TRC Solar Inc.

TRC Solar Inc.TRC Solar Inc.TRC Solar Inc.
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  • Why Solar?
    • Benefits of Solar
    • Technology
  • How does it Work?
    • Net-Metering
    • Technology
    • Process
    • Installation Process
  • Project Gallery
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    • Charging Products & Tech
    • Our Process
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  • More
    • Home
    • Why Solar?
      • Benefits of Solar
      • Technology
    • How does it Work?
      • Net-Metering
      • Technology
      • Process
      • Installation Process
    • Project Gallery
    • EV Chargers
      • Charging Products & Tech
      • Our Process
    • About Us
    • Contact us

TRC Solar Inc.

TRC Solar Inc.TRC Solar Inc.TRC Solar Inc.
  • Home
  • Why Solar?
    • Benefits of Solar
    • Technology
  • How does it Work?
    • Net-Metering
    • Technology
    • Process
    • Installation Process
  • Project Gallery
  • EV Chargers
    • Charging Products & Tech
    • Our Process
  • About Us
  • Contact us

OUR COMPREHENSIVE THREE STEP PROCESs

Step 1: Project design and planning

Step 1: Project design and planning

Step 1: Project design and planning

  • Identify suitable locations for the solar panels on the existing infrastructure. 
  • Identify time allocation for both permits and inspection requirements.
  • Assess a method for grid connection and substation capacity to ensure system reliability. 
  • Ensure fire code compliance.
  • Identify the output goal: Maximum power or peak matching. 
  • Select the array tilt angle, based on PV system latitude, orientation, and shading conditions. 
  • Select orientation and positioning based on the production goal.
  • Determine azimuth angle optimal for site. 
  • Assess the impact of mounting the system on array operating temperatures. 
  • Identify options for maximizing air flow around the arrays. 
  • Determine the AC-DC ratio. Estimate energy production of PV system using a tool, such as a PV Perform Mod software. 
  • Consider the implications resulting from clouding and seasonal variations on annual variability in PV output.

Step 2: COMPLETION OF INSTALLATION

Step 1: Project design and planning

Step 1: Project design and planning

  • Site Preparation. 
  • Install racking structures. 
  • Install conduits for wiring from combiner boxes to inverter DC switchgear. 
  • Prepare inverter pad.
  • Install grounding system for metal structure and the inverter pad. 
  • Install modules on racking. 
  • Install combiner boxes on racking structures. 
  • Install weather/ monitoring station to verify proper cooperation of system. Install inverter(s), lightning protection/surge arrestors, and associated DC and AC switchgear.
  • Wire modules into series strings and connect to combiner boxes. 
  • Run DC wires from combiner boxes to inverter DC switchgear. 
  • Run DC wires from DC switchgear to inverter. 
  • Connect inverter(s) to interconnection transformer and associated switchgear. 
  • Match to predicted performance. 
  • Institute project specific maintenance plan, schedules and responsibilities.
  • Connection to the main grid.

Step 3: project completion

Step 1: Project design and planning

Step 3: project completion

Following installation energy use will be monitored to ensure that the anticipated outcomes are being achieved, and a performance report will be generated. Final quality control and inspections will be conducted upon completion of the project. Municipal and utility inspections will be conducted in order to activate the system.

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