High-Quality 1 Megawatt Battery Factory & Product

Core Energy Solutions Showcase

Direct Manufacturer Supply of High-Capacity Lithium Iron Phosphate Cells & Custom Systems

High-Quality High-voltage storage LiFePo4 battery with stackable design Factory, Product

High-Quality Wall-Mounted Lithium Battery Energy Storage Systems Factory, Product

High-Quality Solar system power inverter Product, Products

High-Quality Elemro WHLV 10kWh Lifepo4 Battery for Home Battery Storage Factory, Products

High-Quality Elemro WHLV 48V100Ah ESS Battery Factories, Product

Best High Voltage Stacked Energy Storage Battery Manufacturers, Factories

Best Elemro WHLV 5kWh Solar Battery for House Manufacturers, Products

Best Elemro LCLV 14kWh Solar Energy Storage System Manufacturer, Product

About ELEMRO Energy

Established in 2019, headquartered in Xiamen, China, Elemro Energy has specialized in new energy storage and electrical product solutions with rich experience. We are the market leader in the new energy industry that unifies R&D, production, and sales. Our products have been successfully integrated across more than 250 industrial customers in Europe, Southeast Asia, Africa, the Mid-East, and the Americas.

Since our establishment, ELEMRO’s revenue has grown rapidly every year, with annual turnover exceeding 50 million USD in 2023. Our commitment is to offer reliable, scalable, and safe containerized 1 Megawatt (1 MW / 1 MWh - 2 MWh) energy storage solutions tailored to heavy manufacturing, grid ancillary services, and microgrids.

About Us & Our Capabilities

Why a 1 Megawatt Battery System?

A 1 Megawatt (1MW) system (typically matched with 1MWh to 2MWh of capacity) is the industry benchmark for commercial peak shaving, industrial load shifting, backup power resilience, and renewable energy integration.

High-voltage architecture ensures >95% system-level round-trip efficiency (RTE).

Global C&I Energy Storage Market Landscape

The Shift Toward Containerized Megawatt-Scale Battery Systems

As grid infrastructure globally faces immense strain from the electrification of heating, manufacturing, and transport systems, localized utility networks can no longer guarantee stable frequency and voltage. Industrial enterprises are transitioning from passive consumption to active energy orchestration. Standardizing on 1 Megawatt (1 MW) battery packs enables modular deployment, permitting commercial facilities to expand their storage footprint as their power requirements surge.

Megawatt-scale battery systems act as dynamic buffers. In North America and Europe, grid operators charge substantial "demand fees" based on peak power consumption during specific times of day. By deploying a 1 Megawatt energy storage container, factories can implement Peak Shaving, capping their reliance on the grid during costly peak intervals and saving tens of thousands of dollars monthly. Furthermore, as solar photovoltaic generation reaches parity, pairing high-capacity batteries with solar arrays enables factories to operate in self-consumption mode, optimizing their levelized cost of energy (LCOE).

Solar Glass

Integrated photovoltaic solutions for modern building structures (BIPV) facilitating on-site clean power generation.

Energy Storage Container

Custom containerized thermal-regulated battery modules built for 1 MW to 10 MW applications, complete with local HVAC and fire mitigation.

Car Port Solar Power

Commercial vehicle shelters optimized with PV panels, providing shaded parking and local clean vehicle charging capability.

Localized Application Scenarios for 1MW Battery Systems

Versatility Across Grid-Scale, Commercial, and Remote Infrastructures

Factory Peak Shaving & Load Management

For large industrial factories, operating heavy machinery causes severe spikes in power usage. A 1 Megawatt battery discharges during peak demand periods, effectively smoothing the facility's load profile, preventing grid penalty charges, and ensuring continuity of operations during brownouts.

Microgrids & Remote Power Isolation

Remote islands, mining installations, and agricultural facilities that rely on expensive diesel fuel generators can integrate our 1 MW system. By buffering solar power and wind inputs, the battery reduces fuel consumption by up to 60%, drastically cutting operating costs and logistics requirements.

EV Fast-Charging Stations Hub

As EV fleets demand high-speed DC charging (150kW-350kW), installing multiple chargers can overwhelm local distribution transformers. A localized 1 Megawatt battery container provides the transient power boost needed for simultaneous fast charges without requiring grid upgrades.

Technical Roadmap & Future Outlook

Uncompromising Safety, Density, and Lifetime Standards

Leading Battery Chemistry & Management Systems

ELEMRO’s 1 Megawatt container systems utilize lithium iron phosphate (LiFePO4) chemistry, selected for its thermal stability, chemical safety, and long lifecycle. Compared to ternary lithium (NMC) cells, LFP possesses a higher thermal runaway threshold (around 270°C compared to NMC's 210°C) and generates no oxygen gas upon combustion, significantly reducing fire risk.

Our roadmap focuses on increasing energy density via Cell-to-Pack (CTP) technology, eliminating heavy intermediate modules to pack more energy into standard 20ft or 40ft ISO shipping containers. Integrated liquid-cooled thermal management ensures a temperature differential of less than 3°C between cells, doubling the operational lifetime of the batteries.

"By 2025, our standard 20ft containerized solution will transition to 314Ah high-density cells, scaling nominal capacity of a single footprint container to over 3.4MWh."

Key Architectural Innovations

Three-Level BMS Architecture: Features module, rack, and system-level monitoring with localized cell voltage, current, and real-time gas/smoke detection.
Liquid-Cooling System: Employs non-conductive glycol-water cooling channels, consuming up to 30% less auxiliary power compared to air-conditioned enclosures.
Multi-Tier Fire Suppression: Incorporates localized aerosols, clean gas (FK-5-1-12), and internal water sprinkler backups compliant with UL 9540A safety protocols.
Smart Grid-Forming Inverters: Equipped with dual-mode (Grid-tied / Off-grid) active power control for instant islanding protection during unexpected grid outages.

> 6000 Life Cycles at 80% DoD

95% Round-Trip Efficiency

> 250 Global Industrial Clients

$50M+ Projected 2023 Turnover

China Supply Chain Resilience & Manufacturing Efficiency

Unlocking Global Cost Advantages Without Compromising Quality

The Xiamen Energy Ecosystem Advantage

ELEMRO Energy’s manufacturing hub in Xiamen, China, capitalizes on the world's most advanced lithium supply chain ecosystem. Being localized near raw lithium mining refiners, cathode material developers, and advanced component factories allows us to obtain tier-1 components at structural price advantages.

With access to deep-water shipping lanes, our logistical pipeline from factory-floor to container vessel is streamlined, drastically reducing delivery times, customs friction, and international shipping rates for our clients globally.

Key Indicators of Supply Chain Strength

By integrating manufacturing from automated cell testing to mechanical assembly and electrical verification under one roof, we eliminate intermediate shipping overheads. Our factory runs automated aging chambers that run continuous charge-discharge diagnostic tests for at least 72 hours on every container before it leaves our bay.

Direct Sourcing: Contracts directly with tier-1 raw materials producers to shield systems pricing from market volatility.
Vertical Engineering: Mechanics, cooling loops, BMS software, and cabinet enclosures are designed in-house to optimize compatibility.
Strict Quality Audits: Complete compliance with ISO 9001, ISO 14001, and ISO 45001 production metrics.

Localization Support & Compliance Standards

Navigating Complex Grid Interconnection & Local Safety Standards

Global Certification Profile

ELEMRO systems are fully certified according to global standards including UL 9540, UL 9540A, UL 1973, IEC 62619, CE, and UN 38.3. This ensures smooth zoning approval, grid interconnection validation, and lower insurance premiums.

Local EPC & Commissioning

We partner with experienced local engineering, procurement, and construction (EPC) companies globally to deliver turn-key solutions. From foundational groundwork to final high-voltage switchgear commissioning, ELEMRO stands by you.

O&M and Remote Telemetry

Every 1MW unit is connected to cloud-based diagnostic servers via safe VPN tunnels. Remote teams trace issues to individual strings and push safety updates over-the-air, minimizing physical on-site service trips.

Expert FAQ

Addressing Key Technical and Commercial Inquiries About Megawatt Battery Deployments

What is the actual footprint and physical weight of a typical ELEMRO 1 Megawatt Battery container?

Our typical 1MW / 1.5MWh system is housed within a standard 20-foot ISO high-cube shipping container (approx. 6.05m x 2.44m x 2.89m). The total operational weight, including battery racks, liquid cooling pumps, HVAC, and internal fire suppression, is approximately 18 to 22 metric tons depending on the cell capacity configurations.

How does the integrated liquid cooling system improve performance over air-cooled units?

Liquid cooling directly cycles a coolant mixture (water/glycol) through cold plates in contact with the battery cells. This process provides a heat transfer coefficient up to 25 times higher than air cooling. It maintains uniform internal temperatures across all cell rows (temp delta <3°C), which stops localized cell aging, prevents thermal runaway cascade, and adds about 20% to the overall battery system lifetime.

Can these systems be deployed in extreme climates (e.g., deserts or freezing regions)?

Yes. Our containerized systems are rated IP54 (with options for IP65) and are built with integrated HVAC thermal units and localized internal heating blankets. This allows dependable operations in environmental temperatures ranging from -30°C to +55°C. For extreme desert conditions, we also add double-walled sunshields and heavy-duty dust filtration systems.

What is the typical warranty period and expected degradation pattern?

We offer a standard 5-year system warranty and a 10-year performance guarantee for the battery cells. Operating under recommended parameters (1 cycle per day, 0.5C rate, and 25°C baseline), the cells will retain over 70% of their initial capacity after 6,000 cycles.