| IBT ENERGIA

APPLICATIONS

For reducing costs and emissions

In recent years, the high cost of the main energy sources and the need to reduce CO2 emissions have increased the importance of heat recovery from industrial processes.

TRIGENERATION

Generating cooling energy from cogeneration thermal energy

Cogeneration can save around 30% of primary energy. The overall efficiency of a plant can be further increased if the thermal energy produced by the cogenerator is used to produce chilled water for air conditioning or the process.

TRIGENERATION

Generating cooling energy from cogeneration thermal energy

WASTE HEAT

Generating cooling energy by recovering waste heat

Hot water or steam obtained from industrial waste can be used to feed a Century absorption refrigerator, which converts it into chilled water useful for the process or air conditioning system.

WASTE HEAT

Generating cooling energy by recovering waste heat

Hot water or steam obtained from industrial waste can be used to feed a Century absorption refrigerator, which converts it into chilled water useful for the process or air conditioning system.

TURBO-COOLING

Solving the problem of efficiency losses in gas turbines

Turbo-cooling allows the production profile of the gas turbine to reach maximum values close to ISO conditions (or lower on mid-season days) and to become stable and non-oscillating depending on the ambient temperature. In this way, for example, a paper mill will no longer suffer from problems and penalties related to the daily and weekly (weather-dependent) forecast of grid withdrawal, but the greatest benefits will be seen especially during the day when grid electricity rates are most expensive.

TURBO-COOLING

Solving the problem of efficiency losses in gas turbines

SOLAR COOLING

Using waste heat from solar energy storage

In particularly sunny areas, solar panels can be installed to produce hot water to feed absorption chillers that transform it into chilled water for air conditioning. The solar cooling system is composed of storage tanks and a back-up boiler, in case of prolonged absence of sunshine, to ensure continuity in the operation of the absorber.

SOLAR COOLING

Using waste heat from solar energy storage

ELECTRICAL DEFICIT

In the event of a power failure

In civil or industrial installations where there is a shortage of electricity, a direct-fired two-stage absorption chiller can be installed to produce cooling energy with very low electricity consumption compared to traditional chillers.

ELECTRICAL DEFICIT

In the event of a power failure

RENEWABLES

Thermal energy from wood chip and wood biomass plants

In all locations where biomass is available at low cost, a biomass boiler can be used to produce hot water for winter heating. In summer, an absorption refrigerator can produce chilled water for use in the air conditioning system.

RENEWABLES

Thermal energy from wood chip and wood biomass plants

DISTRICT HEATING

Exploiting hot water from the district heating network

In large energy self-generation plants, a lot of waste heat is produced in the form of steam or hot water. These heat carriers can be sent through a district heating network to a network of consumers. The individual consumers, connected to the district heating network, can install an absorption refrigerator that transforms the hot water/steam into chilled water for air conditioning.

DISTRICT HEATING