Pultruded FRP cooling tower
Pultruded FRP cooling tower have become an alternative solution to traditional concrete cooling towers, since in many cases they cost less and their erection time is much shorter than that of cooling towers made entirely of concrete. In addition, pultruded FRP towers in many cases offer superior corrosion resistance.
These cooling towers are light in weight and corrosion resistant. These are durable products that have high strength. The construction and installation time is lesser as compared to conventional models or wooden cooling tower.
Pultruded range of cooling towers supplied by TowerTech Global is not only efficient in performance, but also known for its quality, longevity, and reliability. These are ideal for sea water application as their structure is built with pultruded fiberglass material.
Hardware hot dip galvanized is used by manufacturers to make the surface corrosion resistant. Stainless steel hardware can be availed at extra cost. Casing of the tower is manufactured with pultruded FRP sheets that have adequate thickness.
Fan deck of the tower is manufactured with robust and strong FRP panels/sheets. Fan cylinder is constructed with tough and durable GRP/FRP material. Nozzles of the cooling tower models are made of PP/PVC and their non clogging type design offers optimum efficiency.
Pultruded FRP cooling tower Options : –
- Additional veil layers to increase corrosion resistance
- Pultruded FRP hand rails, walkways, and ladders
- Low-noise fans
- Complementary subsystems: filtration system, water treatment system, heat exchangers, VFD
- Nickel alloy connectors (e.g., Hastelloy C-22)
- Elevated basin for optimal use of space
Features in Pultruded FRP cooling tower : –
- Pultruded fiberglass polyester field – erected cooling towers
- Heavy – duty cooling towers designed for industrial applications
- Optimal thermal performance design Highly resistant to corrosive environments
- Type: Counterflow
- Fabrication: Field-assembled
- Material: Pultruded and hand-laid FRP
- Air flow: Induced draft
- Capacity: 2,000,000-20,000,000 kcal/hr per cell
- Water flow: 400 – 4,000 m³/hr per cell
- Industries: Oil and Gas, Pharmaceutical, Power plants, Refineries, large-scale HVAC systems.