Substation Sample Clauses
Substation. The Village agrees to house certain motor fire apparatus, to be selected by the Village, at a substation building presently leased by the Village from the New Paltz Fire Company, Inc., at the intersection of ▇▇▇▇▇ ▇. ▇▇▇▇▇▇ Drive and North Putt Corners Road in the Town of New Paltz. The Town shall be responsible for removal of snow from the parking lot and driveways of the substation properties.
Substation. Construction (For each item below, identify when started, if continuing and when completed)
Substation. Delivery of electric power and energy shall be through the necessary substation equipment at the point(s) of connection with the transmission system of the Bureau of Reclamation or the joint system. The Member shall own and maintain switching and protective equipment which may be reasonably necessary to enable the Member to take and use the electric power and energy hereunder. Meters and metering equipment shall be furnished, maintained and read by the Bureau of Reclamation and shall be located at the point of delivery on the low voltage side of such transforming equipment.
Substation. The existing SPPCo. Steamboat 120 kV substation will be expanded to accommodate the equipment to interconnect to the Far West generation plant. The substation design that SPPCo. has determined to be a minimum will require the addition of two 120 kV circuit breakers in the Steamboat substation. It should be noted that with this design, a single breaker failure or maintenance of certain elements will cause Far West to be out of service. Because of this possibility, SPPCo. recommends that Far West agree to a more extensive design including an additional circuit breaker (see Appendix D). The additional breaker would be required for the proposed potential 64 MW.
Substation. [As provided in the Project Proposal Document]
Substation. There are existing electricity substation assets within the Development Site. The existing electricity Ground substation may be impacted by the proposed construction. This type of building is susceptible to damage from subsidence or vibration due to nearby excavation or piling, and also due to building materials and machinery coming into contact with the facade of the building. The use of ground anchors under a substation building is generally not permitted due to the presence of underground cabling and earthing conductors which may be more than 10m deep. A further area of exclusion may be required in some circumstances. The substation ventilation openings, including substation duct openings and louvered panels, must be separated from building air intake and exhaust openings, natural ventilation openings and boundaries of adjacent allotments, by separation distances which meet the requirements of all relevant authorities, building regulations, BCA and Australian Standards including AS 1668.2: The use of ventilation and air-conditioning in buildings - Mechanical ventilation in buildings. In addition to above, Ausgrid requires the substation ventilation openings, including duct openings and louvered panels, to be separated from building ventilation system air intake and exhaust openings, including those on buildings on adjacent allotments, by not less than 6 metres. Exterior parts of buildings within 3 metres in any direction from substation ventilation openings, including duct openings and louvered panels, must have a fire rating level (FRL) of not less than 180/180/180 where the substation contains oil-filled equipment, or 120/120/120 where there is no oil filled equipment and be constructed of non-combustible material. The development must comply with both the Reference Levels and the precautionary requirements of the ICNIRP Guidelines for Limiting Exposure to Time-varying Electric and Magnetic Fields (1 HZ - 100 kHZ) (ICNIRP 2010). For further details on fire segregation requirements refer to Ausgrid's Network Standard 113. Existing Ausgrid easements, leases and/or right of ways must be maintained at all times to ensure 24 hour access. No temporary or permanent alterations to this property tenure can occur without written approval from Ausgrid. For further details refer to Ausgrid's Network Standard 143. Please do not hesitate to contact ▇▇▇▇▇▇▇▇▇▇ ▇▇▇ ▇▇▇▇ on Ph: (▇▇) ▇▇▇▇ ▇▇▇▇ (please quote our ref: Trim 2017/40/247) should you require any further info...
Substation. The power substation at 21KV - medium voltage - is serviced by the Eletropaulo distributor. Through transformers in N+N configuration, the voltage is lowered to 480V that internally and independently feed the air-conditioning system and UPS systems. The total system capacity is 9MVA.
Substation. The power substation at 21KV - medium voltage - is serviced by the Eletropaulo distributor. Through transformers in N+N configuration, the voltage is lowered to 480V that internally and independently feed the air-conditioning system and UPS systems. The total system capacity is 9MVA. TECHNICAL PROPOSAL UOLDIVEO-OPT-17/21629-A The electrical network available for the equipment at 208VAC is composed of circuits segmented by sectored boards that distribute power to the plug strips for each rack or equipment. Each circuit is individually protected by a circuit breaker and short-circuit detector. Each floor of the Data Center has two 1,000 kVA nobreak lines, also known as a UPS, in the N+1 configuration per line. The UPSs have redundant battery banks with 12-minute autonomy at full load. Each UPS set feeds, in cross-configuration, two static switches that in turn feed each of the two busways of power to the floor. This scheme allows for maintenance on any of the lines without the servers stopping. The power continuity in the DC is guaranteed by 4 3MVA generators each configured in an N+1 system. Feeding the generators, there are tanks holding a total of 34,000 liters of diesel. For the predictive and preventive maintenance of Data Center systems, it is possible to install a Load Bank that makes it feasible, in a simple and economical way, to carry out these tests, certifying the reliability of the system. The Glete UOLDIVEO Data Center air-conditioning system features a dual-ring, redundant cold water architecture, fed by a set of air cooled Chillers in N+1 configuration. The ring feeds the precision Fan-Coils with cold water located on each floor. This architecture allows the maintenance on pipes and equipment to be carried out without interrupting the functioning of the air conditioning for the floors. The temperature and humidity control of the floors is automatic, controlled and monitored by the manufacturer’s own cooling system and is integrated with the BMS. • The system is composed of 6 Air cooled Chillers of 350TR configured in N+1 redundancy, totaling a cooling capacity of 1750TR (21,000,000 BTU); • Each floor, in maximum configuration, has 10 Fan-Coils of 36TR each, in configuration N+2, totaling 288TR (3,456,000 BTU). The redundancy allows the maintenance of up to two pieces of equipment without adversely affecting the temperature and humidity on the floor; TECHNICAL PROPOSAL UOLDIVEO-OPT-17/21629-A • The temperature and relative humidity of the air ...
Substation. The Landlord hereby acknowledges that if and when Landlord permits the Substation to be used to service any property or facility of a third party, the Tenant shall be entitled a rebate on the portion of property tax allocated to the Substation in an amount consistent with the ratio of MWs supplied to such third party divided by [***].
Substation. The substation will be a central hub for the 34.5kV collector circuits and will step up the electricity voltage from 34.5kV to 230kV. The substation site is approximately 10 acres in size and includes, but is not limited to, the following major components: 5 • 34.5kV bus and associated switching devices • 230kV bus and associated switching devices • 187MVA, 34.5/230kV transformers 7 • 34.5kV capacitors 8 • Tubular steel support structures up to 40 feet in height 9 • Grounding grid