Latest trigeneration combination keeps Bologna Airport on schedule
Guglielmo Marconi Airport serves 8.5 million passengers each year - and with energy needed 24/7, a CHP unit is at the heart of its essential power generation, heating and cooling systems.
Bologna Guglielmo Marconi Airport
Guglielmo Marconi Airport is the main hub of the Emilia Romagna region and one of northern Italy’s major airports. Covering 388,577 sq. ft., including 59,202 sq. ft. dedicated to commercial activities, 24 gates, 64 check-in desks and 35 stores, it is Italy’s seventh-busiest airport.
Redeveloping the energy production system
Following modernization and development work that began in 2013, Guglielmo Marconi Airport also asked Centrica Business Solutions to redevelop its energy production system.
Combined cooling, heat and power production
Centrica Business Solutions oversaw the design, installation and launch of a 1,166 kW trigeneration system for the self-generation of electrical power, heat and cooling energy. The Combined Heat and Power (CHP) E1200 NG system has an electrical power output of 1,166 kW and a cooling capacity of 259 tons, used for the self-generation of electrical power and for heating and air conditioning in the terminal building.
We oversee maintenance with a full service for the engine and all supply equipment. Maintenance is ensured thanks to our highly specialized employees, who are trained to perform any type of work on MTU engines.
The trigeneration system fully satisfied the needs of more than 6,580,000 passengers that the airport welcomed in 2014. Thermal energy recovered from the engine sleeves and exhaust gases is used to meet the airport’s heating needs during the winter (heating, domestic hot water, etc.) and for cooling via an absorption chiller in the summer. The trigeneration system not only delivers immediate economic benefits, but also and above all, reduces the emission of pollutants and greenhouse gases into the atmosphere.
Why choose a CHP system?
- Its primary energy saving helps reduce energy costs
- It offers financial savings of up to 40% compared to traditional energy supply
- It reduces CO2 emissions by up to 30%
- It ensures greater security of the energy supply
- It includes real-time remote monitoring, technical support and nationwide assistance