Services:
Energy Audit
Engineering‑grade energy audit for industrial, logistics, cold‑storage and commercial facilities across the EU
An Energy Audit is the foundation of every PV, BESS, EMS or hybrid energy project.
Without accurate baseline modelling, any system — even well‑designed — risks being oversized, underperforming or economically unviable.
K24Energy provides independent, engineering‑grade energy audits that deliver the data, insights and modelling required to design technically sound and financially optimised energy systems.
Why an Energy Audit Matters
What Our Energy Audit Includes
| 1 | Load Profile Analysis | – 15‑minute interval analysis – identification of peak drivers – mapping of flexible and non‑flexible loads – HVAC and refrigeration profiling – EV charging patterns |
| 2 | Technical Assessment | – electrical infrastructure review – transformer and switchgear capacity – rooftop and land availability for PV – BESS siting and safety considerations – EMS integration readiness |
| 3 | Baseline Energy Model | – consumption segmentation – operational constraints – dependent – process‑driven load patterns – CO₂ baseline and ESG metrics |
| 4 | Optimisation Scenarios | – peak shaving – load shifting – HVAC optimisation – refrigeration control strategies – EV charging coordination |
| 5 | PV/BESS/EMS Modelling Inputs | – The audit generates all required inputs for: – PVsyst simulations – BESS sizing and degradation modelling – EMS control logic – hybrid PV+BESS optimisation – VPP and flexibility readiness |
| 6 | Financial Pre‑Modelling | – IRR, NPV, DSCR pre‑analysis – CAPEX/SaaS/Hybrid scenarios – revenue stacking potential – grid upgrade avoidance modelling |
Deliverables
energy audit report
baseline energy model
load profile analysis
optimisation scenarios
PV/BESS/EMS modelling dataset
CO₂ and ESG baseline
financial pre‑model
recommendations for next steps
Typical Results After an Energy Audit
Example Outcomes
Industrial Facility (2.5 MW load)
- identified 38% peak shaving potential
- mapped flexible furnace loads
- prepared dataset for PV+BESS modelling
Cold‑Storage Facility
- refrigeration load segmentation
- defrost cycle optimisation potential
- BESS integration feasibility
Logistics Center
- HVAC optimisation scenarios
- EV charging coordination strategy
- 17% OPEX reduction potential
*All financial results are indicative and based on project-specific assumptions, tariffs and load profiles.
Why Clients Choose K24Energy
for Energy Audits
independent engineering (no equipment sales)
deep expertise in PV, BESS, EMS and hybrid systems
strong understanding of industrial, logistics and cold‑chain operations
bankable modelling accepted by EPC and investors
precise baseline modelling for accurate system design
faq
Answers to the most common questions about Energy Audit
What is an energy audit for industrial and commercial 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 hybrid system design.
Why is an energy audit necessary before installing PV or BESS?
Without a baseline model, PV or BESS systems risk being oversized or underperforming. An audit ensures accurate sizing, realistic financial modelling and operational compatibility.
How does an energy audit reduce energy costs?
It identifies peak drivers, load shifting opportunities, HVAC and refrigeration optimisation potential and EV charging strategies — all of which reduce OPEX and peak demand.
What data is needed for an energy audit?
A 15‑minute load profile, basic facility information, operational schedules and details about HVAC, refrigeration and industrial processes.
How long does an energy audit take?
Most audits take 1–3 weeks depending on facility size, data availability and complexity of operations.
What happens after the energy audit?
The audit provides all inputs for PV/BESS/EMS modelling, financial analysis and FEED engineering — forming the foundation for the full project.
