Rosemount 400 Contacting Conductivity Sensor
anyone searching for a highly precise and dependable conductivity sensor for use in industrial applications should strongly consider the Rosemount 400 Contacting Conductivity Sensor. It is the perfect option for a variety of applications, including chemical processing, power generation, and water treatment, thanks to its robust design, ease of installation and maintenance, and high level of precision.
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Rosemount 400 Contacting Conductivity Sensor
The conductivity of a fluid is measured using the Rosemount 400 Contacting Conductivity Sensor, which is a very trustworthy and accurate sensor. The sensor is made for usage in a variety of industrial processes, such as chemical synthesis, energy production, and water purification. It offers incredibly precise fluid conductivity readings that can be used to keep an eye on workflow conditions and boost output.
High-quality components
The Rosemount 400 sensor has a tough construction that is made to resist challenging industrial settings. High-quality components, including graphite electrodes and 316 stainless steel, are used in its construction to provide it superior corrosion resistance. Additionally, the sensor has an integrated temperature sensor that enables precise temperature adjustment, guaranteeing reliable results despite changing process conditions.
Connection
The installation and upkeep of the Rosemount 400 sensor are simple. It has a threaded process connection that makes installation quick and simple, and its modular design makes it simple to swap out parts as needed. A built-in calibration port on the sensor makes it simple to calibrate it without the use of specific tools or equipment.
Accuracy
The great degree of accuracy of the Rosemount 400 sensor is one of its main advantages. The sensor is suited for use in critical process applications where precise measurements are required since it can measure conductivity with an accuracy of up to +/- 1% of the reading. The sensor is extremely stable over time, delivering accurate readings even after prolonged use.
Overall, anyone searching for a highly precise and dependable conductivity sensor for use in industrial applications should strongly consider the Rosemount 400 Contacting Conductivity Sensor. It is the perfect option for various applications, including chemical processing, power generation, and water treatment, thanks to its robust design, ease of installation and maintenance, and high precision.
Features
- Factory-measured cell constant ensures out-of-the-box accuracy and no initial calibration requirements.
- Available in cell constants of 0.01, 0.1, and 1.0/cm
- Conductivity sensor designed for direct screw-in insertion into process piping using a front-facing 3/4-inch MNPT fitting.
- It can alternatively be used with a pipe tee or flow cell in a sidestream installation.
- The sensors have concentric titanium electrodes separated by a PEEK insulator.
- The conductivity sensor has concentric titanium electrodes separated by a PEEK insulator.
- EPDM O-ring seals the internal parts of the conductivity sensor from the process liquid.
Rosemount 400 Contacting Conductivity Sensor Specifications:
- Design Cell constants:Â 0.01, 0.1, and 1.0/cm
- Vacuum: At 1.6 in. Hg (5.2 kPa) air leakage is less than 0.005 SCFM (0.00014 m3/min)
- Dimensions Cable length (Model 400 only): 10 ft (3.1 m) standard; 50 ft (15.2 m) optional
- Materials of Construction Wetted Materials: Electrodes – titanium; Body – 316 stainless steel; Insulator – PEEK; O-Rings – EPDM
- Temperature Standard: 32 – 221 °F (0 – 105°C)
- With optional integral junction box: 32 – 392 °F (0 – 200°C)
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Brand
Rosemount
Rosemount
Rosemount is a well-known brand that designs and manufactures handling tools for a variety of industries. The brand was founded in 1956 and has since become a trusted name in process control solutions. The Rosemount product line includes a wide range of measuring devices such as pressure transmitters, temperature sensors, flow meters, level meters, and analytical instruments. These devices are used to monitor and control critical processes in industries such as petroleum, chemical, pharmaceutical, food, and water treatment.
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