New Hybrid Cooling Technology - Air cooled condenser with Deluge Cooling
The Deluge Air cooled condenser is the latest technological achievement in hybrid cooling, where the primary interest is in dry cooling, but where limited water resources are available for use during certain periods of the year.
ENEXIO is one of the leading consortium partners of the EU-funded Horizon 2020 Research and Innovation programme called “MinWaterCSP” with the aim to develop advanced cooling technologies as well as integrated water management plans to reduce cooling system water consumption by up to 95% relative to wet only cooling systems.
The increase in scarcity of water resources worldwide is one of the main drivers towards the use of dry-cooling (cooling with air) for power plant cooling purposes instead of the more conventional wet-cooling (cooling with water) approach. However, even though dry-cooling methods allow an order of magnitude reduction in cooling water consumption, the overall power cycle efficiency is generally lower compared to cases where wet-cooling is implemented.
Significant lower CAPEX compared to conventional PAC-System
The integrated hybrid cooling system consists of traditional dry air cooled condenser fan cells and a small number of wet cells, where steam is condensed inside tube bundles through external deluge cooling.
In comparison to the existing hybrid condensing systems, the Deluge Air Cooled Condenser eliminates the use of the separate wet-cooling towers, surface condenser and large cooling water recirculating piping and pumps, minimizing investment costs and plot area.
Turbine backpressure and associated generator output can be maintained during peak ambient temperatures and under other adverse ambient conditions such as strong winds and hot air recirculation.
Key advantages of Deluge ACC
Most efficient dry-cooling solution for high peak ambient temperatures
A dry-cooling solution resistant to adverse ambient conditions such as high wind speeds and hot air recirculation
Reduction of auxiliary power consumption which results in an increase of gross turbine output
Short lead time and minimized construction costs
Smaller footprint compared to all-dry systems
Less water consumption compared to all-wet systems