Airport

Airport Energy Management

AI-powered energy optimization for international airports. 35-75 MW load, 15-30% savings potential.

Load
35-75 MW
Typical Load
ASHRAE Airport Energy Guide 2019
Cost
€5-15M
Annual Cost
IATA Energy Report
Savings
15-30%
Savings Potential
IEA 2024
Solar
40-60%
Solar Potential 2030
World Economic Forum
Breakdown
Energy Consumption by Area
Typical Distribution
HVAC 40-55%
Process 25-35%
Light 10-15%
Other
HVAC/Cooling
Processes (Baggage, Boarding)
Lighting
Other
Terminals
Terminal Energy Status
Live Load Overview
Terminal 1
12.4 MW
● Optimal
Terminal 2
15.8 MW
● Optimal
Cargo
8.2 MW
● Optimal
Apron Area
15.6 MW
● Optimal
Challenges
Energy Challenges
Critical Factors for Airports

Ground Power Management

Complex GPU systems for various aircraft types. Minimizing diesel APU usage.

Impact: 15-25% of airport energy consumption

24/7 Energy Demand Management

Continuous operations with highly variable load profiles across terminals, runways, and security systems.

Statistic: Airports consume 10-15x more energy/m² than typical buildings

Carbon Neutrality

ACI Europe target: Net-Zero by 2050. Integration of renewable energy into existing infrastructure.

Potential: 20-30% emissions reduction

Dynamic Load Management

Passenger peaks increase terminal energy demand by up to 200% in short intervals.

Potential: 25-35% energy efficiency improvement

Stromfee.AI Solutions

Terminal Optimization
Terminal Energy Management
15-25% savings

Intelligent HVAC and lighting control using IoT sensors and machine learning to optimize energy consumption across terminal spaces.

  • Real-time energy monitoring
  • Predictive maintenance
  • Occupancy-based climate control
  • Dynamic lighting management
Reference: Changi Airport Singapore smart energy management
eGPU
Electric Ground Power (eGPU)
30-45% savings

Replace diesel GPU with electric alternatives, reducing emissions and operational costs for aircraft ground support.

  • Zero direct emissions
  • Lower maintenance costs
  • Reduced fuel consumption
  • Quieter operation
Reference: Frankfurt Airport eGPU pilot project
Solar
Airport Solar Power
25-40% savings

Large-scale photovoltaic installations on terminal roofs, parking structures, and unused airport land.

  • Renewable energy generation
  • Carbon footprint reduction
  • Long-term cost stabilization
  • Grid independence
Reference: Cochin International Airport (fully solar-powered)
Demand Response
Smart Grid Demand Response
20-35% savings

Advanced energy trading and load balancing using real-time grid interaction and energy storage technologies.

  • Dynamic electricity pricing
  • Battery energy storage integration
  • Peak load management
  • Grid stabilization
Reference: San Diego Airport demand response program
Prices
EPEX SPOT Electricity Prices
Live Data for Germany
Market
Market Context
Global Airport Transformation

Market Size

  • • Airport Infrastructure: USD 89.5B (2023)
  • • Energy Efficiency Investments: USD 12-15B/year
  • • Energy Share of OPEX: 5-12%

Regulatory Drivers

  • • EU Emissions Trading System
  • • CORSIA (Carbon Offsetting)
  • • IATA: Net-Zero by 2050
  • • ACI Europe: 50% reduction from 2005

Ready for Efficient Airport Energy Management?

Contact us for a free analysis of your airport's energy requirements

Free Consultation

Data Sources

ASHRAE Airport Energy Systems Guide (2019) • IATA Energy Report • International Energy Agency (IEA) 2024 • World Economic Forum • ACI Europe • ISO 50001 Energy Management Standards • Changi Airport Group • Frankfurt Airport AG • San Diego International Airport