White River Solar project is a 25.2MWDC solar photovoltaic, grid connected power generation facility.
Ryan’s responsibilities comprised full engineering, procurement and construction of the entire system including procurement of electrical equipment, preparation of the site involving management of all project grading and trenching. Ryan also installed the support structures, module racking system, modules, inverters, DC wiring, AC power cables, with the associated collection equipment and all electrical systems for the entire project involving module connections and inverter installation. The Ryan team designed and optimized the project processes, installation and the 34.5kV-11.5Kv substation.
Project Overview
Completed in 8 months
ATI’s ground-mount single-axis tracking support structure on impact driven steel piers
Emerson 1.06MW inverters
Yingli 300W & Canadian Solar 290W polycrystalline modules
Ryan’s responsibilities comprised full procurement and construction of the entire system including procurement of electrical equipment, preparation of the site involving management of all project grading and trenching. Ryan also installed the support structures, module racking system, modules, inverters, DC wiring, AC power cables, with the associated collection equipment and all electrical systems for the entire project involving module connections and inverter installation.
Project Overview
1.60 MWDC ground-mount project
325W modules
(1) 750kW inverter, (1) 500kW inverter
Completed in three months
Fixed ground-mount support structure on ground screws
Corcoran Solar Project is a 25.7 MWDC solar photovoltaic, grid connected power generation facility. This project was completed in 8 months.
Ryan’s responsibilities comprised full engineering, procurement and construction of the entire system including procurement of electrical equipment, preparation of the site involving management of all project grading and trenching. Ryan also installed the support structures, module racking system, modules, inverters, DC wiring, AC power cables, with the associated collection equipment and all electrical systems for the entire project involving module connections and inverter installation. The Ryan team designed and optimized the project processes, installation and the 34.5kV-11.5Kv substation.
Project Overview
ATI’s ground-mount single-axis tracking support structure on impact-driven steel piers
PLA with IBEW
Yingli 295W & 300W and Canadian Solar 290W polycrystalline modules
Emerson 1.06MW inverters
All power sold to Southern California Edison (SCE)
White River 2 Solar project is a 26.6MWDC solar photovoltaic, grid connected power generation facility. This project was completed in 10 months.
Ryan’s responsibilities comprised full engineering, procurement and construction of the entire system including procurement of electrical equipment, preparation of the site involving management of all project grading and trenching. Ryan also installed the support structures, module racking system, modules, inverters, DC wiring, AC power cables, with the associated collection equipment and all electrical systems for the entire project involving module connections and inverter installation. The Ryan team designed and optimized the project processes, installation and the 34.5kV-11.5Kv substation.
Project Overview
ATI’s ground-mount single-axis tracking support structure on impact-driven steel piers
PLAs with IBEW and Ironworkers
Quanta successfully managed and worked around Swainson Hawk nesting zones during construction
Yingli 300W polycrystalline modules
GE Brilliance 1.05MW inverters
Constructed for Consolidated Edison Development (CED)
Corcoran Solar Project is a 28.3 MWDC solar photovoltaic, grid connected power generation facility located in Corcoran, California. Constructed for Consolidated Edison Development (CED). Immediately adjacent to Corcoran Solar Project, also completed for CED in 2013. All power was sold to Pacific Gas & Electric (PG&E). The site spans over 114 acres and will produce enough power to serve roughly 16,000 homes annually. This project was completed in 9 months: April 2014 to April 2015.
Ryan’s responsibilities comprised full engineering, procurement and construction of the entire system including procurement of electrical equipment, preparation of the site involving management of all project grading and trenching. Ryan also installed the support structures, module racking system, modules, inverters, DC wiring, AC power cables, with the associated collection equipment and all electrical systems for the entire project involving module connections and inverter installation. The Ryan team designed and optimized the project processes, installation and the 34.5kV-11.5Kv substation.
Project Overview
Completed in 9 months: August 2014 to April 2015
ATI’s ground-mount single-axis tracking support structure on impact driven steel piers
SMA 1.8MWAC inverters
Canadian Solar 300W and Trina 305W modules
PLA with IBEW
Constructed for Consolidated Edison Development (CED)
Immediately adjacent to Corcoran Solar Project, also completed for CED in 2013
Construction of New 12 kV Switchgear Building including switchgear, cable vaults, incoming PG&E service conduits, manhole and interrupter switch, 12 kV loop feeder distribution control system and campus power monitoring system
12 kV loop feeder distribution system comprised of four feeder loops as follows:
Feeder Loop 1- Feeds 26 facilities on West side of campus
Feeder Loop 2 – Feeds 17 facilities in the Central/ South sides of the campus
Feeder Loop 3 – Feeds 24 facilities on the North/East sides of the campus
Feeder Loop 4 – Feeds Central Plant and the new switchgear building on the North side of the campus
Building incoming low voltage service feeders, switchboards and power meters. Includes connecting the power meters to the local building IDF for connection to the new campus power monitoring system
Underground PG&E infrastructure between Cedar and Chestnut Avenues located on the North side of Barstow Avenue as part of the PG&E Rule 20 design project to underground the existing overhead 12 kV pole line as part of a street widening project to add a bicycle lane in the future
The design includes equipment pads on grade for transformers and capacitors