Authors :
Manisankar Dhabal; Durgesh Lingampalle; O P Ullas
Volume/Issue :
Volume 5 - 2020, Issue 12 - December
Google Scholar :
http://bitly.ws/9nMw
Scribd :
https://bit.ly/3aNTw3p
Abstract :
Supervisory Control and Data Acquisition
System is widely used throughout the industry for better
monitoring and control of any plant. However this
requires a plant hardwires and sensor to be controllable
and compatible for monitoring and control. The most
convenient way to apply SCADA system is to use
intelligent devices to connect to SCADA system. In a
large plant consisting of components of very old
technology application of SCADA system is not straight
forward. When the plant is distributed in large
geographical area with power system components
located at scattered area it require special approach to
convert the old technology based devices to bring into a
common platform which is understood by the SCADA
system. Hot Lab Utility & Engineering Services Section
has designed a platform to monitor the power
distribution system of a conventional Radiological
facility in BARC to monitor its power system utilities for
providing better services to the plant. The paper
describes the design of a distributed SCADA system for
monitoring power distribution system catered in Class I,
II, III, IV categories.
Supervisory Control and Data Acquisition
System is widely used throughout the industry for better
monitoring and control of any plant. However this
requires a plant hardwires and sensor to be controllable
and compatible for monitoring and control. The most
convenient way to apply SCADA system is to use
intelligent devices to connect to SCADA system. In a
large plant consisting of components of very old
technology application of SCADA system is not straight
forward. When the plant is distributed in large
geographical area with power system components
located at scattered area it require special approach to
convert the old technology based devices to bring into a
common platform which is understood by the SCADA
system. Hot Lab Utility & Engineering Services Section
has designed a platform to monitor the power
distribution system of a conventional Radiological
facility in BARC to monitor its power system utilities for
providing better services to the plant. The paper
describes the design of a distributed SCADA system for
monitoring power distribution system catered in Class I,
II, III, IV categories.