services
Engineering‑grade energy audit for industrial, logistics, cold‑storage
and commercial facilities across the EU

Energy Audit & Baseline Modelling
Load profile analysis, peak driver identification, HVAC/refrigeration profiling, flexible load mapping, CO₂ baseline, operational constraints.

PV
Engineering
PVsyst modelling, 3D layout, shading analysis, electrical design, grid compliance, PV+BESS integration, FEED documentation.

BESS
Integration
BESS sizing, degradation modelling, safety engineering, EMS integration, grid compliance, FEED documentation.

EMS
Architecture
Control logic, forecasting, HVAC/refrigeration integration, EV charging coordination, VPP readiness, cybersecurity, FEED documentation.

Energy Economics
IRR/NPV/DSCR modelling, revenue stacking, tariff analysis, degradation modelling, sensitivity analysis, bankability assessment.

FEED
Engineering
Technical specifications, SLD, layouts, safety engineering, grid compliance, BoM, EPC tender package.

EPC
Oversight
On‑site supervision, installation verification, safety checks, grid compliance testing, EMS logic validation, commissioning support.

Grid
Compliance
Grid code analysis, interconnection engineering, export limitation, reactive power control, protection systems, telemetry, FEED documentation.
Energy Audit
We analyse electricity consumption based on interval load data, operational profiles and tariff structures. The audit identifies peak demand drivers, load variability and inefficiencies across systems. Results include a structured baseline, energy balance and quantified optimisation potential, forming the foundation for technical design, financial modelling and investment decision-making.
BESS Integration
We design and integrate battery energy storage systems to manage peak demand, enable load shifting and support grid interaction. The scope includes sizing, control strategy, system configuration and operational scenarios. BESS provides flexibility, improves energy cost structure and supports renewable integration in complex industrial and commercial environments
EMS Architecture
We develop energy management system architectures for monitoring, control and optimisation of energy flows in real time. The system integrates PV, BESS, grid interaction and operational loads into a unified control logic. EMS enables demand response, peak shaving and dynamic optimisation based on tariffs, operational constraints and system conditions.
PV Engineering
We design photovoltaic systems based on site conditions, load profiles and grid constraints. Engineering includes layout optimisation, shading analysis, electrical design and performance modelling. The result is a technically robust PV system aligned with operational demand, ensuring predictable generation, efficient integration and long-term performance.
Energy Economics
We develop financial models to evaluate energy system performance and investment viability. The analysis includes CAPEX and OPEX structures, IRR, NPV, payback and sensitivity to tariffs and operational variables. Multiple scenarios are compared to identify optimal system configurations. The result supports investment decisions and aligns technical design with economic performance.
FEED Engineering
We develop front-end engineering design packages that define system architecture, technical specifications and project requirements. FEED includes single-line diagrams, equipment selection criteria, integration logic and performance assumptions. This documentation ensures alignment between engineering, procurement and investment decisions before project execution.
EPC Oversight
We provide independent engineering control during project execution, ensuring that design intent, quality standards and performance targets are met. The scope includes design review, contractor coordination, quality assurance and commissioning support. Structured EPC processes are critical to delivering projects on time, within budget and according to technical requirements
Grid Compliance
We support grid connection and compliance with regulatory and technical requirements defined by DSOs and TSOs. This includes load flow studies, short-circuit analysis, protection settings and dynamic performance evaluation. Grid compliance is a core engineering requirement that must be addressed early to avoid redesign, delays and approval risks
Start with your energy data
We analyse your energy system, identify constraints and develop technically and economically viable solutions.
Typical inputs: 15-minute load data,
tariff structure, site information
faq
Answers to the most common questions about methodology
what energy efficiency services we provide
our proprietary energy analysis methodology
typical project timelines and deliverables
sectors and facility types we serve across EU
next steps after initial energy assessment
What energy efficiency services do you offer?
We provide proprietary energy analysis, performance optimization, and infrastructure integration for commercial and industrial facilities across EU markets.
How does your energy analysis work?
Our 6-step proprietary assessment uses real operational data to identify efficiency opportunities without requiring traditional certification processes.
What types of facilities do you serve?
Industrial facilities, logistics centers, cold storage, commercial real estate, and energy infrastructure projects including hybrid/VPP solutions.
What is the typical project timeline?
Initial energy analysis: 1-2 weeks. Detailed optimization plan: 3-4 weeks. Implementation support: project-specific (2-6 months).
How do I get started with your services?
Click “Start Energy Analysis” for our proprietary assessment or contact us directly for project consultation. No obligation initial review available.
What differentiates your energy assessment from a certified energy audit?
Our proprietary model focuses on practical optimization recommendations without formal certification procedures. We use our own 3-step methodology oriented toward rapid identification of efficiency opportunities and project ROI, rather than strict regulatory compliance.
