We Came accross Various Sectors as Below and We Found People Dont exactly Know The Features of The advanced mass Flowmeters based on the Thermal Principles and Other Coriolis Types also They dont Know The Turndown ratios
For This we Tried To Develop Some animations
Agriculture
Aquaculture
Biofuels Gas Solutions for Improved Productivity
Chemicals
Energy
Food and Beverage
Medical and Healthcare
Metals and Metal Fabrication
Oil, Gas, Petrochemical, and Refining
Pharmaceutical and Biotechnology
Transportation
Universities and Research Institutes
Water Treatment
Experts claim that over 75 percent of the flowmeters installed in industry are not performing satisfactorily. And improper selection accounts for 90 percent of these problems. Obviously, flowmeter selection is no job for amateurs.
The most important requirement is knowing exactly what the instrument is supposed to do. Here are some questions to consider. Is the measurement for process control (where repeatability is the major concern), or for accounting or custody transfer (where high accuracy is important)? Is local indication or a remote signal required? If a remote output is required, is it to be a proportional signal, or a contact closure to start or stop another device? Is the liquid viscous, clean, or a slurry? Is it electrically conductive? What is its specific gravity or density? What flow rates are involved in the application?
It is just as important to know what a flowmeter cannot do as well as what it can do before a final selection is made. Each instrument has advantages and disadvantages, and the degree of performance satisfaction is directly related to how well an instrument's capabilities and shortcomings are matched to the application's requirements. Often, users have expectations of a flowmeter's performance that are not consistent with what the supplier has provided. Most suppliers are anxious to help customers pick the right flowmeter for a particular job. Many provide questionnaires, checklists, and specification sheets designed to obtain the critical information necessary to match the correct flowmeter to the job.
Technological improvements of flowmeters must be considered also. For example, a common mistake is to select a design that was most popular for a given application some years ago and to assume that it is still the best instrument for the job. Many changes and innovations may have occurred in recent years in the development of flowmeters for that particular application, making the choice much broader.
A recent development is the availability of computer programs to perform the tedious calculations often necessary for selecting flowmeters. Calculations that used to take an hour can be performed in a matter of seconds.
We Have Developed a small Website For the Same
http://measurementsystemsofliquidsgases.org/
or
https://sites.google.com/
We Hope This Helps To Find a Right Choice and The Best Suitable Flowmeter
