VIBRATION MONITORING SYSTEM

Vibration Monitoring System

Vibration monitoring is the process of using precision vibration sensors to monitor machinery to identify vibrations which may indicate a developing failure, malfunction, or process restriction. It is a major component of comprehensive predictive maintenance programs. Monitoring critical equipment can prevent unscheduled outages, optimize machine performance, and reduce repair and maintenance costs.

Vibration Monitoring Systems are used for condition-based maintenance of Machines and installations. They help to detect machine damage in good time and prevent machine break-down and production loss.

RRT product range includes Vibration Transmitters, Loop Powered Sensors & Wireless Vibration Monitoring Systems.

We offer advanced vibration monitoring techniques for early detection of a wide variety of mechanical fault conditions such as unbalance, misalignment, resonance, looseness, and faulty gears or bearings on all types of rotating machine

Applications

Hydro Turbine

Power Generation

Oil & Gas

Turbo Machinery

Automotive

Pulp & Paper

Mill Monitoring

Steam turbines

Industrial gas turbines

Aeroderivative gas turbines

Reciprocating compressors

Centrifugal compressors

Axial compressors

Screw compressors

Gears

Turbo-expanders

Horizontal and vertical centrifugal pumps

Reciprocating pumps

Electric motors

Generators

Fans

Blowers

Agitators

Mixers

Centrifuges

Pulp refiners

Ball mills

How It Works

Vibration Monitoring System is permanently installed on the Machine with Sensors attached.

Modular and scalable

Remote expert analysis

Live secure data display

Automated notifications

Range of networking options

Independent of customer networks

Logs overall and analysis data

Constantly analyses and monitors

Full support during setup and operation

Continuously monitoring critical asset parameters such as vibration, temperature, speed.

Benefits

Fewer process interruptions

Longer intervals between outages

Lower maintenance and repair costs

Enhanced maintenance/outage planning

Better machinery reliability/availability

Improved protection from catastrophic failures