Hunter ECO is one of the lightest HVLS fans available with robust direct drive motor and structural aluminium blade design. The range also comes with the same plug & play, pre-assembled technology to simplify installation and a choice of touchscreen controllers to manage a network of up to ten HVLS fans.
With blade spans from 2.4m to 7.3m, the Hunter ECO range of HVLS fans will destratify your building space and reduce your energy bill while making your workforce comfortable and more productive.
Features
- Blades are formed with a unique twist profile for each individual fan size to maximise air flow and minimise noise levels
- Simplifies installation with pre-installed bolts, quick connect blades, pre-wired drop tube, pre-aligned mounting brackets and I-beam clamp
- Effective coverage area ranges from 95m2 (2.4m ECO HVLS) to 858m2 (7.3m ECO HVLS)
- Highly efficient 4 blade configuration designed to maximise airflow performance
- Manage up to 5 fans with Hunter’s Basic Controller or a network of 10 fans with the Premium Hunter Controller
- Can be connected to a Building Management System (BMS) for improved fan efficiency
- 10-year Non-Prorated Warranty*
Selecting the Correct HVLS Fan
Not all HVLS fans are the same. Whether you are moving air through a commercial space, temperature sensitive facility or large industrial warehouse, choosing the right size Hunter fans with the most effective spacing will give the best return on your customer’s investment. To assist with choosing the most effective HVLS fans, our web-based step by step application makes selection easy. Once on the HVLS page, simply enter the width, length, and height of the area, together with the ambient temperature and desired cooling effect from the fans. The selection tool will provide a number of possible options that list the number of fans, fan sizes and suggested spacing is maximised across its entire length.
The Fantech HVLS selection tool performs calculations to ASHRAE 55-2017 “Thermal Environmental Conditions for Human Occupancy”. This determines the cooling effect of Hunter Titan HVLS fans at different locations relative to the fans (under normal conditions). It can also estimate energy savings when using HVLS fans in air-conditioned spaces, or when HVLS fans are used for de-stratification.
- Blades are formed with a unique twist profile for each individual fan size to maximise air flow and minimise noise levels
- Simplifies installation with pre-installed bolts, quick connect blades, pre-wired drop tube, pre-aligned mounting brackets and I-beam clamp
- Effective coverage area ranges from 95m2 (2.4m ECO HVLS) to 858m2 (7.3m ECO HVLS)
- Highly efficient 4 blade configuration designed to maximise airflow performance
- Manage up to 5 fans with Hunter’s Basic Controller or a network of 10 fans with the Premium Hunter Controller
- Can be connected to a Building Management System (BMS) for improved fan efficiency
- 10-year Non-Prorated Warranty*
Selecting the Correct HVLS Fan
Not all HVLS fans are the same. Whether you are moving air through a commercial space, temperature sensitive facility or large industrial warehouse, choosing the right size Hunter fans with the most effective spacing will give the best return on your customer’s investment. To assist with choosing the most effective HVLS fans, our web-based step by step application makes selection easy. Once on the HVLS page, simply enter the width, length, and height of the area, together with the ambient temperature and desired cooling effect from the fans. The selection tool will provide a number of possible options that list the number of fans, fan sizes and suggested spacing is maximised across its entire length.
The Fantech HVLS selection tool performs calculations to ASHRAE 55-2017 “Thermal Environmental Conditions for Human Occupancy”. This determines the cooling effect of Hunter Titan HVLS fans at different locations relative to the fans (under normal conditions). It can also estimate energy savings when using HVLS fans in air-conditioned spaces, or when HVLS fans are used for de-stratification.