Indgo Solar Industrial System
Indgo Solar On Grid Setup
Industrial On-Grid Solar System

An industrial solar project refers to the installation of large-scale solar photovoltaic (PV) systems on industrial properties, such as manufacturing facilities, warehouses, distribution centers, and industrial parks. These projects aim to generate clean and sustainable energy to power the energy-intensive operations of industrial facilities. Industrial solar projects involve the deployment of solar panels and associated infrastructure to harness solar energy and convert it into electricity for on-site consumption.

Indgo Solar On Grid Solar System

Industrial On-Grid Solar System

An industrial solar project refers to the installation of large-scale solar photovoltaic (PV) systems on industrial properties, such as manufacturing facilities, warehouses, distribution centers, and industrial parks. These projects aim to generate clean and sustainable energy to power the energy-intensive operations of industrial facilities. Industrial solar projects involve the deployment of solar panels and associated infrastructure to harness solar energy and convert it into electricity for on-site consumption.

50 KW
50 KW Grid Tie Solar Inverter
92 no's Modules of 545Wp each
Cables & Other Accessories
You generate 73,000 units annually
100 KW
100 KW Grid Tie Solar Inverter
184 no's Modules of 545Wp each
Cables & Other Accessories
You generate 146,000 units annually
200 KW
200 KW Grid Tie Solar Inverter
367 no's Modules of 545Wp each
Cables & Other Accessories
You generate 292,000 units annually
250 KW
250 KW Grid Tie Solar Inverter
459 no's Modules of 545Wp each
Cables & Other Accessories
You generate 165,000 units annually
300 KW
300 KW Grid Tie Solar Inverter
550 no's Modules of 545Wp each
Cables & Other Accessories
You generate 438,000 units annually
500 KW
500 KW Grid Tie Solar Inverter
917 no's Modules of 545Wp each
Cables & Other Accessories
You generate 730,000 units annually

Features of an Industrial Solar Project:

High-Capacity Solar Panels:

Industrial solar projects often use high-capacity and high-efficiency solar panels to maximize energy generation and meet the substantial energy needs of industrial operations.

Racking and Mounting Systems:

Robust racking and mounting systems are employed to securely install solar panels on large rooftops, open land, or carports, optimizing sunlight exposure.

Inverter and Power Conditioning Units:

Advanced inverters and power conditioning units are used to convert the generated DC electricity into usable AC electricity, ensuring efficient energy conversion.

Substation and Interconnection:

For larger projects, an on-site substation may be installed to manage the flow of electricity between the solar system and the industrial facility’s electrical infrastructure.

Monitoring and Control Systems:

Comprehensive monitoring and control systems enable real-time performance tracking, maintenance scheduling, and issue detection to ensure optimal system efficiency.

Grid Connection and Net Metering:

Industrial solar projects can be connected to the grid, allowing excess energy to be fed back into the grid and potentially earning credits through net metering arrangements.

Battery Energy Storage (Optional):

In some cases, industrial solar projects incorporate battery energy storage systems to store surplus energy for use during peak demand or low-sunlight periods.

Indgo Solar industrial image

Features of an Industrial Solar Project:

High-Capacity Solar Panels:

Industrial solar projects often use high-capacity and high-efficiency solar panels to maximize energy generation and meet the substantial energy needs of industrial operations.

Racking and Mounting Systems:

Robust racking and mounting systems are employed to securely install solar panels on large rooftops, open land, or carports, optimizing sunlight exposure.

Inverter and Power Conditioning Units:

Advanced inverters and power conditioning units are used to convert the generated DC electricity into usable AC electricity, ensuring efficient energy conversion.

Substation and Interconnection:

For larger projects, an on-site substation may be installed to manage the flow of electricity between the solar system and the industrial facility’s electrical infrastructure.

Monitoring and Control Systems:

Comprehensive monitoring and control systems enable real-time performance tracking, maintenance scheduling, and issue detection to ensure optimal system efficiency.

Grid Connection and Net Metering:

Industrial solar projects can be connected to the grid, allowing excess energy to be fed back into the grid and potentially earning credits through net metering arrangements.

Battery Energy Storage (Optional):

In some cases, industrial solar projects incorporate battery energy storage systems to store surplus energy for use during peak demand or low-sunlight periods.

Indgo Solar industrial image

Uses of an Industrial Solar Project:

On-Site Power Generation:

The primary use is to generate electricity to power the energy-intensive processes and operations of industrial facilities.

Energy Cost Reduction:

By producing a significant portion of their energy on-site, industrial facilities can substantially reduce their energy costs over time.

Peak Load Management:

Solar energy can help manage peak demand periods, reducing strain on the grid during times of high electricity consumption.

Sustainability Goals:

Industrial solar projects align with corporate sustainability objectives, demonstrating a commitment to reducing carbon emissions and environmental impact.

Indgo Solar industrial image 1
Indgo Solar industrial image 1

Uses of an Industrial Solar Project:

On-Site Power Generation:

The primary use is to generate electricity to power the energy-intensive processes and operations of industrial facilities.

Energy Cost Reduction:

By producing a significant portion of their energy on-site, industrial facilities can substantially reduce their energy costs over time.

Peak Load Management:

Solar energy can help manage peak demand periods, reducing strain on the grid during times of high electricity consumption.

Sustainability Goals:

Industrial solar projects align with corporate sustainability objectives, demonstrating a commitment to reducing carbon emissions and environmental impact.

Benefits of an Industrial Solar Project:

Significant Cost Savings:

Industrial facilities can experience substantial cost savings on energy bills, freeing up resources for other investments.

Hedge Against Energy Price Volatility:

Generating their own electricity allows industrial facilities to mitigate the impact of fluctuating energy prices.

Environmental Impact:

Industrial solar projects contribute to reducing greenhouse gas emissions, helping industries transition to cleaner energy sources.

Energy Independence:

By generating their own energy, industrial facilities can reduce their reliance on external energy sources and enhance energy security.

Regulatory and Incentive Benefits:

Many regions offer incentives, tax credits, and grants to encourage industrial solar adoption, further offsetting initial investment costs.

Enhanced Reputation:

Implementing renewable energy solutions enhances a facility’s reputation as an environmentally conscious and responsible operation.

Long-Term Investment:

Solar panels have a long lifespan, offering a reliable energy solution with relatively low ongoing maintenance costs.

In summary, industrial solar projects involve the installation of large-scale solar systems on industrial properties, providing cost savings, energy security, and environmental benefits while supporting the operations of energy-intensive industries.