General Information * Required General * Plant Name * Company Name * Name of individual completing data * Email of individual completing data * Phone of individual completing data * Has any data in any sheet changed from previous year * PJM TO area * Plant code * Commercial Operation Year * Prime Mover Code * Ownership Code Location * County * City * State * Zip Energy Source Code *A B C D E Generator Capability Summer * Name Plate (MW) * Unit Maximum (MW) * Unit Minimum (MW) * Total Gross Energy * Auxiliary load (MW) * Auxiliary load (MVAR) * Station Load (MW) * Station Load (MVAR) Total Reactive Power Capability at Max Gross Energy Output * Leading (MVAR) * Lagging (MVAR) Winter Auxiliary Loads are those loads related to the operation of a specific generator. Fox example any fans or pumps etc. The station load is also known as house load. These are loads related to the facility where the power plant is located but not related to the operation of the power plant. This tends to be constant. Underexcited Overexcited Synchronous Gen Parameters * Required * Want to submit data for a Synchronous Generator? Please Select... Provide individual generator capability (All values requested here are for individual units) * Machine ID (e.g. ST, CT, CT1, CT2, ST2, etc.): Note: List all the machine IDs that these data corresponds (e.g. CT1, CT2). * MVA base: * Terminal voltage: * Nominal power factor: * Unit maximum net capacity output (unit CIR): * Unit gross energy output: * Unit reactive power capability at max gross energy output - leading: * Unit reactive power capability at max gross energy output - lagging: Unit auxiliary load at max gross energy power output: * Where is the auxiliary load being connected? Please provide diagram illustrating aux load configuration. * Any additional comments on the capability (Aux Load): Generator Parameters All reactances and resistance values in PU on Machine MVA Base * Combined turbine-generator-exciter inertia, H: * Speed damping coefficient, D: Generator Saturation * Generator saturation at 1.0 p.u. voltage, S (1.0): * Generator saturation at 1.2 p.u. voltage, S (1.2): Unsaturated Reactances * Direct axis synchronous reactance, Xd(i): * Direct axis transient reactance, X'd(i): * Direct axis sub-transient reactance, X"d(i): * Quadrature axis synchronous reactance, Xq(i): * Quadrature axis transient reactance, X'q(i): * Quadrature axis sub-transient reactance, X"q(i): * Stator leakage reactance, Xl: * Negative sequence reactance, X2(i): * Zero sequence reactance, X0(i): Saturated Reactances * Saturated subtransient reactance, X"d(v): * Negative sequence reactance, X2(v): * Zero sequence reactance, X0(v): Resistances * DC armature resistance, Ra: * Positive sequence resistance, R1: * Negative sequence resistance, R2: * Zero sequence resistance, R0: Time Constants * Direct axis transient open circuit, T'do: * Direct axis sub-transient open circuit, T"do: * Quadrature axis transient open circuit, T'qo: * Quadrature axis sub-transient open circuit, T"qo: * Armature three-phase short circuit, Ta3: Control Systems Select the appropriate dynamic model * Exciter * If any of the above models are not submitted, then explanation is required: * Governor: * If any of the above models are not submitted, then explanation is required: * Power System Stabilizer (PSS): * If any of the above models are not submitted, then explanation is required: Additional Information: Synchronous Transformer * Want to submit data for a Generator Step-up Transformer (GSU)? Please complete all required information below. If you do not wish to submit a transformer for this turbine, please select "No" in the drop down above. Generator Step-Up (GSU) Transformer Form Note: Main Transformer information is requested in a separate form. * MVA base: Total Transformer Ratings (MVA) e.g. OA/FA1/FA2 * Rating 1: * Rating 2: * Rating 3: * Select transformer windings: Impedances (All Values in PU on Transformer MVA base) * (a) High-side to low-side: * (b) High-side to tertiary: * (c) Low-side to tertiary: Winding Voltages (kV) * High-side: * Low-side: * Tertiary: Winding Connection Types (Delta, Wye, Wye Gnd, etc) * High-side: * Low-side: * Tertiary: * Tap position: Off-nominal Turns Ratio: Number of taps: Step size: Any additional comments on the transformer? Example: Specify machine ID eters Only fill the data below if 'Yes' is selected on the left No MVA KV Summer Winter MW MVAR Underexcited MVAR Overexcited MW MVAR Please select... Load related to the operations of the plant (e.g. fans, pumps, etc.) Pink label and addition 'Location other than tw dropdown above kWs/kVA 1 < H < 10 P.U. 0≤D<3 PU 0 < S1.0 PU S1.0 < S1.2 PU xd < 2.5 PU x'd < 0.5 x xd PU x"d < x'd PU xq < xd PU x'q < xq PU x"q < x'q PU PU PU PU X"d(v) < X"d(i) PU PU Ohms PU PU PU sec 1. < T(′do < 10.) sec 0.01667 < T"do < 0.2 sec 0.2 ≤ T′qo ≤ 1.5 sec 0.01667 ≤ T"qo ≤ 0.2 sec 0.025 ≤ Ta ≤ 0.1 Please select.... Please select.... Please select... Please select... mer Please select... MVA MVA Only fill the data below if 'Yes' is selected on MVA MVA If Three Windings was selected for transform with tertiary in the name are required Please select... R PU PU PU KV KV KV jX X/R d on the left Pink label and additional comment box is only required if 'Location other than two options above' was selected for dropdown above If Other or N/A is selected for Exciter textbox on the left will be required If Other or N/A is selected for Governer textbox on the left will be required If N/A is selected for PSS textbox on the left will be required w if 'Yes' is selected on the left s selected for transformer winding fields ame are required Wind Farm Parameters * Required * Want to submit data for a Wind Farm? Please Select... Wind Farm Parameters * Specify manufacturer: * Specify model: * MW Value per turbine (nominal rating): * Number of wind turbines generators of the selected type: * MVA base: * Terminal voltage: * Nominal power factor: * Stator resistance, R1: * Saturated sub-transient reactance, X"d(v): No MVA KV PU on MVA base Ohms PU on MVA base * Control mode: Please select... * Voltage relays? * If yes, provide voltage relay settings: Please select... * Frequency relays? * If yes, provide frequency relay settings: Please select... * Additional windfarm compensation: Please select... Wind Farm Transformer Generator Step-Up (GSU) Transformer Form Note: Main Transformer information is requested in a separate form. * MVA base: MVA Total Transformer Ratings (MVA) e.g. OA/FA1/FA2 * Rating 1: * Rating 2: * Rating 3: * Select transformer windings: Impedances (All Values in PU on Transformer MVA base) MVA MVA MVA Please select... * (a) High-side to low-side: * (b) High-side to tertiary: * (c) Low-side to tertiary: PU PU PU Winding Voltages (kV) * High-side: * Low-side: * Tertiary: KV KV KV Winding Connection Types (Delta, Wye, Wye Gnd, etc) * High-side: * Low-side: * Tertiary: * Tap position: Off-nominal Turns Ratio: Number of taps: Step size: Any additional comments on the transformer? s r No Please select... Please select... Please select... Please select... Only fill the data below if 'Yes' is selected on the left If Three Windings was selected for transformer windi with tertiary in the name are required Please select... R jX X/R d on the left s selected for transformer winding fields ame are required Inverter Based Parameters * Required * Want to submit data for an Inverted Based Generator? Please Select... No Inverter Based Parameters * Type of inverter based technology (e.g solar, storage, etc.): * Specify manufacturer of inverter: * Specify model: * MW Value per inverter: * Total number of inverters: * MVA Base per inverter: * Terminal voltage: * Nominal power factor: * Nominal output current at full load per inverter: * Maximum fault current output from the inverter: * How fast can the inverter be disconnected from the system subsequent to a fault? MW MVA KV PU Amps Amps or per unit cycles Dynamic modeling * Description of dynamic performance of the inverter during a fault. Please describe how the selected inverter will behave dynamically with respect to real power, reactive power and tripping points for voltage and frequency: Examples: Constant real and reactive power injection during a fault. No tripping allowed. Fluctuations in real and reactive power depending on system conditions. Please submit dynamic model for an accurate representation. * Is the inverter designed with Low Voltage Ride-Through (LVRT) capability? Please sel * Voltage relays? * If yes, provide voltage relay settings: Please sele * Frequency relays? * If yes, provide frequency relay settings: Please sele Note: All inverter based projects greater than 30 MW must submit a dynamic model. Dynamic model may be requested for projects less than 30 MW depending on the area. To avoid delays, whenever available, please submit a dynamic model. Inverter Based Transformer Generator Step-Up (GSU) Transformer Form Note: Main Transformer information is requested in a separate form. * MVA base: Total Transformer Ratings (MVA) e.g. OA/FA1/FA2 * Rating 1: * Rating 2: * Rating 3: * Select transformer windings: Impedances (All Values in PU on Transformer MVA base) MVA MVA MVA MVA Please sel * (a) High-side to low-side: * (b) High-side to tertiary: * (c) Low-side to tertiary: PU PU PU Winding Voltages (kV) * High-side: * Low-side: * Tertiary: KV KV KV Winding Connection Types (Delta, Wye, Wye Gnd, etc) * High-side: * Low-side: * Tertiary: * Tap position: Off-nominal Turns Ratio: Number of taps: Step size: Any additional comments on the transformer? No Please select... Please select... Please select... Only fill the data below if 'Yes' is selected on the left If Three Windings was selected for transformer winding with tertiary in the name are required Please select... R jX X/R or transformer winding fields quired Main Transformer * Required * Want to submit data for a Main Transformer? Please Select... Generator Step-Up (GSU) Transformer Form Note: Main Transformer information is requested in a separate form. * MVA base: Total Transformer Ratings (MVA) e.g. OA/FA1/FA2 * Rating 1: * Rating 2: * Rating 3: * Select transformer windings: Impedances (All Values in PU on Transformer MVA base) No MVA MVA MVA MVA Please select... R * (a) High-side to low-side: * (b) High-side to tertiary: * (c) Low-side to tertiary: PU PU PU Winding Voltages (kV) * High-side: * Low-side: * Tertiary: KV KV KV Winding Connection Types (Delta, Wye, Wye Gnd, etc) * High-side: * Low-side: * Tertiary: * Tap position: Off-nominal Turns Ratio: Number of taps: Step size: Any additional comments on the transformer? Only fill the data below if 'Yes' is selected on the left If Three Windings was selected for transformer winding fields with tertiary in the name are required e select... jX X/R Ownership S single ownership by respondent J jointly owned with another entity W wholly owned by an entity other than respondent Prime Mover Codes ST Steam Turbine, including nuclear, geothermal and solar steam (does not include Combined Cycle) GT Combustion (Gas) Turbine IC Internal Combustion (diesel, piston) Engine CA Combined Cycle Steam Part CC Combined Cycle Total Unit (use only for plants/generators that are in planning stage, for which specific generator details cannot be provided) CS Combined Cycle Single Shaft (combustion turbine and steam turbine share a single generator) CT Combined Cycle Combustion Turbine Part (type of coal must be reported as energy source for integrated coal) HY Hydraulic Turbine (includes turbines associated with delivery of water by pipeline) PS Hydraulic Turbine – Reversible (pumped storage) PV Photovoltaic WT Wind Turbine CE Compressed Air Energy Storage FC Fuel Cell OT Other NA Unknown at this time (use only for plants/generators that are in planning stage, for which specific generator details cannot be provided) Energy Source Code BIT Anthracite Coal, Bituminous Coal LIG Lignite Coal SUB Subbituminous Coal WC Waste/Other Coal (Anthracite Culm, Bituminous Gob, Fine Coal, Lignite Waste, Waste Coal) SC Coal-based Synfuel and include briquettes, pellets, or extrusions, which are formed by binding materials and processes that recycle material DFO Distillate Fuel Oil (includes all Diesel and No. 1, No. 2, and No. 4 Fuel Oils) JF Jet Fuel KER Kerosene RFO Residual Fuel Oil (includes No. 5 and No. 6 Fuel Oils and Bunker C Fuel Oil) WO Oil-Other and Waste Oil (Butane (Liquid), Crude Oil, Liquid Byproducts, Oil Waste, Propane (Liquid), Re-Refined Motor Oil, Sludge Oil, Tar Oil) PC NG BFG OG Petroleum Coke Natural Gas Blast-Furnace Gas Other Gas (Butane, Coal Processes, Coke-Oven, Refinery, and other processes) Propane Nuclear (Uranium, Plutonium, Thorium) Agriculture Crop Byproducts/Straw/Energy Crops Black Liquor Geothermal Landfill Gas Municipal Solid Waste Other Biomass Solids (Animal Manure and Waste, Solid Byproducts, and other solid biomass not specified) Other Biomass Liquids (Ethanol, Fish Oil, Liquid Acetonitrile Waste, Medical Waste, Tall Oil, Waste Alcohol, and other biomass liquids not specified) Other Biomass Gases (Digester Gas, Methane, and other biomass gases) Other (Batteries, Chemicals, Coke Breeze, Hydrogen, Pitch, Sulfur, Tar Coal, and miscellaneous technologies) Purchased Steam Sludge Waste Solar (Photovoltaic, Thermal) Tires Water (Conventional, Pumped Storage) Wood/Wood Waste Solids (Paper Pellets, Railroad Ties, Utility Poles, Wood Chips, and other wood solids) Wood Waste Liquids (Red Liquor, Sludge Wood, Spent Sulfite Liquor, and other wood related liquids not specified) Wind Not Available PG NUC AB BLQ GEO LFG MSW OBS OBL OBG OTH PUR SLW SUN TDF WAT WDS WDL WND NA