Gauri Precisions
A 15 kW rooftop solar installation at Gauri Precision to support industrial operations while promoting energy cost savings and green energy adoption.
Project Goals
The primary objective was to reduce electricity expenses for Gauri Precision’s manufacturing unit by transitioning to renewable solar power. The project also aimed to minimize the facility’s environmental footprint and ensure reliable energy supply to meet daily operational demands sustainably.
Project Capacity
15 kW
Electricity Produced Annually (kWh)
20,880 kWh
Offsetting
20.88 Tonnes
Savings Annually in Rs.
3,54,960 Rs
Challenge
• Constrained Installation Area: Limited rooftop space required precision planning to accommodate maximum solar capacity within a constrained area.
• Environmental Maintenance Needs: Dust and debris accumulation in the industrial zone impacted panel performance over time, demanding a long-term cleaning strategy.
• Shift-Based Load Variation: Load variation across shifts required consistent energy availability to maintain production flow.
• Environmental Maintenance Needs: Dust and debris accumulation in the industrial zone impacted panel performance over time, demanding a long-term cleaning strategy.
• Shift-Based Load Variation: Load variation across shifts required consistent energy availability to maintain production flow.
Solution
• Optimized Rooftop Utilization: Customized layout optimization was done to utilize every usable square foot of rooftop space without compromising structural integrity.
• Proactive Maintenance Strategy: We implemented an easy-to-maintain cleaning system and trained staff to ensure regular upkeep for optimal panel performance.
• Stable Multi-Shift Power Supply: Smart inverter technology was used to stabilize energy supply during fluctuating demand throughout different shifts.
• Proactive Maintenance Strategy: We implemented an easy-to-maintain cleaning system and trained staff to ensure regular upkeep for optimal panel performance.
• Stable Multi-Shift Power Supply: Smart inverter technology was used to stabilize energy supply during fluctuating demand throughout different shifts.
Challenge
• Constrained Installation Area: Limited rooftop space required precision planning to accommodate maximum solar capacity within a constrained area.
• Environmental Maintenance Needs: Dust and debris accumulation in the industrial zone impacted panel performance over time, demanding a long-term cleaning strategy.
• Shift-Based Load Variation: Load variation across shifts required consistent energy availability to maintain production flow.
• Environmental Maintenance Needs: Dust and debris accumulation in the industrial zone impacted panel performance over time, demanding a long-term cleaning strategy.
• Shift-Based Load Variation: Load variation across shifts required consistent energy availability to maintain production flow.
Solution
• Optimized Rooftop Utilization: Customized layout optimization was done to utilize every usable square foot of rooftop space without compromising structural integrity.
• Proactive Maintenance Strategy: We implemented an easy-to-maintain cleaning system and trained staff to ensure regular upkeep for optimal panel performance.
• Stable Multi-Shift Power Supply: Smart inverter technology was used to stabilize energy supply during fluctuating demand throughout different shifts.
• Proactive Maintenance Strategy: We implemented an easy-to-maintain cleaning system and trained staff to ensure regular upkeep for optimal panel performance.
• Stable Multi-Shift Power Supply: Smart inverter technology was used to stabilize energy supply during fluctuating demand throughout different shifts.
