The Critical Role of Flow Meters in the Aviation Industry

Aviation Industry | Flowmetrics

In 2016, over 700 million passengers took to the skies in the United States alone, based on the number of times someone boarded a plane for a one-way trip. And, even with that number of travelers, flying remains one of the safer forms of transportation statistically. Part of what makes flying comparatively safe is the strict guidelines involved in the proper operation and maintenance of passenger aircraft. Meeting these standards is no easy feat and, in fact, requires numerous precision instruments, including flow meters.

Continue reading “The Critical Role of Flow Meters in the Aviation Industry”

Ratemeters Help Modern Business Go With the Flow

Ratemeters Help Modern Business Go With the Flow | Flowmetrics

Modern industries are extremely advanced with demanding manufacturing schedules. Liquid product flow must be tracked and measured thoroughly and accurately throughout every process. To accomplish this vital task, manufacturers depend upon ratemeters. These instruments work in tandem with totalizers to monitor, measure and analyze liquid flow rates in many industrial production applications. Ratemeters are a pivotal part of many essential production processes.


Industries That Need Ratemeters


Ratemeters and totalizers are modern measurement tools that are critical to numerous production routines and schedules. Sometimes one instrument can perform the tasks of both devices. The agricultural industry measures the minimum amount of water necessary for sustained crop life while general industrial production requires accurate measurement and tracking of expensive liquid products and components.


Some critical industries that utilize ratemeters include:


  • Pharmaceutical
  • Food production
  • Aviation and aerospace
  • Energy
  • Petrochemical and chemical
  • Theoretical laboratory research
  • General production


The Necessity of Superior Design


The complexity of modern manufacturing demands exceptional equipment to initiate and monitor every step of the process. Accurately measuring liquid product flow is essential for making a high-quality end product, and ratemeters with sophisticated features are fundamental components of today’s manufacturing processes.


Ratemeters work in tandem with totalizers to monitor and measure liquid flow. The first electronic counter was created in 1913 by Australian engineer George Julius, and in just over a century, ratemeters have evolved into highly sophisticated measurement tools with intricate functions that include:


  • Fast readouts
  • Easy-to-read displays
  • Multiple input capabilities
  • Security features such as passwords and locking


Tracking liquid product flow movement and composition is so vital to so many industries that ratemeters have become standard equipment in manufacturing facilities. Because they are extremely important, there are numerous models ranging from those with basic operations to sensitive and precise versions that can detect tiny leaks or miniscule anomalies in flow patterns. With this many choices, there is a ratemeter that will work for any and every budget and project scope.


The End Products of Exceptional Planning


Excellent ratemeter design has evolved over the decades in order to meet today’s needs. Ratemeters are necessary components of almost all modern manufacturing processes, but they are also crucial in many other important applications, including research projects, radiation monitoring and measurement and healthcare. Just as their design has evolved, the practical functions of ratemeters have increased exponentially—they help manufacturers ensure that important medicines are safely made and delivered on schedule; they keep nuclear power plants safe and help companies conserve water.


Programmable ratemeters provide quick, easy-to-read measurements that are real-time accurate. Such precise monitoring is crucial in today’s cutting-edge production processes. The best ratemeters easily deliver basic functions but then add to their value by offering additional innovative options such as transmissions, alerts and alarms and tracking.


Modern industrial processes depend on accurate, timely monitoring to keep production safe and efficient. Sophisticated equipment such as a ratemeter with multiple, programmable functions is a vanguard of secure, optimized manufacturing, both today and in the future.


If you are reading this on any other blog than Flowmetrics it is stolen content. Follow us on Twitter@Flow_metrics. Come and visit our blog at

Aircraft Maintenance With Flying Colors

Aircraft Maintenance With Flying Colors | Flowmetrics

Whether you are handling a commercial jet or a passenger plane, caring for an aircraft is an important task that should be handled with caution. Successful aircraft maintenance is dependent upon the tools and resources you need to complete the job, however, so getting access to the best resources is imperative. What exactly is needed to complete aircraft maintenance to the highest standards possible? What does the process of aircraft maintenance involve? Well, a flow meter can be commonly used to measure and test air conditions in the aircraft, gauge fuel consumption and evaluate overall performance. These are important metrics for any aircraft, so if you want to pass aircraft maintenance with flying colors, you should invest in a capable flow meter to help.

How a Flow Meter Can Improve Maintenance Routines

The typical maintenance routine for an aircraft includes four different stages. They are commonly referred to as A, B, C and D checks, and each of them examines an aircraft at a different level of scrutiny. The parts of aircraft maintenance include:

  • The D check: The most extensive of these is completed only every 6 years. In this examination, the aircraft is nearly disassembled in order to inspect all parts.
  • The C check: This inspection occurs more frequently at every 20-24 months, on average, unless a minimum number of flight hours has been reached first. It is a substantial inspection that may take up to two weeks to complete.
  • The B check: Every 6-8 months, an aircraft is due for a B check, which entails slightly more in-depth inspection than the A check.
  • The A check: The frequency of this check varies based on the manufacturer’s recommendation, the number of flight hours logged and the type of aircraft.

A flow meter can help automate many of the processes entailed in each of these checks.

Measurement Solutions for Aircrafts

When you need to perform essential maintenance, a big part of the process is the measurement of certain substances and emissions. Some of these include:

  • Fuel
  • Lubrication
  • Hydraulic fluid
  • Coolant
  • Engine emissions
  • Leaks

Each of these requires a different approach to effective and accurate measurement. A high quality flow meter, however, will likely be able to measure all of these components and gather detailed readings of the data that is most necessary to measuring the performance of an aircraft. The latter of these items, leaks, are particularly important to detect early. A flow meter can do so by sensing any abnormalities or continual decreases in pressure.

Finding the Right Flow Meter for Aircraft Maintenance

It’s clear that a flow meter offers solutions to many of the steps in an aircraft maintenance routine, but how can you tell which will best meet your needs? You want one, of course, that will minimize additional effort and perform the required steps easily. You should consider these factors when selecting one:

  • Inclusion of features such as pickups and signal conditioners
  • Size of turbine
  • Measurement rates
  • Ability to process chemicals

There are many other items that you should check for, too, according to the needs of your aircraft maintenance needs.


If you are reading this on any other blog than Flowmetrics it is stolen content. Follow us on Twitter@Flow_metrics. Come and visit our blog at