SCADA / ADAS: Difference between revisions
(Created page with "__NOTOC__ ---- <!-- Delete any sections that are not necessary to your topic. Add pictures/sections as needed --> [Paragraph here] Supervisory Control and Data Acquisition (SCADA) and Automated Data Acquisition Systems (ADAS) are automated methods by which dam owners can obtain information and control various processes at the project site.<ref name="TM 5-601">Supervisory Control and Data Acquisition (SCADA) Systems for Command, Control, Communications, Computer, Intel...") |
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Supervisory Control and Data Acquisition (SCADA) and Automated Data Acquisition Systems (ADAS) are automated methods by which dam owners can obtain information and control various processes at the project site.<ref name="TM 5-601">[[Supervisory Control and Data Acquisition (SCADA) Systems for Command, Control, Communications, Computer, Intelligence, Surveillance, and Reconnaissance (C4ISR) Facilities (TM 5-601) | TM 5-601 Supervisory Control and Data Acquisition (SCADA) Systems for Command, Control, Communications, Computer, Intelligence, Surveillance, and Reconnaissance (C4ISR) Facilities, USACE, 2006]]</ref> | Supervisory Control and Data Acquisition (SCADA) and Automated Data Acquisition Systems (ADAS) are automated methods by which dam owners can obtain information and control various processes at the project site.<ref name="TM 5-601">[[Supervisory Control and Data Acquisition (SCADA) Systems for Command, Control, Communications, Computer, Intelligence, Surveillance, and Reconnaissance (C4ISR) Facilities (TM 5-601) | TM 5-601 Supervisory Control and Data Acquisition (SCADA) Systems for Command, Control, Communications, Computer, Intelligence, Surveillance, and Reconnaissance (C4ISR) Facilities, USACE, 2006]]</ref> | ||
“Control consists of monitoring the state of a critical parameter, detecting when it varies from the desired state, and taking action to restore it. Control can be discrete or analog, manual or automatic, and periodic or | “Control consists of monitoring the state of a critical parameter, detecting when it varies from the desired state, and taking action to restore it. Control can be discrete or analog, manual or automatic, and periodic or continuous.” <ref name="TM 5-601" /> | ||
“SCADA equipment installed in C4ISR (Command, Control, Communications, Computer, Intelligence, Surveillance, and Reconnaissance) facilities must be of such a design or otherwise protected to withstand seismic effects as well as shock (ground motion) and overpressure effects of weapons. A detailed dynamic analysis should be made of the supporting structure(s) of the equipment enclosures to evaluate the magnitude of motion and acceleration established at the mounting points for each piece of SCADA equipment. Where accelerations exceed the allowable limits of equipment available, the equipment should be mounted on shock isolation platforms.<ref name="TM 5-601" /> | “SCADA equipment installed in C4ISR (Command, Control, Communications, Computer, Intelligence, Surveillance, and Reconnaissance) facilities must be of such a design or otherwise protected to withstand [[seismic]] effects as well as shock (ground motion) and overpressure effects of weapons. A detailed [[Dynamic Analysis|dynamic analysis]] should be made of the supporting structure(s) of the equipment enclosures to evaluate the magnitude of motion and acceleration established at the mounting points for each piece of SCADA equipment. Where accelerations exceed the allowable limits of equipment available, the equipment should be mounted on shock isolation platforms.<ref name="TM 5-601" /> | ||
“SCADA equipment should be protected from the effects of dust, dirt, water, corrosive agents, other fluids, and contamination by appropriate location within the facility or by specifying enclosures appropriate for the environment. Care should be taken that installation methods and conduit and tubing penetrations do not compromise enclosure integrity.<ref name="TM 5-601" /> | “SCADA equipment should be protected from the effects of dust, dirt, water, corrosive agents, other fluids, and contamination by appropriate location within the facility or by specifying enclosures appropriate for the [[environment]]. Care should be taken that installation methods and conduit and tubing penetrations do not compromise enclosure integrity.<ref name="TM 5-601" /> | ||
“Central computer or control rooms should be provided with dry agent fire protection systems or double-interlocked pre-action sprinkler systems using cross-zoned detection, to minimize the threat of accidental water discharge onto unprotected equipment.<ref name="TM 5-601" /> | “Central computer or control rooms should be provided with dry agent fire protection systems or double-interlocked pre-action sprinkler systems using cross-zoned detection, to minimize the threat of accidental water discharge onto unprotected equipment.<ref name="TM 5-601" /> | ||
“Sensors, actuators, controllers, HMI, UPS, and other SCADA equipment located throughout the facility should utilize enclosures with a minimum environmental protection level of IP66 per EN 60529 or Type 4 per NEMA 250. Where thermal management issues or other equipment requirements prevent use of such enclosures, alternate means should be provided to protect the equipment from environmental contaminants”.<ref name="TM 5-601" /> | “Sensors, actuators, controllers, HMI, UPS, and other SCADA equipment located throughout the facility should utilize enclosures with a minimum [[environmental]] protection level of IP66 per EN 60529 or Type 4 per NEMA 250. Where thermal management issues or other equipment requirements prevent use of such enclosures, alternate means should be provided to protect the equipment from environmental contaminants”.<ref name="TM 5-601" /> | ||
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Latest revision as of 23:42, 7 December 2022
Supervisory Control and Data Acquisition (SCADA) and Automated Data Acquisition Systems (ADAS) are automated methods by which dam owners can obtain information and control various processes at the project site.[1]
“Control consists of monitoring the state of a critical parameter, detecting when it varies from the desired state, and taking action to restore it. Control can be discrete or analog, manual or automatic, and periodic or continuous.” [1]
“SCADA equipment installed in C4ISR (Command, Control, Communications, Computer, Intelligence, Surveillance, and Reconnaissance) facilities must be of such a design or otherwise protected to withstand seismic effects as well as shock (ground motion) and overpressure effects of weapons. A detailed dynamic analysis should be made of the supporting structure(s) of the equipment enclosures to evaluate the magnitude of motion and acceleration established at the mounting points for each piece of SCADA equipment. Where accelerations exceed the allowable limits of equipment available, the equipment should be mounted on shock isolation platforms.[1]
“SCADA equipment should be protected from the effects of dust, dirt, water, corrosive agents, other fluids, and contamination by appropriate location within the facility or by specifying enclosures appropriate for the environment. Care should be taken that installation methods and conduit and tubing penetrations do not compromise enclosure integrity.[1]
“Central computer or control rooms should be provided with dry agent fire protection systems or double-interlocked pre-action sprinkler systems using cross-zoned detection, to minimize the threat of accidental water discharge onto unprotected equipment.[1]
“Sensors, actuators, controllers, HMI, UPS, and other SCADA equipment located throughout the facility should utilize enclosures with a minimum environmental protection level of IP66 per EN 60529 or Type 4 per NEMA 250. Where thermal management issues or other equipment requirements prevent use of such enclosures, alternate means should be provided to protect the equipment from environmental contaminants”.[1]
Citations:
Revision ID: 5059
Revision Date: 12/07/2022