You are welcome to meet us at MEORGA MSR tradeshow.
Vaisala's experts will be happy to discuss the opportunities provided by accurate data from products and solutions for measuring and monitoring critical environmental parameters such as
Vaisala's distributor Bühler Technologies GmbH is also showcasing our solutions in-line liquid process measurement of liquid concentration and density.
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The new Vaisala Indigo family takes industrial measurement to a new level. Interchangeable probes, smart transmitters and Vaisala Insight PC software can help you streamline your processes and make more informed and timely decisions.
The new Indigo family is made to last. It has the ability to perform even in the harshest and most extreme conditions. Year after year. With the same Vaisala quality that is present in safekeeping precious works of art in Louvre and the Lascaux cave and in extreme conditions on Mars and in Antarctica.
The Vaisala Indigo500 transmitter with dual-probe and multi-parameter support is a host device for Vaisala Indigo-compatible, stand-alone smart probes. The transmitter offers multiple additional features to the Indigo probes.
Vaisala Indigo200 Series transmitters are host devices for Vaisala's intelligent, stand-alone probes. The transmitter allows for easy evaluation and visualization of data, also wirelessly.
The Vaisala Insight PC Software gives quick access to the configurations and data of Indigo family probes.Use as a simple service interface for easy set-up, diagnostics, and field calibration and adjustment.
Vaisala DRYCAP® Dew Point and Temperature Probe DMP5 is designed for in-line humidity measurement in industrial drying applications with high temperatures and a wide dew point range.
Vaisala DRYCAP® Dew Point and Temperature Probe DMP6 is designed for in-line humidity measurement in industrial drying applications with very high temperatures and a wide dew point range.
Vaisala DRYCAP® Dew Point and Temperature Probe DMP7 is made for tight spaces and low-humidity applications.
Vaisala DRYCAP® Dew Point and Temperature Probe DMP8 is designed for industrial low-humidity applications with pressure up to 40 bars.
Vaisala HUMICAP® Humidity and Temperature Probe HMP3 is a general-purpose probe designed for processes with moderate humidity and temperature levels.
Vaisala HUMICAP® Moisture in Oil Probe MMP8 enables fast and reliable measurement of moisture in oil.
Vaisala HUMICAP® Humidity and Temperature Probe HMP4 is designed for high-pressure applications such as breathing air or compressed air systems in maritime.
Vaisala HUMICAP® Humidity and Temperature Probe HMP5 is designed for high-temperature applications such as baking ovens, pasta dryers and industrial drying kilns.
Vaisala HUMICAP® Humidity and Temperature Probe HMP7 is designed for applications which involve constant high humidity or rapid changes in humidity such as drying and test chambers, humidifiers and meteorology.
Vaisala HUMICAP® Humidity and Temperature Probe HMP8 is designed for pressurized applications such as compressed air systems and refrigerant dryers.
The Vaisala HUMICAP® Humidity and Temperature Probe HMP9 is designed for easy installation in rapidly changing environments where a fast response time, measurement performance, and chemical tolerance are essential. The compact size enables installation even in tight spaces, with the probe head only 5 mm (0.2 in) in diameter.
The Vaisala CARBOCAP® Carbon Dioxide Probe GMP251 is an intelligent, stand-alone, %-level probe for measuring CO2 in application such as life science incubators, cold storages, and fruit & vegetable transportation.
The Vaisala CARBOCAP® Carbon Dioxide Probe GMP252 is an intelligent, stand-alone, ppm-level probe for measuring CO2 in agriculture, refrigeration, greenhouses and demanding HVAC applications.
The Vaisala PEROXCAP® HPP270 series includes an intelligent 3-in-1 measurement probe for vaporized H2O2 bio-decontamination in applications such as isolators and rooms and a basic H2O2 probe HPP271.
Vaisala Temperature Probe TMP1 is designed for demanding temperature measurements in industrial applications such as pharmaceutical industry and calibration labs.
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Industry 5.0, is already evolving. It will not be something radically new, but a logical continuum after building the most critical capabilities for smart factories, buildings and processes. Our eGuide will give you an overview on what to expect from Industry 5.0 for understanding the key benefits of the next industrial revolution.
In this free webinar we share the key success factors for maintaining world-class measurement performance for your instruments
The webinar answers the following questions:
During the webinar you learn about:
Who should attend?
Everybody who wants to learn more about maintaining measurement performance for your instruments.
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Joni Partanen is a Product Manager at Vaisala. He is responsible for the development of humidity and vaporized hydrogen peroxide measuring products. He has over 16 years of experience in process industry measurement technology, industrial engineering, and instrumentation. Joni holds a Bachelor of Engineering degree in Automation Technology.
Jarkko Ruonala is a Product Manager for Vaisala Industrial Measurements. He has a background in automation, instrumentation and process analyzers. He has a Master of Science degree in Industrial Engineering and Management from the University of Oulu, Finland.
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Vaisala K-PATENTS Process Refractometers are commonly used to determine the liquid concentration or density. This measurement has been an important element in the processing industries for more than a century.
The performance of all types of refining, manufacturing and quality control operations can be dramatically improved with our digital refractometer technology.
For instance, the in-line concentration measurement can be used as a real-time predictive tool for the final concentration. A quick and accurate response is needed to optimize production. Cost reduction is possible by reducing the variation of mean average of the product concentration. The cost saving is related to the value of the component being measured.