Case

Background

The industrial park, mainly composed of garment factories, has high electricity demand for both production and daily living. However, the grid supply is unstable, available for only about 4 hours per day at unpredictable times, severely affecting operations. To address this issue, we propose a “solar–diesel–battery–grid” hybrid microgrid solution that enables intelligent energy management. During the day, solar power is prioritized and stored in batteries, while at night or during outages, the system switches to battery and diesel generation, ensuring a stable, efficient, and cost-effective green power supply for the park.

Ensuring Uninterrupted Production for Textile Manufacturing with Microgrid Solution in Myanmar

Location

Industrial park of Myanmar.
Energy type

Connect to the grid, Genset.
Application environment

Dusty, Frequent rainfall and typhoons.

Key Implemented

Garment manufacturing requires consistent, reliable power for sewing machines, cutting equipment, lighting, ventilation, and worker facilities. Power interruptions lead to:

◎ Production line stoppages and reduced output.
◎ Quality inconsistencies in textile products.
◎ Increased labor costs due to idle workers.
◎ Missed delivery deadlines affecting customer relationships.
◎ Higher operational costs from diesel generator reliance.

Solution

Our intelligent control system continuously monitors the park’s power demand and automatically balances energy distribution among solar, battery storage, grid, and diesel generator sources. During the day, solar energy is prioritized and excess power is stored, while at night or during grid outages, the system seamlessly switches to battery or diesel supply to ensure continuous production and living power. With built-in energy optimization and data analytics, it dynamically adjusts load scheduling to reduce operating costs, enhance energy efficiency, and support the park’s green and sustainable development goals.
◎ System Configuration.
◎ Output: 1000kW, Battery: 1290kWh, PV:1200kWp, Genset: 600kVA.

Value

The microgrid system was seamlessly integrated with the industrial park's existing infrastructure, with installation completed without disrupting manufacturing operations. The advanced energy management system provides real-time monitoring and optimization of power flows, ensuring maximum efficiency and reliability for continuous textile production.

Energy Economy

Intelligent scheduling and electricity price optimization allow energy to be stored when prices are low and sold when high, maximizing financial returns and reducing overall energy costs.

Power Stability

The energy storage system balances peak and off-peak loads, ensuring continuous and stable power for key production facilities and daily operations.

System Scalability

The system offers flexible capacity expansion, adapting to changes in park size or load demand to meet energy needs at every development stage.

Smart Operation & Maintenance

Remote monitoring and diagnostics provide real-time system insights, improving management efficiency and reducing maintenance costs.

Sustainability

By optimizing the energy mix and improving utilization efficiency, the system supports the park in achieving a green, low-carbon, and sustainable energy ecosystem.

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This case study demonstrates how a smart battery storage solution can modernize traditional off-grid power, delivering robust reliability while cutting costs and environmental impact.

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