* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download Interconnection Request and Generating Facility
Mercury-arc valve wikipedia , lookup
Power over Ethernet wikipedia , lookup
Current source wikipedia , lookup
Audio power wikipedia , lookup
Power factor wikipedia , lookup
Pulse-width modulation wikipedia , lookup
Resistive opto-isolator wikipedia , lookup
Immunity-aware programming wikipedia , lookup
Electric power system wikipedia , lookup
Stray voltage wikipedia , lookup
Electrical grid wikipedia , lookup
Electrical substation wikipedia , lookup
Solar micro-inverter wikipedia , lookup
Opto-isolator wikipedia , lookup
Variable-frequency drive wikipedia , lookup
Surge protector wikipedia , lookup
Power inverter wikipedia , lookup
Amtrak's 25 Hz traction power system wikipedia , lookup
Voltage regulator wikipedia , lookup
Three-phase electric power wikipedia , lookup
Buck converter wikipedia , lookup
History of electric power transmission wikipedia , lookup
Power engineering wikipedia , lookup
Voltage optimisation wikipedia , lookup
Power electronics wikipedia , lookup
Switched-mode power supply wikipedia , lookup
Mains electricity wikipedia , lookup
Appendix 1 Interconnection Request INTERCONNECTION REQUEST NO HARD COPY REQUIRED FOR INTERCONNECTION REQUESTS SUBMITTED ELECTRONICALLY VIA RIMS 5 Provide one hard copy of this completed form pursuant to Section 7 of this Appendix 1 below for non-electronic submissions. 1. The undersigned Interconnection Customer submits this request to interconnect its Generating Facility with the CAISO Controlled Grid pursuant to the CAISO Tariff (check only one): Fast Track Process. Independent Study Process. Queue Cluster Process. Annual Full Capacity Deliverability Option pursuant to GIDAP Section 9.2. (Required fields: 3, 4a Project name including Q#, 4e, 8, and 9 only.) Deliverability from Non-Participating TOs pursuant to GIDAP Section 9.4. 2. This Interconnection Request is for (check only one): A proposed new Generating Facility. An increase in the generating capacity or a Material Modification to an existing Generating Facility. 3. Requested Deliverability Status is for (check only one): Full Capacity (For Independent Study Process and Queue Cluster Process only) (Note – Deliverability analysis for Independent Study Process is conducted with the next annual Cluster Study – See GIDAP Section 4.6) Partial Deliverability for % of electrical output (for Independent Study Process and Queue Cluster Process ONLY) Energy Only Comments: 4. The Interconnection Customer provides the following information: a. Address or location, including the county, of the proposed new Generating Facility site or, in the case of an existing Generating Facility, the name and specific location, including the county, of the existing Generating Facility; Project Name: Queue #: (Only for existing projects requesting Annual Deliverability Assessment in item 1.) Project Location: Street Address: City: County: State: Zip Code: GPS Coordinates (decimal format): Latitude: Longitude: Effective 03/16/2017 b. Provide the following project megawatt values. - The MW values must match Attachment A Items 2A thru 2F - If project is an increase to an existing project, provide values based on the MW increase only. Total Generating Facility Gross Capacity: MVA This value equals the total installed MW capacity at unity power factor Total Generating Facility Gross Output: MW Gross output achieving desired net MW at POI described below Generating Facility Auxiliary Load: MW Maximum Net Megawatt Electrical Output: MW* OR Net Megawatt increase: Total Generating Facility Gross Output less Generating Facility Auxiliary Load Modification to *This is for a proposed new Generating Facility Anticipated losses between the Generating Facility and POI: MW** **This is for an increase or Material an existing Generating Facility MW Include all transformer and line losses between the generating units and the POI Desired net MW at POI MW Maximum Net Megawatt Electrical Output less Anticipated Losses This MW value is the basis for delineation between large (>20 MW) and small projects (≤20 MW), and the pro rata basis for cost allocations of Reliability Network Upgrades (RNUs) except short circuit related RNUs in the Cluster Phase I and Phase II interconnection studies. This is the value that will appear in the ISO Generation Interconnection Queue Report. Your TP Deliverability Allocations will not be able to exceed this value. Provide a description of any automatic control scheme which will be installed to ensure that the maximum MW at POI does not exceed the above desired value. c. Type of project (i.e., gas turbine, hydro, wind, etc.) and general description of the equipment configuration (if more than one type is chosen include gross installed MW for each). - If project is an increase to an existing project, provide values based on the MW increase only. Cogeneration Select Fuel Type (MW) Combined Cycle Select Fuel Type (MW) Fuel Cell Select Fuel Type (MW) Gas Turbine (MW) Hydro (MW) Photovoltaic (MW) Reciprocating Engine Select Fuel Type Solar Thermal Steam Turbine Wind Turbine (MW) (MW) Select Fuel Type If more than one: Select Fuel Type (MW) (MW) (MW) Effective 03/16/2017 Storage Select Fuel Type (MW) Describe the source of charging (transmission grid, distribution grid, on-site generator etc.): Select the operation of charging: Select Total Storage Capability: (MWh) Charge/Discharge Cycle Efficiency: (%) Rated Storage Discharging Power (MW) Discharge Duration under Rated Power (hours) Maximum Storage Discharging Power (MW) Discharge Duration under Maximum Power (hours) Rated Storage Charging Power (MW) Charge Duration under Rated Power (hours) Maximum Storage Charging Power (MW) Charge Duration under Maximum Power (hours) Other (please describe): Generator Type: (MW) Fuel Type: Comments: General description of the equipment configuration (e.g. number, size, type, etc): d. Proposed In-Service Date (first date transmission is needed to the facility), Trial Operation Commencement date and Commercial Operation Date in MM/DD/YYYY format and term of service (dates must be sequential, proposed Commercial Operation Date may not be more than seven (7) years from date of application): (MM/DD/YYYY) Proposed In-Service Date: Proposed Trial Operation Commencement Date: Proposed Commercial Operation Date: Proposed Term of Service (years): e. Name, address, telephone number, and e-mail address of the Interconnection Customer’s contact person (primary person who will be contacted); First Name: Last Name: Effective 03/16/2017 Title: Company Name: Street Address: City: State: Zip Code: Phone Number: Fax Number: Email Address: f. Approximate location of the proposed Point of Interconnection (i.e., specify transmission facility interconnection point name, voltage level, and the location of interconnection); Substation or Transmission Line Name: g. Voltage Level: kV Interconnection Customer data (set forth in Attachment A) The Interconnection Customer shall provide to the CAISO the technical data called for in GIDAP Appendix 1, Attachment A. NO HARD COPY REQUIRED FOR INTERCONNECTION REQUESTS SUBMITTED VIA [LINK TO UI] One (1) hard copy is required for non-electronic submissions. 5. Applicable deposit amount made payable to California ISO. Send check or wire funds to CAISO (see section 7 for details) along with the: a. Interconnection Request for processing. b. Attachment A (Interconnection Request Generating Facility Data). 6. Evidence of Site Exclusivity as specified in the GIDAP and name(s), address(es) and contact information of site owner(s) (check one): Is attached to this Interconnection Request Deposit in lieu of Site Exclusivity via check or Fed Wire, Site Exclusivity will be provided at a later date in accordance with this GIDAP 7. This Interconnection Request shall be submitted to the CAISO via [UI LINK] or sent to the representative indicated below. California ISO Attn: Grid Assets P.O. Box 639014 Folsom, CA 95763-9014 OR Overnight address: California ISO Attn: Grid Assets 250 Outcropping Way Folsom, CA 95630 8. Deposit can be made via Fed Wire transfer or check – ACH is not accepted. Please be sure and reference the project name in the notes area of wire transfer or check for easy matching. Wiring information: Wells Fargo Bank (LGIP) ABA 121000248 Acct 4122041825 Federal Tax ID # 94-3274043 CAISO is a Corporation. Funds must be received no later than close of cluster window for cluster projects. Representative of the Interconnection Customer to contact: Effective 03/16/2017 [To be completed by the Interconnection Customer] First Name: Last Name: Title: Company Name: Street Address: City: State: Zip Code: Phone Number: Fax Number: Email Address: 9. This Interconnection Request is submitted by: Legal name of the Interconnection Customer: (Punctuation and spelling of Legal name must match Secretary of State document exactly) State of Origin for Secretary of State Document: Name of Parent Company (if applicable): By executing this Interconnection Request, Interconnection Customer hereby consents to CAISO’s disclosure of its confidential information during the evaluation of this request to those Affected Systems who have entered into an appropriate non-disclosure agreement with CAISO and pursuant to Appendix DD of the CAISO Tariff, including Sections 3.7 and 15.1.2. Your electronic signature below indicates your agreement with the following statement: By typing my name in the following line and clicking on the submission box below, the Interconnection Customer identified above certifies that the information contained in this Interconnection Request is true and correct to the best of its knowledge. By (original signature if submitting hard copy): First Name: Last Name: Title: Date (MM/DD/YYYY): Effective 03/16/2017 Project Name: Attachment A Generating Facility Data to GIDAP Appendix 1 Interconnection Request GENERATING FACILITY DATA NO HARD COPY REQUIRED FOR INTERCONNECTION REQUESTS SUBMITTED ELECTRONICALLY VIA RIMS 5 Provide one (1) copy of this completed form pursuant to Section 7 of GIDAP Appendix 1 for nonelectronic submissions. 1. 2. Provide one set of original prints (no larger than 11" x 17") or soft copy on cd/flashdrive of the following: A. Site drawing to scale, showing generator location and Point of Interconnection with the CAISO Controlled Grid. B. Single-line diagram showing applicable equipment such as generating units, step-up transformers, auxiliary transformers, switches/disconnects of the proposed interconnection, including the required protection devices and circuit breakers. For wind and photovoltaic generator plants, the one line diagram should include the distribution lines connecting the various groups of generating units, the generator capacitor banks, the step up transformers, the distribution lines, and the substation transformers and capacitor banks at the Point of Interconnection with the CAISO Controlled Grid. Generating Facility Information Values in A thru E below must match values in Appendix 1 Item 4b - If project is an increase to an existing project, provide values based on the MW increase only. A. Total Generating Facility gross capacity MVA This value equals the total installed MW capacity at unity power factor B. Total Generating Facility gross output MW Gross output achieving desired net MW at POI in F C. Generating Facility Auxiliary Load MW D. Project net capacity at Generating Facility (B-C) MW E. Anticipated Losses between the Generating Facility and POI MW (Include all transformer and line losses between the generating units and the POI at total Generating Facility gross output as calculated by the power flow model in .epc file) Effective 03/16/2017 F. Desired net output at POI (must match MW value derived from power flow model in .epc file) (D-E) MW G. Standby Load when Generating Facility is off-line MW Please repeat the following items H - R for each type of generator. Enter all values at the generating unit terminal. H. Number of Generating Units I. Individual generator rated output MW at the specified power factor % J. Manufacturer K. Year Manufactured L. Nominal Terminal Voltage M. Type Choose an item. N. Phase Choose an item. O. Connection Choose an item. P. Generator Voltage Regulation Range (+/-) Q. Generator Power Factor Regulation Range kV % Attach Generator Reactive Capability Curve R. 3. For combined cycle plants, specify the plant net output capacity for an outage of the steam turbine or an outage of a single combustion turbine MW Synchronous Generator – General Information: (Please repeat the following for each generator model) A. Rated Generator speed RPM B. Rated MVA MVA C. Rated Generator Power Factor D. Generator Efficiency at Rated Load E. Moment of Inertia (including prime mover) F. Inertia Time Constant (on machine base) H G. SCR (Short-Circuit Ratio – the ratio of the field current required for rated open-circuit voltage to the field current required for rated short-circuit current % Sec or MJ/ MVA Effective 03/16/2017 4. H. Please attach generator reactive capability curves I. Rated Hydrogen Cooling Pressure (Steam Units only) J. Please attach a plot of generator terminal voltage versus field current that shows the air gap line, the open-circuit saturation curve, and the saturation curve at full load and rated power factor psig Excitation System Information (Please repeat the following for each generator model) A. Indicate the Manufacturer and Type of excitation system used for the generator. For exciter type, please choose from 1 to 9 below or describe the specific excitation system. Manufacturer: Type: (1) Rotating DC commutator exciter with continuously acting regulator. The regulator power source is independent of the generator terminal voltage and current. (2) Rotating DC commentator exciter with continuously acting regulator. The regulator power source is bus fed from the generator terminal voltage. (3) Rotating DC commutator exciter with non-continuously acting regulator (i.e., regulator adjustments are made in discrete increments). (4) Rotating AC Alternator Exciter with non-controlled (diode) rectifiers. The regulator power source is independent of the generator terminal voltage and current (not bus-fed). (5) Rotating AC Alternator Exciter with controlled (thyristor) rectifiers. The regulator power source is fed from the exciter output voltage. (6) Rotating AC Alternator Exciter with controlled (thyristor) rectifiers. (7) Static Exciter with controlled (thyristor) rectifiers. The regulator power source is bus-fed from the generator terminal voltage. (8) Static Exciter with controlled (thyristor) rectifiers. The regulator power source is bus-fed from a combination of generator terminal voltage and current (compound-source controlled rectifiers system. (9) Other (specify): B. Attach a copy of the block diagram of the excitation system from its instruction manual C. Excitation system response ratio D. Full load rated exciter output voltage E. Maximum exciter output voltage (ceiling voltage) ASA Effective 03/16/2017 F. 5. Power System Stabilizer Information (Please repeat the following for each generator model. All new generators are required to install PSS unless an exemption has been obtained from WECC. Such an exemption can be obtained for units that do not have suitable excitation systems.) A. Manufacturer B. Is the PSS digital or analog: Choose an item. C. Note the input signal source for the PSS Choose an item. D. Please attach a copy of a block diagram of the PSS from the PSS Instruction Manual and the correspondence between dial settings and the time constants or PSS gain Other comments regarding the PSS? E. 6. Other comments regarding the excitation system? Turbine-Governor Information (Please repeat the following for each generator model) Please complete Part A for steam, gas or combined-cycle turbines, Part B for hydro turbines, and Part C for both. A. Steam, gas or combined-cycle turbines: (1) Choose type of unit Choose an item. (2) If steam or combined-cycle, does the turbine system have a reheat process (i.e., both high and low pressure turbines)? Choose an item. (3) If steam with reheat process, or if combined-cycle, indicate the percent of full load power produced by each turbine: B. Low pressure turbine or gas turbine % High pressure turbine or steam turbine % Hydro turbines: (1) Turbine efficiency at rated load % (2) Length of penstock ft (3) Average cross-sectional area of the penstock ft2 (4) Typical maximum head (vertical distance from the bottom of the penstock, at the gate, to the water level) ft (5) Water supply Choose an item. ft3/sec (6) Water flow rate at the typical maximum head Effective 03/16/2017 C. (7) Average energy rate kWhrs/ acre-ft (8) Estimated yearly energy production kW-hrs Complete this section for each machine, independent of the turbine type (1) Turbine manufacturer (2) Maximum turbine power output MW (3) Minimum turbine power output (while on line) MW (4) Governor information a. Droop setting (speed regulation) b. Is the governor mechanical-hydraulic or electrohydraulic (electro-hydraulic governors have an electronic speed sensor and transducer) Choose an item. c. 7. Other comments regarding the turbine governor system Induction Generator Data: Fill out the data only for induction generator. Skip and go to item 9 for Type 4 wind turbine generators. A. Rated Generator Power Factor at rated load B. Moment of Inertia (including prime mover) C. Do you wish reclose blocking? Choose an item. Note: Sufficient capacitance may be on the line now, or in the future, and the generator may self-excite unexpectedly. 7a. Wind Generators Turbine Type (1, 2, or 3) Number of generators to be interconnected pursuant to this Interconnection Request: Average Site Elevation: Single Phase Three Phase Field Volts Field Amperes Motoring Power MW Neutral Grounding Resistor (if applicable) I22t of K (Heating Time Constant) Effective 03/16/2017 Rotor Resistance Stator Resistance Stator Reactance Rotor Reactance Magnetized Reactance Short Circuit Reactance Exciting Current Temperature Rise Frame Size Design Letter Reactive Power Required (No Load) VARS Reactive Power Required (Full Load) VARS Total Rotating Inertia H: Per Unit on 100 MVA Base Note: A completed General Electric Company Power Systems Load Flow (PSLF) data sheet must be supplied with the Interconnection Request. If other data sheets are more appropriate to the proposed device then they shall be provided and discussed at the Scoping Meeting. 8. Generator Short Circuit Data (Synchronous Generator) For each generator model, provide the following reactances expressed in p.u. on the generator base: X"1 – positive sequence subtransient reactance (saturated) p.u** X"1 – positive sequence subtransient reactance (unsaturated) p.u** X2 – negative sequence reactance p.u** X0 – zero sequence reactance Generator Grounding (select 1 for each model): A. B. C. Solidly grounded Grounded through an impedance (Impedance value in p.u on generator base R: p.u. X: p.u.) Ungrounded Effective 03/16/2017 9. Step-Up Transformer Data For each step-up transformer, fill out the data form provided in Table 1. 10. Interconnection Facilities Line Data There is no need to provide data for new lines that are to be planned by the Participating TO. However, for transmission lines that are to be planned by the generation developer, please provide the following information: Nominal Voltage kV Line Length miles Line Termination Points (list two): First Termination Point Second Termination Point Conductor Type Conductor Size If bundled: Number per phase Bundle spacing in. Phase Configuration: Vertical Horizontal Phase Spacing: A-B ft. B-C ft. C-A ft. Distance of lowest conductor to Ground at full load and 40 C Ground Wire: ft. Type Size Distance to Ground ft. Attach Tower Configuration Diagram Effective 03/16/2017 Summer line ratings in amperes: Normal Amps Emergency Amps Winter line ratings in amperes: Normal Amps Emergency Amps Positive Sequence Resistance (R) p.u.** (for entire line length) Positive Sequence Reactance (X) p.u.** (for entire line length Zero Sequence Resistance (R0) p.u.** (for entire line length) Zero Reactance (X0) p.u.** (for entire line length) Line Charging (B) p.u.** ** On 100-MVA and nominal line voltage (kV) Base 10a. For generators with a collector system, provide collector System Equivalence Impedance Data Provide values for each equivalence collector circuit at all voltage levels. Nominal Voltage Summer line ratings in amperes: Normal Amps Emergency Amps Positive Sequence Resistance (R1) p.u.** (for entire line length of each collector circuit) Positive Sequence Reactance (X1) p.u.** (for entire line length of each collector circuit) Zero Sequence Resistance (R0) p.u.** (for entire line length of each collector circuit) Zero Reactance (X0) p.u.** (for entire line length of each collector circuit) Line Charging (B) p.u.** (for entire line length of each collector circuit) ** On 100-MVA and nominal line voltage (kV) Base Effective 03/16/2017 11. Inverter-Based Machines Number of inverters to be interconnected pursuant to this Interconnection Request Cumulative short circuit current from all inverters Please repeat the following for each inverter model Inverter manufacturer, model name, number, and version Nominal Inverter AC output voltage List of adjustable set points for the protective equipment or software Harmonics Characteristics Start-up requirements Maximum design fault contribution current (with LVRT enabled): Isc max current during fault detection Duration of Isc max Isc max after fault detection llv max current for low voltage ride through (LVRT) Duration of llv max Attach Manufacturer Technical Data Specification Sheet Is the inverter capable of providing reactive only current during a system fault that occurs beyond the Point of Interconnection? If yes, provide the minimum time required before the inverter can return to normal operating mode following the fault clearance. Will the inverter go into a blocking mode (i.e. connected to the grid but not injecting any current into the grid) during system fault conditions? Describe the operating conditions wherein the inverter will enter into a blocking mode. Provide the time duration the inverter remains in the blocking mode before returning to the normal current injecting. Is the return time programmable? If yes, provide the range for the return time. Is the inverter capable of being programmed to lock itself out for certain operating conditions? If yes, can the feature be enable or disabled in the field? Effective 03/16/2017 Note: A completed General Electric Company Power Systems Load flow (PSLF) data sheet must be supplied with the Interconnection Request. If other data sheets are more appropriate to the proposed device then they shall be provided and discussed at the Scoping Meeting. 11a. Voltage/Power Factor Control Provide a general description of the voltage/power factor control mechanism that will be installed to meet the requirement below. Include a) a list of all devices that will be providing voltage/reactive support, and b) information regarding their operation and control. These devices should be modeled accordingly in the load flow/dynamic models described in section 12. Reactive Capability Requirements Synchronous Generators – The Generating Unit will maintain a composite power delivery at continuous rated power output at the terminals of the Electric Generating Unit at a power factor within the range of 0.95 leading to 0.90 lagging. Asynchronous Generators - The Generating Unit will maintain a composite power delivery at continuous rated power output at the high-side of the generator substation at a power factor within the range of 0.95 leading to 0.95 lagging. This power factor range standard shall be dynamic and can be met using, for example, power electronics designed to supply this level of reactive capability (taking into account any limitations due to voltage level, real power output, etc.) or fixed and switched capacitors or reactors, or a combination of the two. Refer to FERC Order No. 827 for more detail. 12. Load Flow and Dynamic Models (to be provided via upload for electronic submission, or on DVD, CD, or USB Flash Drive): Provide load flow model for the generating plant and its interconnection facilities in GE PSLF *.epc format, including new buses, generators, transformers, interconnection facilities. One copy of this data should be provided via upload for electronic submission, or on DVD, CD, or USB flash drive media. An equivalent model is required for the plant with generation collector systems. This data should reflect the technical data provided in this Attachment A. 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. For inverter based generating facilities, select the appropriate generator and control models from the General Electric PSLF Program Manual and provide the required input data. For each generator that will activate voltage/frequency relaying, provide appropriate dynamic models for low/high voltage/frequency ridethrough that comply with NERC standard PRC-024-2. The latest WECC approved model must be used. Provide a completed *.dyd file that contains the information specified in this section. One copy of this data should be provided via upload for electronic submission, or on DVD, CD, or USB flash drive media. If you require assistance in developing the models, we suggest you contact General Electric. Accurate models are important to obtain accurate study results. Costs associated with any changes in facility requirements that are due to differences between model data provided by the generation developer and the actual generator test data, may be the responsibility of the generation developer. Effective 03/16/2017 For information regarding GE PSLF and its model library, please send an email to [email protected] Effective 03/16/2017 TABLE 1 TRANSFORMER DATA (Provide for each level of transformation) UNIT NUMBER OF TRANSFORMERS RATING PHASE H Winding X Winding Y Winding H-X H-Y X-Y H X Y Rated MVA Connection (Delta, Wye, Gnd.) Cooling Type (OA,OA/FA, etc) Temperature Rise Rating Rated Voltage BIL Available Taps (% of rating) Load Tap Changer? (Y or N) Tap Settings IMPEDANCE Percent MVA Base Tested Taps WINDING RESISTANCE X/R Ratio CURRENT TRANSFORMER RATIOS H Percent exciting current at: X 100% Voltage Y N 110% Voltage Supply copy of nameplate and manufacture’s test report when available Effective 03/16/2017