
Saffron
A 100 kW rooftop solar power system installed at Saffron HT, delivering sustainable energy and substantial savings on annual electricity costs.
Project Goals
The primary objective was to help Saffron HT lower operational electricity costs by shifting to renewable energy while minimizing their environmental impact. The client also aimed to improve energy self-reliance and set an example in their industry by embracing sustainable practices through solar energy integration.

Project Capacity
100 kW

Electricity Produced Annually (kWh)
1,39,200 kWh

Offsetting
139.2 Tonnes

Savings Annually in Rs.
14,64,384 Rs


Challenge
• Rooftop Infrastructure Constraints: The installation site had space constraints due to existing rooftop infrastructure like ducts, vents, and service pathways.
• Installation Safety & Continuity: Ensuring safety and uninterrupted operations during the installation process in an active industrial environment was a major concern.
• Sunlight Variation Planning: Variations in sunlight exposure across the rooftop required careful planning to optimize energy generation across the array.
• Installation Safety & Continuity: Ensuring safety and uninterrupted operations during the installation process in an active industrial environment was a major concern.
• Sunlight Variation Planning: Variations in sunlight exposure across the rooftop required careful planning to optimize energy generation across the array.
Solution
• Custom Layout & Mounting: We used a custom module layout and compact mounting systems to work around rooftop obstructions and utilize available space efficiently.
• Seamless Installation Execution: Safety protocols were implemented and work scheduled during low-activity hours to maintain seamless operations throughout the installation.
• Irradiance Mapping & Optimization: Advanced PV design tools were used to map irradiance and optimize panel placement for maximum performance despite partial shading.
• Seamless Installation Execution: Safety protocols were implemented and work scheduled during low-activity hours to maintain seamless operations throughout the installation.
• Irradiance Mapping & Optimization: Advanced PV design tools were used to map irradiance and optimize panel placement for maximum performance despite partial shading.
Challenge
• Rooftop Infrastructure Constraints: The installation site had space constraints due to existing rooftop infrastructure like ducts, vents, and service pathways.
• Installation Safety & Continuity: Ensuring safety and uninterrupted operations during the installation process in an active industrial environment was a major concern.
• Sunlight Variation Planning: Variations in sunlight exposure across the rooftop required careful planning to optimize energy generation across the array.
• Installation Safety & Continuity: Ensuring safety and uninterrupted operations during the installation process in an active industrial environment was a major concern.
• Sunlight Variation Planning: Variations in sunlight exposure across the rooftop required careful planning to optimize energy generation across the array.
Solution
• Custom Layout & Mounting: We used a custom module layout and compact mounting systems to work around rooftop obstructions and utilize available space efficiently.
• Seamless Installation Execution: Safety protocols were implemented and work scheduled during low-activity hours to maintain seamless operations throughout the installation.
• Irradiance Mapping & Optimization: Advanced PV design tools were used to map irradiance and optimize panel placement for maximum performance despite partial shading.
• Seamless Installation Execution: Safety protocols were implemented and work scheduled during low-activity hours to maintain seamless operations throughout the installation.
• Irradiance Mapping & Optimization: Advanced PV design tools were used to map irradiance and optimize panel placement for maximum performance despite partial shading.