A bakery factory in the Philippines relies on stable electricity for baking, mixing, packaging, and refrigeration. Frequent voltage fluctuations and unexpected power outages can disrupt production schedules, affect cooling systems, and increase operating costs.
To improve energy reliability and reduce dependence on the grid, the factory installed a rooftop solar energy storage system using PV modules, hybrid inverters, and battery backup solutions provided by SRNE.
SRNE HESP 12kW Inverters and Energy Storage System Configuration
Item | Configuration |
Project Location | Philippines |
Application Scenario | Bakery Processing Factory |
System Type | Commercial & Industrial PV Energy Storage System |
Inverters | 4 × HESP 12kW |
Energy Storage Batteries | 4 × EOS 16kWh Lithium Batteries |
PV Modules | 72 × 610W |
PV Installed Capacity | Approx. 43.92kWp |
Total Inverter Power | 48kW |
Total Battery Capacity | 64kWh |
Hybrid Solar Energy Storage Solution for Bakery Factory
SRNE designed a hybrid solar energy storage system to help the bakery reduce grid dependence and maintain stable production during power fluctuations and outages.
During the daytime, the rooftop solar system generates electricity to support the bakery’s daily operations, including mixing, baking, packaging, and lighting. By using solar power during production hours, the factory can reduce grid electricity consumption and lower operating costs.
Excess solar energy is stored in the battery system for use at night, during cloudy weather, or during peak electricity demand periods, helping maintain a more stable and reliable power supply.
During cloudy weather, unstable grid conditions, or short-term power outages, the battery storage system can provide backup power for critical production equipment, helping the bakery maintain baking, refrigeration, and packaging operations without interruption.
By combining solar power, battery storage, and grid support, the system helps the factory reduce dependence on grid electricity, lower operating costs, and improve overall power reliability.
Highlights of The Battery Backup for Solar Power Systems Solution
1.Multi-machine Parallel System Design
Four HESP 12kW hybrid solar inverters are connected in parallel to build a 48kW commercial energy storage system.
2.64kWh Battery Backup System
4 EOS 16kWh lithium batteries form an energy storage system, providing the factory with backup power and energy dispatching capability.
3.Full Use of Rooftop Space
72 pieces of 610W PV modules are installed on the factory rooftop, turning idle rooftop space into a clean energy power generation asset.