Scalable rack-mounted battery storage from 16kWh to 1MWh. Designed, manufactured and installed by Energy2 engineers — with cell-level telemetry and UK sovereign data infrastructure.
Each rack module delivers 16kWh of useable storage. Link multiple racks to reach 1MWh of capacity — all managed from a single platform.
No one else can design the product, engineer the system, and fully install it — end to end, within 48 hours — all from the same company.
Design, manufacturing, system integration and installation — all one company. No middlemen, no fragmented supply chain.
Every cell monitored individually. Voltage, temperature and performance data — not just pack-level readings. Early detection of imbalance or thermal issues.
All operational data hosted in secure UK data centres. Not routed through overseas manufacturer cloud platforms.
Repairable infrastructure, not a sealed appliance. Faulty cells or modules can be isolated and replaced — not the whole unit.
Secure over-the-air firmware updates managed from the UK. Your system gets better over time — not fixed at manufacture.
Tariff arbitrage, peak shaving and demand response. Savings from day one with full payback in 3-5 years.
Worked example for a 96kWh system at a mid-sized commercial premises on a time-of-use tariff with peak demand charges.
Based on a 96kWh / 6-module system. Actual savings depend on tariff structure, usage patterns and grid services participation. We provide a detailed ROI projection as part of every site survey.
A 96kWh system installed alongside existing solar PV at a secondary school, reducing peak demand charges and providing UPS backup for IT infrastructure. The system was fully installed during a half-term break with zero disruption to school operations.
We looked at three different battery providers. Energy2 were the only ones who could design the system, manufacture it, and install it themselves. That single point of accountability made the decision easy.
The cell-level monitoring is genuinely different from anything else we evaluated. We can see every cell, not just the pack. It gives us complete confidence in the long-term health of the system.
Energy2 systems keep operational data inside the UK, while many imported batteries rely on overseas cloud platforms for monitoring and updates.
| Energy2 | Typical Imported Systems | |
|---|---|---|
| Engineering model | Vertically integrated platform | Multi-vendor supply chain |
| Battery visibility | See every cell | See the battery as a single unit |
| Data & telemetry | UK-hosted cell-level telemetry | Overseas manufacturer cloud |
| Fault detection | Early detection of cell imbalance | Issues detected after pack-level deviation |
| Serviceability | Repairable — replace a component | Replace the whole unit |
| Lifecycle cost | Lower long-term maintenance | High replacement costs |
| Software updates | Continuous OTA improvements | Feature set fixed at manufacture |
| Accountability | Single engineering organisation | Multiple suppliers and installers |
Reduce energy costs and reinvest savings directly into education. UPS backup protects IT infrastructure.
Peak shaving and demand management for energy-intensive operations. Avoid costly grid upgrades.
Predictable energy costs with full UPS backup capability. Ideal for multi-tenant buildings.
Estate-level energy management with shared storage and monitoring via the Energy2 platform.
Critical power backup with seamless UPS failover. Zero-interruption for life-critical systems.
Off-grid and hybrid systems for rural and remote sites. Perfect for farms with existing solar.
Buffer grid capacity and eliminate demand charges at high-power charging stations.
Reliable power with integrated monitoring and zero-interruption failover for critical infrastructure.
Site survey, system design, delivery, installation and commissioning — all handled by our in-house engineering team. No subcontractors. No handoffs.
Our engineers assess your site, electrical infrastructure and energy requirements to design the optimal system.
Rack systems delivered and installed by our in-house team. Fully commissioned and connected within 48 hours.
System goes live with cell-level telemetry from day one. Continuous monitoring and OTA updates from the UK.
Each module is a complete, self-contained unit with integrated BMS and active balancing. Stack up to 16 modules per system.
| Useable Capacity | 16kWh per module |
| Battery Chemistry | 314Ah Prismatic LiFePO4 |
| Nominal Voltage | 51.2V |
| Operating Voltage | 44-55.2V |
| Max Output (1 module) | 200A / 10.2kW |
| Max Output (16 modules) | 3000A / 400kW |
| Round-Trip Efficiency | ≥95% |
| Cycle Life | 6,000+ cycles |
| Dimensions (per module) | 882.5 x 482.6 x 241mm |
| Weight (per module) | 120kg |
| BMS | Pace BMS |
| Active Balancer | 4A Bluetooth |
| Communication | CAN / RS485 / RS232 |
| Protection Rating | IP21 (indoor) |
| Certification | CE, UN38.3, IEC 62619 |
| Warranty | 5 years (extendable to 20) |
Most commercial systems are fully installed within 48 hours. We handle the complete process — from site survey through commissioning — with our own engineering team. No subcontractors.
In most cases, indoor battery installations do not require planning permission. Our systems are IP21-rated for indoor use and fit within standard server rack dimensions. We advise on any specific requirements during the free site survey.
Our commercial rack modules are CE, UN38.3, and IEC 62619 certified. Energy2 is an MCS-certified installer, RECC member, and TrustMark registered. All systems comply with current UK fire safety and electrical regulations.
Yes. Energy2 commercial systems are compatible with all major solar inverters including Victron, Sunsynk, Growatt, and Solis. We design the integration as part of the system specification.
All operational data — including cell-level telemetry — is encrypted and hosted in secure UK data centres. We do not route data through overseas manufacturer cloud platforms. Full UK data sovereignty.
Energy2 systems are designed as serviceable infrastructure. If a cell or module develops a fault, it can be isolated and replaced individually — you don't need to replace the entire unit. Cell-level telemetry means we often detect issues before they become failures.
Most commercial installations achieve full payback within 3-5 years through tariff arbitrage, peak shaving, and demand response. A 96kWh system typically saves between £12,000 and £25,000 per year depending on usage patterns and tariff structure. We provide a detailed ROI projection with every site survey.
Full system design and consultancy. From survey to installation in weeks, not months. One company. One responsibility.
