliability. We deliver customized actuation products and services that suit your criteria and specifications. Our automated valve packages can be designed to perform basic service, or for specific unique applications where challenging or severe application criteria exist. Miller Energy has relationships with the most highly regarded brands of industrial valves, actuators and controls. Beyond that, Miller's team of valve experts have years of experience and can help you find solutions to fit your specific requirement. From specification, to start-up, through preventive maintenance, Miller Energy is there with you throughout the lifetime of your automated valve.

Miller Energy Valve Automation

  • Quarter-turn Ball, Butterfly and Plug Valves
  • Linear Gate, Knifegate, and Globe Valves
  • Pneumatic Actuators
  • Electric Actuators
  • Engineered Brackets and Couplings
  • Valve Positioners
  • Limit Switches
  • Solenoid Valves
  • Valve Communication Packages

For more information, contact Miller Energy, Inc. Call them at 800-631-5454 of visit their website at https://millerenergy.com.

White Paper: Improving Health and Safety with Magnetic Level Indicators in Ammonia Refrigeration Applications

Magnetic Level Indicators in Ammonia Refrigeration
Anhydrous ammonia is a versatile commodity in many manufacturing applications, including cold storage and food processing facilities. In comparison, anhydrous ammonia raises a range of safety and environmental issues to be addressed when determining some form of process instrumentation. Traditionally, visual level indication of anhydrous ammonia was obtained using sight glasses. This white paper discusses key areas in the ammonia refrigeration process where magnetic level indicators (MLIs) can provide a safer , more reliable method of level measurement over conventional technologies.

The goal of this document is to highlight the benefits of MLIs that will lead to improved personnel safety , reduced risk of fugitive emissions, reduced environmental impact, and reduced maintenance costs in large commercial and industrial ammonia refrigeration systems.


Contact Miller Energy for any industrial level control application. Call  800-631-5454, or visit their website at https://millerenergy.com.

Using Advanced MFC Alarms to Diagnose and Solve Bioprocessing Issues


Losing even a single batch from one of your bioreactors not only impacts your business—it can delay delivery of vital biologics people count on every day.

The best digital mass flow controllers (MFCs) feature alarms and diagnostic tools to give you more complete insight into the quality and efficiency of your biopharma processes.

For more information, contact Miller Energy. Call them at 800-631-5454 or visit their website at https://millerenergy.com.

The McCrometer FPI Mag Full Profile Insertion Flow Meter


The McCrometer FPI Mag is ideal for capital or maintenance projects, retrofits and sites never before metered. The unique combination of accuracy, ease of installation, and total cost savings make the FPI Mag the perfect choice for a wide range of Municipal and Industrial Applications.

The FPI Mag has no moving parts and a single-piece design. The multi-electrode water flow sensor contains nothing to wear or break and is generally immune to clogging by sand, grit or other debris. The FPI Mag is available with forward-flow only or bi-directional measurement for line sizes from 4 to 138 inches.

The sensor body is made from heavy-duty 316 stainless steel for maximum structural integrity and is hermetically sealed and protected by NSF certified 3M fusion-bonded epoxy coating.

The FPI Mag is rated for Hazardous Locations:
- Class 1, Division 2, Groups A-D, T5
- Class 2, Zone 2, Groups A-D, T5

For more information on the FPI Mag contact Miller Energy, Inc. Call them at 800-631-5454 or visit their site at https://millerenergy.com.


Understanding Safety Integrity Level (SIL)

Safety integrity level (SIL)

Safety integrity level (SIL)
Nothing is more important than safety to the process control industries. High temperature and pressure, flammable and toxic materials are just some of the issues faced on a daily basis. Reliability is a key component of safety; the more reliable the device, the safer the critical process.

Safety integrity level (SIL) is defined as "relative level of risk-reduction provided by a safety function, or to specify a target level of risk reduction." SIL ratings are applied in accordance of frequency and the severity of the hazard. These ratings determine the level of performance required to achieve and maintain safety, as well as the probability of failure.

There are four SIL levels; SIL 1, SIL 2, SIL 3, and SIL 4. These SIL levels relate to the risk of failure - a higher the SIL rating poses a higher risk of failure, in turn requiring stricter safety requirements.

Magnetrol, a leading manufacturer of innovative level, flow and volume controls for the process industries has put together this excellent technical note to help you better understand Safety Integrity Level.



Miller Energy, Inc.
https://millerenergy.com
800-631-5454