Stop Paying High Bills. Get a Free, Precision Solar Analysis Today →

Mishroli Solar Park (3.6 MW)

Aerial view of the Sunshine Bay solar installation showcasing rows of sleek solar panels under a clear blue sky.
Aerial view of the Sunshine Bay solar installation showcasing rows of sleek solar panels under a clear blue sky.

A flagship project utilizing high-precision SAT technology to maximize energy capture and guarantee optimal long-term returns in the decentralized sector.

Close-up of high-efficiency solar panels with visible wiring and mounting structure highlighting engineering quality.
Close-up of high-efficiency solar panels with visible wiring and mounting structure highlighting engineering quality.

$

We deployed a typical 5 MW Solar Power Plant architecture, including multiple Inverters (9 inverters), Transformer (5 MVA), and Switchgear for high-voltage (33 kV) connection.

Engineering for Yield: The Single Axis Tracker (SAT) Advantage
Graph illustrating energy savings and carbon footprint reduction achieved by the Sunshine Bay project.
Graph illustrating energy savings and carbon footprint reduction achieved by the Sunshine Bay project.
Technician inspecting the solar panels at Sunshine Bay, emphasizing maintenance and quality assurance.
Technician inspecting the solar panels at Sunshine Bay, emphasizing maintenance and quality assurance.

Unlike fixed-tilt systems, the SAT array precisely tracks the sun's path throughout the day. This dynamic optimization ensures modules capture maximum irradiance, dramatically increasing asset productivity and financial return.

Sunset view of the solar farm with panels glowing amber from the setting sun.
Sunset view of the solar farm with panels glowing amber from the setting sun.
Blueprint schematic overlay showing the precise layout and electrical design of the Sunshine Bay installation.
Blueprint schematic overlay showing the precise layout and electrical design of the Sunshine Bay installation.

Successfully achieved crucial site modeling and civil leveling requirements (e.g., maintaining Row Level 1-3 standards with precise extension control).

System Command: Architectural Blueprint and SCADA Integration

The entire asset is controlled by a dedicated SCADA (Supervisory Control and Data Acquisition) system for remote monitoring, fault detection, and guarantee of uptime.

Mishroli Solar Park (3.6 MW)

Aerial view of the Sunshine Bay solar installation showcasing rows of sleek solar panels under a clear blue sky.
Aerial view of the Sunshine Bay solar installation showcasing rows of sleek solar panels under a clear blue sky.

A flagship project utilizing high-precision SAT technology to maximize energy capture and guarantee optimal long-term returns in the decentralized sector.

Close-up of high-efficiency solar panels with visible wiring and mounting structure highlighting engineering quality.
Close-up of high-efficiency solar panels with visible wiring and mounting structure highlighting engineering quality.

We deployed a typical 5 MW Solar Power Plant architecture, including multiple Inverters (9 inverters), Transformer (5 MVA), and Switchgear for high-voltage (33 kV) connection.

Engineering for Yield: The Single Axis Tracker (SAT) Advantage
Technician inspecting the solar panels at Sunshine Bay, emphasizing maintenance and quality assurance.
Technician inspecting the solar panels at Sunshine Bay, emphasizing maintenance and quality assurance.

Unlike fixed-tilt systems, the SAT array precisely tracks the sun's path throughout the day. This dynamic optimization ensures modules capture maximum irradiance, dramatically increasing asset productivity and financial return.

Sunset view of the solar farm with panels glowing amber from the setting sun.
Sunset view of the solar farm with panels glowing amber from the setting sun.
Blueprint schematic overlay showing the precise layout and electrical design of the Sunshine Bay installation.
Blueprint schematic overlay showing the precise layout and electrical design of the Sunshine Bay installation.

Successfully achieved crucial site modeling and civil leveling requirements (e.g., maintaining Row Level 1-3 standards with precise extension control).

System Command: Architectural Blueprint and SCADA Integration

The entire asset is controlled by a dedicated SCADA (Supervisory Control and Data Acquisition) system for remote monitoring, fault detection, and guarantee of uptime.

Asset Structuring and Strategic Partnership

This project required robust financial tie-ups for debt products (Banks/NBFCs). We managed all required documentation, including DPR (Detailed Project Report) and CMA reports, ensuring timely sanction and disbursal.

Aerial view of the Sunshine Bay solar installation showcasing rows of sleek solar panels under a clear blue sky.
Aerial view of the Sunshine Bay solar installation showcasing rows of sleek solar panels under a clear blue sky.

The successful execution involved structuring the equity tie-up, enabling partners—including local community investors—to co-invest in this high-yield, long-term asset.

Asset Structuring and Strategic Partnership

This project required robust financial tie-ups for debt products (Banks/NBFCs). We managed all required documentation, including DPR (Detailed Project Report) and CMA reports, ensuring timely sanction and disbursal.

Aerial view of the Sunshine Bay solar installation showcasing rows of sleek solar panels under a clear blue sky.
Aerial view of the Sunshine Bay solar installation showcasing rows of sleek solar panels under a clear blue sky.

The successful execution involved structuring the equity tie-up, enabling partners—including local community investors—to co-invest in this high-yield, long-term asset.

Contact

Planck Power, Bank of Baroda building, 4th floor opp Ratlami Namkeen, Vaishali Nagar, Ajmer (Raj)

8854958508

info@planckpower.in

Address

WWW.PLANCKPOWER.IN