Independent Engineering
PV, BESS, EMS systems in Europe
for Industrial, Logistics and Energy‑Intensive Businesses
We design industrial energy systems as long-term infrastructure assets.
Our engineering approach is based on data analysis, technical modelling and financial validation
to design robust PV, BESS and hybrid energy systems — independent from equipment sales.
✓ Independent engineering consultancy
✓ Technology-neutral system design
✓ FEED-level technical documentation
✓ Bank-grade financial models (IRR, NPV, DSCR)
Why industrial energy infrastructure often underperforms
Most energy systems are designed around technology choices, not around enterprise energy economics.
As a result:
✓ PV installed without load analysis
✓ BESS sized without tariff modelling
✓ energy savings overestimated
✓ systems lack operational optimisation
Industrial energy must be designed as infrastructure — not as equipment projects.
This is what K24 delivers
What We Deliver
Engineering outcomes for industrial energy infrastructure
Peak demand reduction through PV+BESS+EMS optimisation
OPEX reduction via load shifting, HVAC optimisation and energy efficiency
Improved reliability for industrial and cold‑storage processes
CO₂ and ESG transparency with baseline energy modelling
EPC‑ready architecture with FEED documentation
Bankable financial models (IRR/NPV/DSCR) for investment decisions
From energy consumption to
a manageable energy asset
Our Engineering Approach
Engineering Process → Energy Asset Development
We follow a clear sequence of engineering and financial steps — from load analysis to system commissioning and performance verification.
Engineering Process
How we work
| Step | Engineering Stage | Key Focus |
| 1 | Load and energy data Analysis | 15-minute interval data, peak demand, seasonality, critical equipment |
| 2 | Scenario Modelling | Evaluation of PV + BESS + EMS configurations |
| 3 | Energy Economics | IRR, NPV, DSCR, payback, sensitivity analysis |
| 4 | Energy Architecture (FEED) | Electrical diagrams, specifications, system design |
| 5 | Implementation Strategy | CAPEX, SaaS, RevShare or hybrid models |
| 6 | EPC Governance | Quality control, commissioning, performance validation |
⟱
These engineering steps transform energy analysis and system modelling into bankable energy infrastructure assets
Energy Asset Development
What you get
| Level | Development Stage | Result |
|---|---|---|
| 1 | Energy Analysis | Clear understanding of enterprise energy consumption and key risks |
| 2 | Energy Masterplan | A defined plan for PV, BESS and grid interaction |
| 3 | Energy Asset Development | Operational hybrid energy infrastructure |
| 4 | Energy Optimisation | Lower energy costs and reduced price volatility |
| 5 | Energy Infrastructure Investment | Energy infrastructure structured as an investable asset |
Industries We Serve
We design energy infrastructure for energy-intensive industries.
We design Energy Systems
K24 Energy is an independent engineering company specialising in PV, BESS
and hybrid energy systems for industrial energy infrastructure.
PV
Integration
PVsyst modeling,
3D layout, DC/AC optimization
and system loss analysis.
BESS
Integration
Power and capacity sizing, scenario modeling, degradation analysis and safety design.
Energy Economics
& Financial Modelling
IRR, NPV, DSCR, tariff sensitivity and bankable investment models for PV and BESS systems.
EMS & VPP Integration
Load optimisation, forecasting algorithms, flexibility modelling and preparation for VPP participation.
OUR ROLE
Independent engineering for complex energy decisions.
Our role is not to promote predefined technologies, but to bring clarity to complex energy decisions.
We address specific operational and financial challenges rather than offering generic technology packages.
Our work focuses on energy performance and investment logic.
In practice this means:
✓ in some cases, the most responsible decision is to defer investment
✓ in others, to simplify system architecture
✓ and occasionally, not to proceed
Professional engineering requires objectivity, technical depth and financial discipline alongside innovation.
Why companies across the EU
choose K24 Energy
We safeguard technical integrity, financial viability and
execution quality across the entire project lifecycle.
Independent
engineering
We do not sell equipment. We design systems that work.
Bank-grade
financial models
Financial models aligned with investor and lender requirements.
FEED-level
documentation
Technical architecture ready for EPC, procurement and financing.
Structured
scenario analysis
System optimisation based on real 15-minute load data.
Proven
methodology
Energy Decision Engineering — a structured and transparent decision framework.
Independent
EPC control
Implementation monitored to ensure compliance with the approved design.
Implementation
strategy
Project implementation planning, investment model selection and risk management.
We are not a good fit if :
✓ the goal is quick energy savings
✓ technology selection comes before energy strategy
✓ energy is treated as a secondary operational issue
This approach is designed for long-term energy infrastructure decisions.
Case Studies
Selected projects in industrial energy optimisation and hybrid energy systems.
1. Industrial Manufacturing Facility
Energy consumption: 2.3 GWh / year
Peak demand reduction: 28%
System architecture: PV + BESS + EMS
Result:
- peak demand reduced
- energy cost optimisation
- improved process reliability
2. Cold Storage Facility
Energy consumption: 1.6 GWh / year
Peak demand reduction: 2 MWh
System architecture: PV + BESS hybrid system
Result:
- compressor load stabilisation
- improved temperature stability
- lower peak tariffs
3. Developer — Utility-scale PV project
Project scale: 2 MW PV
Scope: PVsyst modelling, FEED documentation, financial modelling
Result:
- bankable project documentation
- optimised LCOE
- reduced CAPEX deviation risk
faq
Answers to the most common questions about industrial and
enterprise energy systems.
What does K24 Energy do and who do you work with?
Typical clients include industrial manufacturing facilities, logistics centres, cold storage operators, commercial real estate portfolios and renewable energy developers.
We work primarily with energy-intensive enterprises, infrastructure operators and renewable energy developers across the EU.
How do PV and BESS work together in industrial applications?
PV reduces daytime grid consumption while BESS stores excess solar energy and discharges during peak periods. Together they reduce energy costs, stabilise operations and increase energy independence.
What is EMS (Energy Management System) and why is it important?
An Energy Management System (EMS) controls PV, BESS and flexible loads such as HVAC or refrigeration. It forecasts consumption, optimises charging cycles and ensures the system operates at maximum economic efficiency.
What is an energy audit for industrial facilities?
An energy audit is a data‑driven assessment of how a facility consumes electricity, identifies peak loads, flexible loads, inefficiencies and CO₂ emissions. It provides the baseline required for PV, BESS, EMS and VPP modelling.
How can a facility participate in a Virtual Power Plant (VPP)?
Participation requires flexible loads, a controllable BESS and an EMS capable of external dispatch. These elements allow a facility to provide demand response and flexibility services to the grid.
How do I know if my facility is suitable for PV or BESS?
Suitability depends on load profile shape, peak demand patterns, available installation area and grid constraints. Uploading a facility’s load profile allows engineers to model the optimal system configuration.
What documentation is required for EPC contractors and investors?
Projects typically require FEED-level documentation including technical specifications, single-line diagrams, layouts, grid compliance analysis and a bankable financial model (IRR, NPV, DSCR).
What results does an energy analysis provide?
The analysis defines:
• optimal PV and BESS system configuration
• peak demand reduction potential
• financial performance (IRR, NPV, payback)
• system architecture ready for FEED and EPC development
What data is required to start an energy analysis?
The most important input is 15-minute interval load data from the enterprise energy meter.
Additional inputs may include:
• electricity tariffs
• site constraints
• operational load characteristics
• planned electrification projects
Do you supply or install equipment?
No. K24 Energy is an independent engineering company.
We design and model energy systems, develop technical architecture and financial models, and support implementation.
Equipment procurement and construction are executed by EPC contractors.
Start with Your Load Profile
Upload your 15-minute interval data and receive an initial engineering review.