Model HSA
Description:
Cooling towers of the type HSA consist of the casing made of reinforced polyester, fillers and water drop eliminators made of PP material, axial fan with electromotor drive, system for distribution and dispersion of cooling water and air dampers at the air inlet. The casing is made of reinforced polyester which has a high corrosion resistance and related long life span. A part of the casing is also a collection tray – the lower case where a connector for cooling water is installed. Fillers and water drop eliminators are made of PP material, welded, thus enabling a high compactness, water temperature resistance up to 80°C and are ecologically more acceptable and with a longer life period than PVC fillers, which were more often used in the recent past.
Use:
- thermoenergetics
- food industry
- petrochemical industry
- pharmacy
- ironworks
- automotive industry
- air conditioning systems
More information:
- Technical specification for cooling tower HSA 03 to HSA 9
- Technical specification for cooling tower HSA 03 to HSA 9
- The diagram for choice of the type and size of the cooling tower of the type HSA 03 ÷ 4
- The diagram for choice of the type and size of the cooling tower of the type HSA 6
- The diagram for choice of the type and size of the cooling tower of the type HSA 9
- Model HSA with collecting basic
- HSA 03 flow rate from 3 ÷ 11 m3/h
- HSA 06 flow rate from 5 ÷ 19 m3/h
- HSA 1 flow rate from 12 ÷ 43 m3/h
- HSA 2 flow rate from 20 ÷ 66 m3/h
- HSA 3 flow rate from 18 ÷ 88 m3/h
- HSA 4 flow rate from 36 ÷ 70 m3/h
- HSA 6 flow rate from 50 ÷ 190 m3/h
- HSA 9 flow rate from 75 ÷ 260 m3/h
- Model HSA without collecting basic
- HSA 1 flow rate from 12 ÷ 43 m3/h
- HSA 2 flow rate from 20 ÷ 66 m3/h
- HSA 3 flow rate from 18 ÷ 88 m3/h
- HSA 4 flow rate from 36 ÷ 70 m3/h
- HSA 6 flow rate from 50 ÷ 190 m3/h
- HSA 9 flow rate from 75 ÷ 260 m3/h
Model HSB
De3scription:
Cooling towers of the type HSB consist of the frames of the casing made of hot galvanized steel profiles closed with panels made of reinforced polyester, fillers, water drop eliminators made of PP material, axial fan with electromotor drive, system for distribution and dispersion of cooling water, and air dampers at the air inlet. Fillers and water drop eliminators are made of PP material, welded, thus enabling a high compactness, water temperature resistance up to 80°C and are ecologically more acceptable and with a longer life period than PVC fillers, which were more often used in the recent past.
Use:
- thermoenergetics
- food industry
- petrochemical industry
- pharmacy
- ironworks
- automotive industry
More information:
- Technical specification for cooling tower HSB 8 to HSB 72
- The diagram for choice of the type and size of the cooling tower of the type HSB 8 ÷ 36
- The diagram for choice of the type and size of the cooling tower of the type HSB 34 ÷ 72
- Model HSB
- HSB 8
- HSB 13
- HSB 17
- HSB 23
- HSB 28
- HSB 34
- HSB 36
- HSB 46
- HSB 57
- HSB 72
- Model HSB with silencer
- HSB 8
- HSB 13
- HSB 17
- HSB 23
- HSB 28
- HSB 34
- HSB 36
- Model HSB-F
- Cooling tower EWB-F
- The diagram for choice of the type and size of the cooling tower of the type HSB F
- HSB-F 5
- HSB-F 8
- HSB-F 11
Model HSC
Description:
Cooling towers of the type HSC are designed with a concrete casing or a casing with steel or FRP construction sealed with plastic panels, fillers and water drop eliminators made of PP material, axial fan with electromotor drive, system for distribution and dispersion of cooling water, air dampers at the air inlet. The design allows installation of any type of fillers to cool water regardless its chemical aggressiveness, level of impurity or its flow required. Fillers and water drop eliminators are made of PP material, welded, which enables high compactness, water temperature resistance up to 80°C and are ecologically acceptable and with a longer life span than PVC fillers which were more often used in the recent past.
Use:
- thermoenergetics
- petrochemical industry
- chemical industry
- ironworks
- or anywhere else where cooling water flows are too big for the types HSA and HSB.