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Products for Steel & Smelters Industry

McON Air SIL

kachel produkte mconaircompact

Reliable flow measurement for hot and dust laden gases - single channel solution

The McON Air SIL flow measurement system is a single channel solution which works according a patented correlation principle. The system measures the time of flight of unique signal patterns created by particles contained in the gas. Because the principle is time based it is accurate and drift free over the entire lifetime.

Advantages & Benefits

  • Reliable measurement of dust laden gases
  • Temperature range up to 1000 °C/1800 °F
  • Drift free - no calibration, no purging
  • Virtually no maintenance
  • SIL 2 version available
  • Turn down ratio up to 25
  • No K-Factors - direct time of flight measurement
  • Hot tapping solution for full plant availability

McON IR

kachel produkte mconaircompact

Reliable flow measurement for hot and dust laden gases - single channel solution

The McON IR flow measurement system is a single channel solution which works according a patented correlation principle. The system measures the time of flight of unique signal patterns created by particles contained in the gas. Because the principle is time based it is accurate and drift free over the entire lifetime.


Advantages & Benefits

  • Unique measurement system for high temperature applications.
  • McON IR measures the air velocity directly and is calibration free.
  • The measurement principle is digital, reliable and absolutely drift free.
  • Direct gas-flow-measurement at the process outlet of EAF, BOF and lignite furnaces without additional flow by water quenchers.
  • IR sensors are non intrusive and have no wear, long operation intervals without cleaning.
  • Enables mass and energy balance to optimize energy intensive processes.
  • Enables mass and energy balance for mill state controllers.
  • Reliable control and optimization of dedusting sites results in direct savings of fan power.
  • Gas flow measurement directly after the 4th hole.
  • Measurement of chemical composition CO, CO2, CH4, H2O.
  • Measurement of gas temperature.
  • Optimisation of electrode and refractory wear, efficiency and operation cycles.

 
Patents pending:
PCT/EP2019/075710

McON Air Portable

kachel produkte mconaircompact

Measure hot and dusty gases: anytime - anywhere

McON Air Portable provides you the same robust, drift and calibration free measurement like McON Air but as mobile device. Take the complete set for measuring hot and dusty flows of process gas with you, even on an aircraft. Find out in any plant, what the gas flows are. This device gives you a mobile tool option as well as a long term recording tool.

Advantages & Benefits

  • The full advantage of the measurement principle of McON air (see above)
  • Rugged and portable cases for mobile use
  • Plug and play installation at the client: install the sensors and see instantaneous result (in m/s of ft/sec)
  • Sensors with different length for different duct or pipe size.
  • SD Card for data logging in CSV format: check the flows over weeks
  • An additional 4-20mA output so you can connect right to the plant DCS
  • A tool developed with professionals from the industry

McON Air Compact

kachel produkte mconaircompact

Reliable flow measurement for hot and dust laden gases - single channel solution

The McON Air Compact flow measurement system is a single channel solution which works according a patented correlation principle. The system measures the time of flight of unique signal patterns created by particles contained in the gas. Because the principle is time based it is accurate and drift free over the entire lifetime.

Advantages & Benefits

  • Reliable measurement of dust laden gases
  • Temperature range up to 1000 °C/1800 °F
  • Drift free - no calibration, no purging
  • Virtually no maintenance
  • Turn down ratio up to 25
  • No K-Factors - direct time of flight measurement
  • Hot tapping solution for full plant availability
  • Even for emission monitoring: Most accurate measurement of the total stack flow