World Class 3000

Instruction Manual

IB-106-300NH Rev. 4.2

July 2002

1

After selecting the probe mounting location, provision should be made for a platform where the probe can be easily serviced. The intelligent field transmitter (IFT) can be located up to 150 ft (45 m) cabling distance from the probe when used without optional heater power supply (HPS). When the sys- tem includes the optional HPS, the HPS can be located up to 150 ft (45 m) cabling dis- tance from the probe and the IFT may be located up to 1200 ft (364 m) cabling dis- tance from the HPS.

necting calibration gas tanks to the oxygen analyzer when the probe is to be calibrated.

If the calibration gas bottles will be perma- nently hooked up, a check valve is required next to the calibration fittings on the probe junction box. This is to prevent breathing of calibration gas line and subsequent flue gas condensation and corrosion. The check valve is in addition to the stop valve in the calibration gas kit or the solenoid valve in the multiprobe calibration gas sequencer units.

A source of instrument air is required at the probe for reference air use. Since the probe is equipped with an in-place calibration feature, provision should be made for con-

An optional Z-purge arrangement is avail- able for applications where hazardous area classification may be required (See Appli- cation Data Bulletin AD 106-300B).

Rosemount Analytical Inc. A Division of Emerson Process Management

Description and Specifications 1-7

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Emerson Process Management 3000 instruction manual World Class
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3000 specifications

Emerson Process Management is a key player in the field of industrial automation, and one of its flagship offerings is the Emerson Process Management 3000. This system is designed to optimize production processes across a variety of industries, enhancing efficiency and ensuring robust operational performance.

One of the main features of the Emerson Process Management 3000 is its advanced control capabilities. The system employs model predictive control (MPC) technology, which allows for real-time data processing and decision-making. By predicting future trends in process variables, the MPC enables operators to adjust control parameters proactively, minimizing fluctuations and improving overall productivity.

Additionally, the Emerson 3000 integrates seamlessly with existing industrial infrastructure. This system supports a wide range of communication protocols, ensuring compatibility across various devices and sensors. Its flexibility allows companies to leverage their investment in existing technologies while upgrading to more modern control strategies.

The user interface of the Emerson Process Management 3000 is highly intuitive, featuring graphical displays that provide operators with clear visibility into process parameters. This interface is designed for ease of use, with customizable dashboards that can be tailored to meet the specific needs of the users. Training time is significantly reduced due to the straightforward design, leading to quicker onboarding for new operators.

In terms of data analytics, the Emerson 3000 also stands out. It features built-in data logging and trend analysis capabilities, empowering operators to make informed decisions based on historical and real-time data. This analytical strength helps in identifying inefficiencies and potential areas for improvement, contributing to reduced downtime and lower operational costs.

Safety is another critical characteristic of the Emerson Process Management 3000. The system includes robust safety features and compliance with various industry standards. By integrating safety into the control process, it ensures that product quality and equipment integrity are maintained, thus safeguarding both personnel and assets.

Overall, Emerson Process Management 3000 is a sophisticated control system that combines advanced technologies, user-friendly design, and robust safety features. Ideal for industries such as oil and gas, chemicals, and water treatment, it is designed to enhance operational efficiency and drive productivity in modern industrial environments.
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