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Form B - Connection Impact Assessment Application This application form is for generators applying for Connection Impact Assessment (CIA) and for generators with a project size greater than 10 kW. This application form is required for: New generators applying for CIA New generators applying for revision to their original CIA Generators applying for CIA after rescinding a previous CIA. Note: Include your previous CIA Project ID# below. For generation size less than or equal to 10 kW, complete Form C - Micro-Generation Connection Application. IMPORTANT: All fields below are mandatory, except where noted. Incomplete applications may be returned by PowerStream. If you have any questions contact PowerStream by email to [email protected] or telephone 1-877-963-6900 extension 25001. Return the completed form, fees and other required documents by mail, email or fax to: PowerStream Inc. Stations Design and Construction – Embedded Generation 161 Cityview Boulevard, Vaughan, Ontario, L4H 0A9 Email: [email protected] Fax: 905-532-4447 – Attention: Stations Design and Construction – Embedded Generation NOTE 1: Applications are cautioned NOT to incur major expenses until PowerStream approves to connect the proposed generation facility. NOTE 2: All technical submissions (Form B, single line diagrams, etc.) must be signed and sealed by a licensed Ontario Professional Engineer (P.Eng.). Date: (dd/mm/yyyy) 1. Application Type: New CIA Application CIA Revision / Rework Original CIA Project ID# (if applicable): Project Name: 2. Ontario Power Authority Feed-In Tariff (FIT) Contract #: 3. Proposed In-Service Date: 4. Project Size: (dd/mm/yyyy) Number of units Nameplate rating of each unit Generator connecting on Existing total nameplate capacity Proposed total nameplate capacity PowerStream Inc. Form B – Connection Impact Assessment Application October 2009 – rev 1.4 kW single phase kW kW three phase Page 1 of 7 Form B - Connection Impact Assessment Application 5. Project Location: Address City / Town / Township Lot Number (s) Concession number(s) 6. Project Contact Information: GPS coordinates Choose a single point of contact: Generator (mandatory) Owner Consultant Owner (mandatory) Consultant (optional) Company / Person Contact Person Mailing address line 1 Mailing address line 2 Telephone Postal Code Cell Fax Email Preferred method of contact with PowerStream: Email Telephone Postal Mail Fax 7. Program Type: A. Net Metering B. Net Metering to FIT Conversion C. FIT 8. Fuel Type: A. Existing: Wind Turbine Hydraulic Turbine Steam Turbine Solar/Photovoltaic Diesel Engine Gas Turbine Fuel Cell Biomass Anaerobic Digester Bio-Diesel Other (please specify) Co-generation/CHP (combined heat and power) B. New: Wind Turbine Hydraulic Turbine Steam Turbine Solar/Photovoltaic Diesel Engine Gas Turbine Fuel Cell Biomass Anaerobic Digester Bio-Diesel Other (please specify) Co-generation/CHP (combined heat and power) 9. Customer Status Are you an existing PowerStream customer? If yes, PowerStream 12-digit account number: Customer name registered on this account: Are you a Goods and Service Tax (GST) registrant? If yes, provide your GST registration number: PowerStream Inc. Form B – Connection Impact Assessment Application October 2009 – rev 1.4 Yes No Yes - No RT Page 2 of 7 Form B - Connection Impact Assessment Application 10. Location and Site Plan: Provide site plan with approximate line routings for connection to nearby PowerStream facilities. The site plan should include roads, concession and lot numbers and nearby power lines. It should identify the Point of Common Coupling (PCC) location on the PowerStream feeder and the location (i.e. on private property or municipal property) of all generator lines (collector lines and transmission / distribution lines). Drawing / Sketch number: , Rev. 11. Connection to PowerStream’s Distribution System: a. b. c. d. Proposed or existing connection voltage to PowerStream’s distribution system: kV Station: Feeder: Distance between the connection point on the feeder (PCC) and the demarcation point between the utility and distributed generation ‘owned’ Electrical Safety Authority approved load break switch (located on source side of metering, breaker, interface transformer, etc.): km e. If line tap required: Line tap between generating facility demarcation point (load break switch and metering) and connection point on PowerStream’s feeder (PCC): Conductor size (e.g. 366): Conductor type (e.g. AL): Note: PowerStream may request actual impedance for non-standard conductors at a later time. f. PCC GPS coordinates: g. Route distance from PCC (if distance from PCC to generator > 500m) to generation site: km h. Line tap to be built by: PowerStream (see Note) OR other (specify): i. Line tap to be owned by: PowerStream (see Note) OR other (specify): NOTE: Customers requiring line tap construction between their demarcation point and the connection point on the PowerStream feeder should contact PowerStream to discuss potential ownership options, construction and coordination logistics for these facilities. Also, those customers whom may require attaching collector lines to PowerStream poles must also contact PowerStream to discuss potential to engage in joint use of utility assets. PowerStream will consider owning and operating all new lines if they are designed and constructed to PowerStream standards and are located on municipal roadway right-of-ways. This may change your PCC location. You must contact PowerStream to discuss. For details email [email protected] or call 1-877-963-6900, extension 25001. 12. Single Line Diagram (SLD): Provide a SLD of the generating facility including the Interface Point / PCC to PowerStream’s distribution system. SLD drawing number: , Rev. 13. Protection Philosophy: Provide a document describing the protection philosophy for detecting and clearing: - internal faults within the embedded generation facility; - external phase and ground faults (in PowerStream’s distribution system); - certain abnormal system conditions such as over/under voltage , over/under frequency, open phase(s); - islanding Document Number: , Rev. PowerStream Inc. Form B – Connection Impact Assessment Application October 2009 – rev 1.4 Page 3 of 7 Form B - Connection Impact Assessment Application Include a tripping matrix or similar information in the document. Note: Embedded generator shall install utility grade relays for the interface protection. The protection design shall incorporate facilities for testing and calibrating the relays by secondary injection. 14. Generator Characteristics NOTE: Inverter-based generating units must not inject DC greater than 0.5% of the full rated output current at the point of connection of the generating units. The generated harmonic levels must not exceed those given in the CAN/CSA-C61000-3-6 Standards. No existing generators (if chosen, part a. is optional) a. Characteristics of Existing Generators (if applicable): 1. 2. 3. 4. 5. 6. 7. 8. 9. Number of generating unit(s): Manufacturer / Type or Model No: / Rated capacity of each unit: kW kVA If unit outputs are different, fill in additional sheets to provide the information. Rated frequency: Hz Rotating machine type: Synchronous Induction Other (specify) Generator connecting on: single phase three phase Limits of range of reactive power at the machine output: Lagging (over-excited) kVAR power factor Leading (under-excited) kVAR power factor Limits of range of reactive power at the PCC: Lagging (over-excited) kVAR power factor Leading (under-excited) kVAR power factor Starting inrush current: pu (multiple of full load current) For SPC/Inverter Type Units: i. Terminal voltage: ii. Line –interactive type (i.e. intended for parallel operation with electric utility) iii. Power factor iv. Battery backup provided v. Maximum fault current for terminal faults vi. Standards according to which built vii. Provide Manufacturer’s technical brochure and specification sheet V Yes No Yes A No For Synchronous Units: viii. Nominal machine voltage: kV ix. Minimum power limit for stable operation kW x. Unsaturated reactances on: kVA base Direct axis subtransient reactance, Xd” pu Direct axis transient reactance, Xd’ pu Direct axis synchronous reactance, Xd pu Zero sequence reactance, X0 pu xi. Provide a plot of generator capability curve (MW output vs MVAR) Document Number: , Rev. PowerStream Inc. Form B – Connection Impact Assessment Application October 2009 – rev 1.4 kV base Page 4 of 7 Form B - Connection Impact Assessment Application For Induction Units: xii. Nominal machine voltage: kV xiii. Unsaturated reactances on: kVA base kV base Direct axis subtransient reactance, Xd” pu Direct axis transient reactance, Xd’ pu xiv. Total power factor correction installed: kVAR Number of regulating steps Power factor correction switched per step kVAR Power factor correction capacitors are automatically switched off when generator breaker opens Yes No b. Characteristics of New Generators: 10. 11. 12. 13. 14. 15. 16. 17. 18. Number of generating unit(s): Manufacturer / Type or Model No: / Rated capacity of each unit: kW kVA If unit outputs are different, fill in additional sheet to provide the information. Rated frequency: Hz Rotating machine type: Synchronous Induction Other (specify) Generator connecting on: single phase three phase Limits of range of reactive power at the machine output: Lagging (over-excited) kVAR power factor Leading (under-excited) kVAR power factor Limits of range of reactive power at the PCC: Lagging (over-excited) kVAR power factor Leading (under-excited) kVAR power factor Starting inrush current: pu (multiple of full load current) For SPC/Inverter Type Units: xv. xvi. Terminal voltage: Line –interactive type (i.e. intended for parallel operation with electric utility) xvii. Power factor xviii. Battery backup provided xix. Maximum fault current for terminal faults xx. Standards according to which built xxi. Provide Manufacturer’s technical brochure and specification sheet V Yes No Yes A No For Synchronous Units: xxii. Nominal machine voltage: kV xxiii. Minimum power limit for stable operation: kW xxiv. Unsaturated reactances on: kVA base kV base Direct axis subtransient reactance, Xd” pu Direct axis transient reactance, Xd’ pu Direct axis synchronous reactance, Xd pu Zero sequence reactance, X0 pu xxv. Provide a plot of generator capability curve (MW output vs MVAR) Document Number: , Rev. PowerStream Inc. Form B – Connection Impact Assessment Application October 2009 – rev 1.4 Page 5 of 7 Form B - Connection Impact Assessment Application For Induction Units: xxvi. Normal machine voltage: kV xxvii. Unsaturated reactances on: kVA base kV base Direct axis subtransient reactance, Xd” pu Direct axis transient reactance, Xd’ pu xxviii. Total power factor correction installed: kVAR Number of regulating steps Power factor correction switched per step kVAR Power factor correction capacitors are automatically switched off when generator breaker opens Yes No 15. Interface Step-Up Transformer Characteristics: a. b. c. d. e. Transformer rating: Nominal voltage of high voltage winding: Nominal voltage of low voltage winding: Transformer type: Impedances on: kVA kV kV single phase kVA base R pu, X f. High voltage winding connection: delta Grounding method of star connected high voltage winding neutral: solid ungrounded impedance: R ohms X g. Low voltage winding connection: : delta Grounding method of star connected high voltage winding neutral: solid ungrounded impedance: R ohms X three phase kV base pu star ohms star ohms NOTE: The term “high voltage” refers to the intermediate voltage that is input into the interface step-up transformer and “low voltage” refers to the generation or any other intermediate voltage. 16. Intermediate Transformer Characteristics (optional): No intermediate transformer (if chosen, parts a. to h. are optional) a. b. c. d. e. Transformer rating: Nominal voltage of high voltage winding: Nominal voltage of low voltage winding: Transformer type: Impedances on: kVA kV kV single phase kVA base R pu, X f. High voltage winding connection: delta Grounding method of star connected high voltage winding neutral: solid ungrounded impedance: R ohms X g. Low voltage winding connection: delta Grounding method of star connected high voltage winding neutral: solid ungrounded impedance: R ohms X three phase kV base pu star ohms star ohms NOTE: The term “high voltage” refers to the intermediate voltage that is input into the interface step-up transformer and the “low voltage” refers to the generation voltage. PowerStream Inc. Form B – Connection Impact Assessment Application October 2009 – rev 1.4 Page 6 of 7 Form B - Connection Impact Assessment Application 17. Load Information (optional): a. Maximum load of the facility: kVA kW b. Maximum load current (referred to the nominal voltage at the connection point to PowerStream system): A c. Maximum inrush current (referred to the nominal voltage at the connection point to PowerStream system): A Attached Documents: Item # Description Reference Number Number of pages Description Reference Number Number of pages 1. 2. 3. 4. 5. Attached Drawings: Item # 1. 2. 3. 4. 5. Check List: Please ensure the following items are completed prior to submission. Your application will not be processed if any part is omitted or incomplete: Completed Form B – Connection Impact Assessment Application Payment in full, by cheque or money order payable to PowerStream Inc., including applicable taxes. See Connection Impact Assessment Fee Schedule. Please note when there is an upstream Hydro One an additional $10,000 will be required for costs associated with the Hydro One’s CIA. Signed Study Agreement Single Line Diagram, stamped by a Professional Engineer (P. Eng.) PowerStream Inc. Form B – Connection Impact Assessment Application October 2009 – rev 1.4 Page 7 of 7