Generating Facility Description. {Buyer Comment: Provide description of the Generating Facility equipment, systems, electric metering and the Seller’s measurement of the Useful Thermal Energy Output, control systems and features, including a site plan drawing and a one-line diagram, and the generator nameplate(s).}
Generating Facility Description. A) A single-line diagram of the Generating Facility is attached to and made part of this Agreement as Appendix A. The single line diagram shows the general arrangement of how the Generating Facility is interconnected with the Utility’s System and shows all major equipment, including visual isolation equipment, Point of Common Coupling, ownership of equipment and meter location(s).
Generating Facility Description. {SCE Note: Seller must provide description of the Generating Facility equipment, systems, control systems and features, including a site plan drawing showing the general arrangement of the Generating Facility, and a single-line diagram(s) showing electrical arrangement of generating equipment, inverters, unit/service transformers, CAISO Controlled Grid interconnection, interconnection transformer(s), metering, breakers, and disconnects (as applicable). To the extent applicable, Seller must include the designation system by which Seller identifies individual generating units.} Name and Address of Generating Facility: [Project Name] [Address] [City, State Zip Code] Latitude and Longitude: Lat, Long Technology: [specify fixed tilt OR single-axis tracking OR dual-axis tracking AND monocrystalline silicon OR polycrystalline silicon OR thin film]. Item Manufacturer Model Number Rating Quantity Total Rating Photovoltaic Modules [Rating, in W DC, of a single module] Inverter [include temperature specific to rating, if applicable. e.g. 800kVA @ 50°C] Transformer [optional] [optional] [include both kVA rating and high/low voltage rating] Primary Step Up Transformer [if applicable [optional] [optional] [include both kVA rating and high/low voltage rating] [Unless stated otherwise, all fields in the table are required.]
Generating Facility Description. The Facility consists of two 46 MW units on approximately 400 acres. Each unit employs a modular architecture, where fields of dual-axis heliostats point to a thermal receiver, converting water directly to steam. Steam from 16 receivers is aggregated at a central steam turbine and generator and is used to produce 46 MW (net) of electric energy. The electric output from each unit is aggregated in a collector line, which will interconnect to EPE’s transmission system. The following are renderings of the 92 MW project: Exhibit B ****=Confidential treatment has been requested for the redacted portions of this exhibit. The copy filed herewith omits the information subject to the confidentiality request. Omissions are designated as ****. A complete version of this exhibit has been filed separately with the Securities and Exchange Commission.
Generating Facility Description. The Generating Facility is a 200 MWac (net at Point of Interconnection) Project consisting of a 208.07 MWac solar PV plant and 208.07 MWac XXXX. The Project will utilize inverter technology for both the PV and battery systems. The XXXX will be integrated at the 34.5 kV voltage bus of the step-up transformer. The XXXX component of the Project was studied during the material modification assessment to be charged from the grid.
Generating Facility Description. Sierra SunTower is a 5 MW (electric) solar thermal energy facility located at 000 Xxxx Xxxxxx X, Xxxxxxxxx, XX, 00000. The facility consists of two receiver towers, solar fields, steam turbine and generator set, cooling towers, steam piping, and auxiliary equipment. For each tower, two sub-fields (north and south), each consisting of approximately 6,000 dual-axis sun-tracking heliostats reflects solar heat to a thermal receiver mounted atop the tower. The focused heat boils water within the thermal receiver and produces steam. The steam from each thermal receiver is aggregated and piped to the steam turbine, which turns a power generator. The steam then condenses back to water through cooling, and the process repeats. The steam turbine and generator set is a newly refurbished General Electric set that was previously used at the now- retired Auberry Energy biomass power plant in central California. Although the nameplate rating is 7.5 MW, it will be operated at 5 MW, with potential future expansion to 7.5 MW if a third tower and associated solar fields are installed east of the existing towers. Sierra SunTower will interconnect into SCE’s 12kV distribution system on Avenue G, adjacent to the site. Aerial photograph of the Sierra SunTower site. Single line diagram of the Sierra SunTower project.
Generating Facility Description. The Generating Facility will be a geothermal small power production facility supplied by a geothermal fluids gathering system. The Generating Facility will consist of between forty-five (45) and fifty (50) UTC Power PureCycle B280 Power Systems each producing 280 xxxxx xX. The PureCycle equipment converts heat provided by geothermal fluids into electricity utilizing the Organic Rankine Cycle. Each PureCycle unit consists of an evaporator, condenser, turbine, induction generator, cycle-pump, system controls, control valves, and piping. The Generating Facility is supplied with geothermal fluids from a well field which is being developed by Seller. The geothermal fluids are produced and transported from the geothermal production xxxxx to the power plant. The fluids flow under pressure directly into the PureCycle evaporators. The geothermal fluid heats and vaporizes the R-245fa working fluid, which is a hydro fluoro carbon refrigerant (HFC). The working fluid expands through the turbine which is coupled to the generator. The expanding working fluids are condensed in a water-cooled condenser and pumped back to the heat exchangers in a closed loop. The Generating Facility will utilize a hybrid cooling tower system to provide the cooling water for the condenser. The spent geothermal fluids are returned via pipelines from the power plant facilities to the injection xxxxx. Electric power required to operate power plant auxiliary equipment and to produce, transport and re-inject the geothermal fluids is provided by the gross output of the Generating Facility.
Generating Facility Description a. Mesquite Lake is configured with two Lurgi multi-hearths, bubbling fluidized bed furnaces with modifications. Post combustor, super-heater, then into the steam boiler. Boilers process the steam into a turbine, which operates the Axxxxxx 18 megawatt generator..
Generating Facility Description. A single-line diagram of the Generating Facility is attached to and made part of this Agreement as Appendix A. The single line diagram shows the general arrangement of how the Generating Facility is interconnected with the Utility’s System and shows all major equipment, including visual isolation equipment, Point of Common Coupling, ownership of equipment and meter location(s). A description of the Generating Facility is attached to and made a part of this Agreement as Appendix B. Appendix B is standard form that provides the engineering and operating information about the Generating Facility, including the Generating Facility’s Rated Capacity and scheduled operational (on- line) date.
Generating Facility Description. The plant was built in 1983. It was operated, with no changes to the facilities, until the expiration the District’s PG&E QF contract on April 30, 2014. The District had no water to operate the hydroelectric plant and opted to the let contract expire at that time. After moderate 2014/2015 winter rains, the plant operated under a three-month PG&E QF contract from May 1, 2015 through July 31, 2015, until the project was again without a water supply. See the attached excerpt of the Xxxx Xxxxxxx Engineering report describing the description of the equipment and systems. See pages 2-1 and 2-2 of the Xxxx Xxxxxxx for turbine name plate information. The Facility has two identical 1460 xX Xxxxxxx type turbines and one 86 kW impulse type turbine for a total of 3006 kW. The impulse turbine cannot be operated when either of the Xxxxxxx turbines is running. However, the Facility can generate up to 3200 kW if the reservoir is full. In the single line diagram, the 1460 kW was rounded up to 1500 kW and the 86 kW was rounded up to 100 kW. The Facility has two 1400 kW generators and one 86 kW generator. All generators and turbines are located in the same underground powerhouse. Power from all units goes through a single PG&E meter and a single ISO meter. Both meters are located in the underground powerhouse, which is below the generation step-up transformer. The project includes solar power and an emergency generator system in case the project is not able to get power from the power grid. The solar power system provides enough energy to keep the Supervisory Control and Data Acquisition (SCADA) system, including remotely controlled cameras on-line. The generator is able to provide the power needed to operate the entire dam, including the spillway gates, and can be activated remotely using the SCADA system. When the dam was built, it was not connected to the power grid and had to be able to operate independently. See attached site plan drawing. See attached one-line diagram