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End-to-End EPC · Turkey & MENA

Advanced BESS
Integration & Engineering
Standards

Axeron designs flexible, high-performance Battery Energy Storage Systems for grid-scale projects and heavy industry facilities. We integrate global Tier-1 cell technology into turnkey EPC solutions fully compliant with TEİAŞ, EPDK and MENA regional grid codes — engineered for the region's most demanding industrial and climatic conditions.

Grid-Scale BESS C&I Storage Hybrid Microgrid SCADA Integration TEİAŞ / EPDK Compliant IEC 62619 · NFPA 855

Three Engineering
Segments

Each segment is engineered from the ground up for the specific technical and regulatory requirements of Turkey and the MENA region — from grid code compliance to desert-climate thermal management.

Grid-Scale BESS
01

Grid-Scale BESS

Utility & Renewable Integration

Utility-scale battery energy storage for grid operators, IPPs and renewable energy developers. Full EPC delivery covering frequency regulation, peak shaving and grid code compliance — engineered for high-voltage substation environments and SCADA-integrated operations.

  • Frequency balancing & inertia response for TEİAŞ compliance
  • Peak shaving and load shifting at substation level
  • Solar & wind co-location with seamless SCADA integration
  • High-voltage transformer centre interconnection & grid code adherence
  • Capacity range: 10 MW — 500 MW+
C&I Storage
02

C&I Storage

Heavy Industry Optimisation

Tailored energy storage for the region's most energy-intensive commercial and industrial facilities — cement plants, steel mills and chemical complexes. Engineered to reduce demand charges, optimise energy procurement costs and deliver uninterrupted power for critical process continuity.

  • Demand charge reduction for cement, steel & chemical sectors
  • Behind-the-meter peak management and tariff arbitrage
  • Critical process UPS backup with sub-cycle response
  • Power quality improvement: harmonic filtering & voltage stabilisation
  • BESS-as-a-Service model — zero CapEx for the operator
Hybrid Systems
03

Hybrid & Microgrid

Off-Grid & Desert Climate Systems

Solar, wind and BESS co-located hybrid microgrids for off-grid industrial sites, mining operations and remote infrastructure. Designed specifically for MENA desert climate conditions — thermal management systems tested and optimised for sustained operation above 50 °C ambient temperatures.

  • Solar PV + wind + BESS integrated microgrid architecture
  • Off-grid operation with island mode and seamless grid-tie switching
  • Desert-optimised thermal management for extreme ambient conditions
  • Mining, oil & gas and remote industrial site deployments
  • EMS-controlled dispatch with renewable maximisation algorithms
500MW+
Maximum Single-Site
Deployment Capacity
<20ms
Grid Response
Reaction Time
50°C+
Validated Ambient
Operating Temperature
20yr
Design Asset
Lifecycle

Safety & Standards

Every Axeron project is commissioned under a rigorous multi-standard compliance framework. Our engineering protocols set the benchmark for safe and reliable BESS deployment across all climatic and regulatory environments we operate in.

01
Thermal Engineering

Thermal Management & Efficiency

Liquid-Cooled Systems · MENA Desert Optimisation

Sustained high-temperature operation is the defining challenge for BESS deployment across the MENA region. Axeron's thermal engineering framework addresses this through precision liquid-cooled battery management — maintaining cell operating temperatures within manufacturer-specified tolerances even under sustained ambient conditions exceeding 50 °C.

Our thermal models are validated against MENA desert climate data and account for diurnal temperature cycling, solar radiation loading and wind-driven sand ingress, ensuring long-term performance degradation remains within contractual bounds throughout the 20-year asset lifecycle.

  • Liquid-cooled cell architecture: ±2 °C cell temperature uniformity
  • Active thermal management with redundant cooling loop failover
  • Validated for sustained operation at 50 °C+ ambient temperatures
  • IP55-rated enclosures with positive-pressure filtration for dust exclusion
  • Predictive BMS analytics with thermal runaway early-warning protocols
IEC 62619 IP55 Rated Liquid Cooling Active BMS
02
Safety & Compliance

Safety & Regulatory Compliance

NFPA 855 · UL 9540A · IEC 62619

Axeron's commissioning protocols are built on the three primary international standards governing large-scale BESS safety. NFPA 855 governs installation spacing, suppression system design and emergency response planning. UL 9540A defines the fire propagation testing requirements for energy storage systems. IEC 62619 sets the safety requirements for secondary lithium cells and batteries in industrial applications.

Compliance is not a documentation exercise at Axeron — it is embedded in every stage of system design, factory acceptance testing and site commissioning, verified by independent third-party inspection authorities prior to energisation.

  • NFPA 855 — installation design, suppression & emergency planning
  • UL 9540A — fire propagation tested cell and module assemblies
  • IEC 62619 — industrial lithium battery safety compliance
  • Factory Acceptance Testing (FAT) and Site Acceptance Testing (SAT)
  • Independent third-party inspection prior to grid energisation
NFPA 855 UL 9540A IEC 62619 FAT / SAT

Ready to Engineer
Your Storage Solution?

Share your project parameters with our engineering team. We respond with a preliminary technical assessment within 48 hours.