Air Coolers (ACC, ACHE, AFC)


VIRIDIS delivers dry cooling technology, with both Air-Cooled Condensers (ACC) and Air Fin Coolers (AFC) and Air-Cooled Heat Exchangers (ACHE) API 661, represents a substantial portion of future global business, as water preservation is becoming increasingly a priority.

Dry Air Coolers (ACC & ACHE & AFC)

Works in a way that there is no direct contact between the air and the fluid being cooled. This tower has two separate fluid circuits, one in which the fluid is recirculated on the outside of the second circuit, which is a bundle of tubes through which the hot water is flowing.

Dry Cooling Towers are flexible and customized via A-frame, V-frame and Δ-frame configuration according with the plot plan restriction, based on a steel structure, low noise and low fan power consumption, resistant to corrosion and freezing conditions, requiring very low maintenance and guaranteeing long life, reliable operation and cost-effective solutions.

VIRIDIS’ expertise covers both Multi-Row and the advanced Single-Row technology.

Multi row tube technology design features cover round and elliptical tube geometry, round tube with aluminum fin, fin bond type G-fin, L-fin and Extruded or elliptical tube with hot-dip galvanized steel fins protection that can be described as good resistance against corrosion.

Single-Row aluminum fin tube is the state of the art technology in vacuum steam condensers. The multiple rows, circular or elliptical tubes characterizing the Multi-Row are replaced with one larger flat tube. The main advantages over Multi-Row can be summarized in increased thermal efficiency, lower fan power consumption, non- freezing, higher resistance against corrosion and smaller plot area. Our design can be developed using international HTRI thermal software.

The manufacturing of the Tube Bundles is carried out in compliance to ISO9001:2008 certified from row material to production processes and testing, including general management.

 

Features & Benefits


  • Space saving

Compact design of the dry cooling tower in a single piece of equipment conserves space.

  • Low maintenance

Isolated process fluid in dry cooling tower prevents airborne contaminants entering or fouling the system.

  • Energy efficient

This technology minimized system-wide energy consumption.

  • Water saving

Dry cooling tower eliminates the use of water.

  • Minimal water treatment

Only low volume of recirculating water needs to be treated.

  • Cost effective

Dry cooling tower offers low operation cost as the cost for maintenance, energy, water and water treatment are reduced.

 

Applicable industries


  • Leather/Textile industry
  • Pharmaceutical industry
  • Rubber industry
  • Power plants
  • Metal plants