Synchronous Generators definition

Synchronous Generators. Direct Axis Synchronous Reactance, Xd: P.U. Direct Axis Transient Reactance, X’d: P.U. Direct Axis Subtransient Reactance, X”d: P.U. Negative Sequence Reactance, X2: P.U. Zero Sequence Reactance, X0: P.U. KVA Base: Field Volts: Field Amperes:
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Synchronous Generators. Direct Axis Synchronous Reactance, Xd: Direct Axis Transient Reactance, Xd: Direct Axis Subtransient Reactance, Xd: Negative Sequence Reactance, X2: Zero Sequence Reactance, X0: P.U. P.U. P.U. P.U. P.U. KVA Base: Field Volts: Field Amperes: Induction Generators: 2 Motoring Power (kW): I 2t or K (Heating Time Constant): Rotor Resistance, Rr: Stator Resistance, Rs: Stator Reactance, Xs: Rotor Reactance, Xr: Magnetizing Reactance, Xm: Short Circuit Reactance, Xd: Exciting Current: Temperature Rise: Frame Size: Design Letter: Reactive Power Required In Vars (No Load): Reactive Power Required In Vars (Full Load): Total Rotating Inertia, H: Per Unit on kVA Base Note: Please contact the Utility prior to submitting the Interconnection Request to determine if the specified information above is required. Interconnection Facilities Information Will more than one transformer be used between the generator and the point of common coupling? Yes No (If yes, copy this section and provide the information for each transformer used. This information must match the single-line drawing and transformer specification sheets.) Will the transformer be provided by the Interconnection Customer? Yes No Transformer Data (if applicable, for Interconnection Customer-owned transformer): Is the transformer: Single phase Three phase Size: kVA Transformer Impedance: % on kVA Base If Three Phase: Transformer Primary Winding Volts, ❑ Delta ❑ WYE, grounded neutral ❑ WYE, ungrounded neutral Primary Wiring Connection ❑ 3-wire ❑ 4-wire, grounded neutral Transformer Secondary Winding Volts, ❑ Delta ❑ WYE, grounded neutral ❑ WYE, ungrounded neutral Secondary Wiring Connection ❑ 3-wire ❑ 4-wire, grounded neutral Transformer Tertiary Winding Volts, ❑ Delta ❑ WYE, grounded neutral ❑ WYE, ungrounded neutral Transformer Fuse Data (if applicable, for Interconnection Customer-owned fuse): (Attach copy of fuse manufacturer’s Minimum Melt and Total Clearing Time-Current Curves) Manufacturer: Type: Size: Speed: Interconnecting Circuit Breaker (if applicable): Manufacturer: Type: Load Rating (Amps): Interrupting Rating (Amps): Trip Speed (Cycles): Interconnection Protective Relays (if applicable):
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Synchronous Generators. Direct Axis Synchronous Reactance, Xd: P.U. Direct Axis Transient Reactance, X' d: P.U. Direct Axis Subtransient Reactance, X" d: P.U. Negative Sequence Reactance, X2: P.U. Zero Sequence Reactance, X0: P.U. KVA Base: Field Volts: Field Amperes: Induction Generators: Motoring Power (kW): I 2t or K (Heating Time Constant): Rotor Resistance, Rr: Stator Resistance, Rs: Stator Reactance, Xs: Rotor Reactance, Xr: Magnetizing Reactance, Xm: Short Circuit Reactance, Xd'': Exciting Current: Temperature Rise: Frame Size: Design Letter: Reactive Power Required In Vars (No Load): Reactive Power Required In Vars (Full Load): Total Rotating Inertia, H: Per Unit on kVA Base Note: Please contact Transmission Provider prior to submitting the Interconnection Request to determine if the specified information above is required.
Sample 1

Examples of Synchronous Generators in a sentence

  • Excitation and Governor System Data for Synchronous Generators Only Provide appropriate IEEE model block diagram of excitation system, governor system and power system stabilizer (PSS) in accordance with the regional reliability council criteria.

  • Synchronous Generators For each generator, governor, exciter and power system stabilizer, select the appropriate dynamic model from the General Electric PSLF Program Manual and provide the required input data.

  • C50.13 - Rotating Electrical Machinery - Cylindrical Rotor Synchronous Generators 2.

  • Larger Synchronous Generators, e.g. those derived from steam, gas or hydro turbines are not believed to suffer from the same Fault Ride Through issue.

  • Excitation and Governor System Data for Synchronous Generators Only:Provide appropriate IEEE model block diagram of excitation system, governor system and power system stabilizer (PSS) in accordance with the regional reliability council criteria.

  • IEEE Standard for Cylindrical-Rotor 50 Hz and 60 Hz, Synchronous Generators Rated 10 MVA and above, IEEE C50.13- 2005.

  • Ancillary Services Management: Introduction – Reactive Power as an Ancillary Service – a Review – Synchronous Generators as Ancillary Service Providers.

  • General Requirements for Synchronous Machines, ANSI C50.10-1990.b. Requirements for Salient Pole Synchronous Generators and Condensers, ANSI C50.12-1982.

  • Synchronous Generator(s) must have an inertia constant (H) between 4 to 6 seconds.

  • Three-Phase Synchronous Generators: For three phase Generators, the Generating Facility circuit breakers shall be three-phase devices with electronic or electromechanical control.


More Definitions of Synchronous Generators

Synchronous Generators. Direct Axis Synchronous Reactance, Xd: Direct Axis Transient Reactance, Xd: Direct Axis Subtransient Reactance, Xd: Negative Sequence Reactance, X2: Zero Sequence Reactance, X0: P.U. P.U. P.U. P.U. P.U. KVA Base: Field Volts: Field Amperes: ELECTRONICALLY FILED - 2020 November 17 4:39 PM - SCPSC - Docket # 2019-326-E - Page 53 of 196 DEC/DEP Application - Attachment 1 Docket No. 2019-326-E
Sample 1
Synchronous Generators. Direct Axis Synchronous Reactance, Xd: _______ P.U. Direct Axis Transient Reactance, X' d: ___________P.U. Direct Axis Subtransient Reactance, X" d: ______________P.U. Negative Sequence Reactance, X2: _________ P.U. Zero Sequence Reactance, X0: ____________ P.U. KVA Base: __________________________ Field Volts: ______________ Field Amperes: ______________ Induction Generators: Motoring Power (kW): ______________ I2 2 t or K (Heating Time Constant): ______________ Rotor Resistance, Rr: ______________ Stator Resistance, Rs: ______________ Stator Reactance, Xs: ______________ Rotor Reactance, Xr: ______________ Magnetizing Reactance, Xm: ______________ Short Circuit Reactance, Xd'': ______________ Exciting Current: ______________ Temperature Rise: ______________ Frame Size: ______________ Design Letter: ______________ Reactive Power Required In Vars (No Load): ______________ Reactive Power Required In Vars (Full Load): ______________ Total Rotating Inertia, H: _____________ Per Unit on kVA Base Note: Please contact the Transmission Provider prior to submitting the Interconnection Request to determine if the specified information above is required.
Sample 1

Related to Synchronous Generators

  • embedded generator means a generator who is not a market participant and whose generation facility is connected to a distribution system of a distributor, but does not include a generator who consumes more electricity than it generates;

  • Generator means a device that produces electricity.

  • Electric generation service means the provision of retail

  • Customer-generator means a user of a net metering system.

  • Synchronous Optical Network (SONET) is an optical interface standard that allows inter-networking of transmission products from multiple vendors. The base rate is 51.84 Mbps (“OC-1/STS-1”) and higher rates are direct multiples of the base rate, up to 13.22 Gbps.

  • Intermodal Rail Yard means a rail facility in which cargo is transferred from drayage truck to train or vice-versa.

  • Basic generation service or "BGS" means electric generation

  • Antenna means communications equipment that transmits or receives electromagnetic radio frequency signals used in the provision of wireless services.

  • Subsystem means any subset of the System identified as such in the Contract that may be supplied, installed, tested, and commissioned individually before Commissioning of the entire System.

  • Generator Set means a switcher locomotive equipped with multiple engines that can turn off one or more engines to reduce emissions and save fuel depending on the load it is moving.

  • Electric generating unit means an individual electric generator and its associated plant and apparatus whose electrical output is capable of being separately identified and metered. Emergency Condition shall mean a condition or situation: (1) that in the judgment of the Party making the claim is imminently likely to endanger life or property; or (2) that, in the case of the CAISO, is imminently likely (as determined in a non-discriminatory manner) to cause a material adverse effect on the security of, or damage to, the CAISO Controlled Grid or the electric systems of others to which the CAISO Controlled Grid is directly connected; (3) that, in the case of the Participating TO, is imminently likely (as determined in a non-discriminatory manner) to cause a material adverse effect on the security of, or damage to, the Participating TO’s Transmission System, Participating TO’s Interconnection Facilities, Distribution System, or the electric systems of others to which the Participating TO’s electric system is directly connected; or

  • wind turbine generator or “WTG” means a structure comprising a tower, rotor with three blades connected at the hub, nacelle and ancillary electrical and other equipment which may include J-tube(s), transition piece, access and rest platforms, access ladders, boat access systems, corrosion protection systems, fenders and maintenance equipment, helicopter landing facilities and other associated equipment, fixed to a foundation;

  • Electric power generator means an entity that proposes to