We offer the widest product range of low-flow (mass) flow meters and controllers on the market. Numerous styles of both standard and bespoke instruments can be offered for applications in laboratory, machinery, industry and hazardous areas.
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Bronkhorst instruments are used for numerous applications in many different markets. In this section you will find an overview of the main markets for our equipment, illustrated with some typical examples of applications.
Are you looking for technical documentation, are you interested to learn more about the measuring principles of Bronkhorst products, or you do want to get in contact with a Bronkhorst Service Engineer? This section will guide you to the relevant service & support topics.
Bronkhorst High-Tech BV the leaders in Mass Flow Meter / Mass Flow Controller technology for gases and liquids, Pressure Controllers and Evaporation Systems.
A pilot plant is an important step from lab-scale to commercial-scale production. In the chemical industry, it is common to build pilot plants to minimise risks in the final plant, especially in advanced chemicals. In this ‘step-in-between’ it is essential to measure the critical fluids very accurately to draw the right conclusions in time.
Pumps are often used in pilot plants to control the liquid flows, but the accuracy, fast & efficient data of the liquid flows is the key to your success. Therefore, in this blog, I will go deeper into the benefits of choosing the right solution for your pilot plant and the role of pump control.
Based on market research and analysis, it became clear to us that customers from the chemical industry can use either industrial flow meters or laboratory flow meters in their pilot plants. Both are not ideal. For our product management team, this insight was our starting point. Thanks to the hard work of our technical colleagues, we have been able to market a flow meter that is specifically suitable for pilot plants. But first let’s start with analysing the situation…
When measuring critical fluids, the amount of highly accurate data – which is needed to make the right decisions for the final plant – need to be collected accurate, fast and efficient. If fluids cannot be measured accurately enough, tests must run for a very long time to finally collect the required data to build decisions on. Pilot plant tests usually cost a large amount of money, especially when a long testing time is involved. However, when the system is equipped with accurate instrumentation, the test duration can be shortened dramatically.
There are several solutions for you to choose from when dosing fluids in your process. Many users choose a volume-based dosing pump. A dosing pump is a typical solution to dose a certain amount of fluid into a process. This volume-based approach is good enough for non-critical processes. But if the process is critical, the operator needs to be sure that the dosing pump is dosing the correct amount. This is the point where an accurate flow meter is a missing link.
If you decide to integrate a flow meter in your process as well, the flow created by a (dosing) pump can be measured and corrected. How? The flow meter measures the mass flow and the measured value is used to correct the pump directly (read: ‘pump control’). So, a flow meter with (external or internal) controller functionality converts the dosing pump into an advanced closed-loop dosing system! This is how a dosing pump finally becomes part of an accurate dosing solution.
But which type of flow meter should you choose for use in a pilot plant? As we know that the dosing pump is measuring the volume of the fluid only – and the volume of a fluid can be influenced by many parameters – a mass flow meter would be the preferred choice. It compensates for the weaknesses of the dosing pump. A Coriolis mass flow meter measures accurately and independently on fluid properties, so if you combine a dosing pump with a Coriolis mass flow meter, you get a very reliable and accurate dosing system.
Many types of Coriolis mass flow meters are available on the market, but can all of these become a perfect fit?
In many cases, the application is special in one way or another. As previously mentioned, in pilot plants several things come together. That is why the following three specifications are particularly important when you select your Coriolis mass flow meter:
So, we can conclude that two worlds come together in a pilot plant: lab and industry. Dedicated instrumentation offers you the best pilot plant performance. An accurate dosing pump is a good solution for non-critical processes. But for critical processes in a pilot plant you should select the right Coriolis mass flow meter, where practical accuracy is relevant, but compactness and robustness must also be of sufficient value.
Taken the conclusion into account, the new Bronkhorst Coriolis MI-series mass flow meter addresses all relevant specifications. In the first place, it measures very accurate, but it is also compact and mounted in a very robust stainless-steel housing. In addition to these required specifications, it is also equipped with an integrated PID controller, so it can operate a pump or valve extremely fast on its own without the need for additional electronics. The MI-series are specially designed for your chemical pilot plant!
Accurate flow meters for fast batch dosing in filling lines. Learn about our additive dosing solutions for flow meters in the food and beverage industry.
Why do we need to have a Coriolis mass flow meter if we use a dosing or metering pump?
The M15 for me is the jewel in the crown of the Bronkhorst Coriolis range as it continuously out performs its competition and specification is unique and performs above expectations of many of my customers.