Cathodic Protection System Sample Clauses

The Cathodic Protection System clause defines the requirements and standards for installing and maintaining a system that prevents corrosion of metal structures, such as pipelines or tanks, by making them the cathode of an electrochemical cell. This typically involves the use of sacrificial anodes or impressed current systems, and may specify testing, monitoring, and maintenance procedures to ensure ongoing effectiveness. The core function of this clause is to protect critical infrastructure from corrosion-related damage, thereby extending asset life and reducing maintenance costs.
Cathodic Protection System. The Facility shall include an impressed current cathodic protection system for all underground metallic components. This system shall be completely isolated from the electrical ground grid. A study survey and calculations shall be provided to the Purchaser. The cathodic protection system shall be designed, installed, and tested in accordance with the latest issue of ▇▇▇▇ International, ICEA, NEMA, ANSI, and any applicable local or national codes. A cathodic protection survey is required before turnover to verify complete equipment protection.
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Cathodic Protection System. WCW shall own and maintain the Cathodic Protection System currently protecting the 6” and 36” pipelines. Within thirty (30) days of the Effective Date and following approval of this Agreement by the WCA Board, WCA shall convey the Cathodic Protection System to WCW via a Bill of Sale in a form substantially similar to that attached as Exhibit F.
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Cathodic Protection System. Cathodic protection and other corrosion control measures shall be provided for the following structures if required: The exterior surface of underground carbon steel pipe, brass pipe, copper pipe, and stainless steel pipe. Underground steel tanks and the bottoms of surface mounted steel tanks. The interior surfaces of condenser and heat exchanger water boxes. A galvanic anode system shall be used for corrosion control of underground steel, stainless steel, copper, and brass piping, the bottoms of pad mounted steel tanks, and the metals wetted by circulating water in the surface condenser and auxiliary cooling water heat exchangers. The anodes shall be distributed to provide even current distribution on the surfaces to be protected. Galvanic anode systems for protection of buried pipe and bottoms of pad mounted steel tanks shall be designed for a minimum 25 year service life. The service life of galvanic anodes for protection of condenser and heat exchanger metals shall be greater than the normal maintenance and inspection intervals. The galvanic anodes shall be connected directly to the protected structures, or, through test stations for selected anode locations on piping systems. The anode current output is then limited only by the natural potential difference between the anode and the protected structure and the electrical resistance in the circuit. Connection enclosures shall be installed to provide access to the ground rod and anode lead wire terminations at pad mounted steel storage tanks. Test stations shall be provided at selected locations for electrical connections to buried cathodically protected pipes and for access to a sampling of anode connections. These stations and portable test equipment will enable the level of protection on the pipes to be monitored and life expectancy of anodes to be estimated. Buried piping systems designated to receive cathodic protection shall receive high quality hot coal tar enamel coating or its equivalent, shall be backfilled carefully with sand. Other material which will not damage the pipe coating, and shall be isolated electrically from all structures which might increase the demand for cathodic protection current or make cathodic protection more difficult to achieve.
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Cathodic Protection System. 2.1 Pursuant to Section 4.2(D), ownership of the Cathodic Protection System protecting the 6” and 36” pipelines between the WCW plant and the Richmond plant is vested in WCW. The Cathodic Protection System is more fully described in the 2019 Cathodic Protection system Testing and Evaluation Technical Report by Alisto Engineering Group, and is depicted in the CP System Survey Locations Plan in Figure 1 of the Technical Report, attached hereto as Exhibit A. 2.2 WCW shall be responsible for the operation and maintenance of the Cathodic Protection System, and will ▇▇▇▇ ▇▇▇▇▇▇▇▇ quarterly for 50% of the costs associated with the maintenance and operation of the Cathodic Protection System. WCW may contract out the maintenance work on an annual or semiannual basis. Should the maintenance work be contracted, WCW will confer with the City in advance, on selection of the contractor and total costs to be billed. 2.3 If one or both Parties believe an expense should be allocated in a different ratio, the Parties will meet and confer to resolve the matter. 2.4 WCW shall not abandon the Cathodic Protection System without obtaining the City’s consent, and providing the City the opportunity to take over maintenance and ownership of that asset.
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Related to Cathodic Protection System

  • System Protection To prevent compromise of systems which contain DSHS Data or through which that Data passes: a. Systems containing DSHS Data must have all security patches or hotfixes applied within 3 months of being made available. b. The Contractor will have a method of ensuring that the requisite patches and hotfixes have been applied within the required timeframes. c. Systems containing DSHS Data shall have an Anti-Malware application, if available, installed. d. Anti-Malware software shall be kept up to date. The product, its anti-virus engine, and any malware database the system uses, will be no more than one update behind current.

  • System Protection Facilities Developer shall, at its expense, install, operate and maintain System Protection Facilities as a part of the Large Generating Facility or Developer’s Attachment Facilities. Connecting Transmission Owner shall install at Developer’s expense any System Protection Facilities that may be required on the Connecting Transmission Owner’s Attachment Facilities or the New York State Transmission System as a result of the interconnection of the Large Generating Facility and Developer’s Attachment Facilities.

  • Information Systems The Customer is aware that vehicles manufactured, supplied or marketed by a company within the Volvo Group are equipped with one or more systems which may gather and store information about the vehicle (the “Information Systems”), including but not limited to information relating to vehicle condition and performance and information relating to the operation of the vehicle (together, the “Vehicle Data”). The Customer agrees not to interfere with the operation of the Information System in any way.

  • Distribution System The Transmission Owner’s facilities and equipment used to transmit electricity to ultimate usage points such as homes and industries directly from nearby generators or from interchanges with higher voltage transmission networks which transport bulk power over longer distances. The voltage levels at which Distribution Systems operate differ among areas. Distribution Upgrades – The additions, modifications, and upgrades to the Transmission Owner’s Distribution System at or beyond the Point of Interconnection to facilitate interconnection of the Small Generating Facility and render the transmission service necessary to effect the Interconnection Customer’s wholesale sale of electricity in interstate commerce.

  • Fire Protection Contractor shall take adequate and reasonable precautions to protect the Work against damage by fire and smoke. For example, without limitation, Contractor shall do the following: