HIGH PERFORMANCE AND RELIABILITY. THIS BURNER SHIPS IN TWO WEEKS OR LESS! NOTE: INSTALLATION BY NON-QUALIFIED INDIVIDUALS VOIDS MANUFACTURER'S WARRANTY.
The Wayne Model HSG power gas burners are designed for performance and reliability, and offer features such as: . Higher static air pressure than standard power gas burners . Good combustion in poor draft situations . Capability to fire LP or Natural Gas . Flame retention head to allow flame shapes to fit various combustion chambers . Positive premixing of gas and air to provide excellent combustion characteristics (9 to 11% CO2 on Natural Gas) Designed for Easry Serviceabillty: . No need to remove the burner for normal service - "Gas Gun" assembly is easily removed for complete service or replacement of components and easy, external orifice change .
Automatic, perfect alignment of combustion components . Primary air adjustment with indicator Designed For lnstallation Flexibility: . Just change the orifice and adjust to fire LP or Natural Gas through the full burner range from 60M to 200M Btu/hr and 200M to 400M Btu/hr .
Complete range of marked orifice sizes supplied with each HSG burner . Primary air inlet designed for optional outside air intake . lndustry proven components for excellent performance and reliability . Automatic off-cycle air damper to minimize efficiency loss and provide maximum installation flexibility.
Better known in the field as the Blue Angel burner, the HSG400 remains one of the most widely used power burners around the world in its firing range.
With good combustion in poor draft situations, the HSG400 delivers the performance and reliability that’s become synonymous with the Wayne name.
Designed for easy installation, the burner is easy to set-up and has the ability to fire between the entire range. Identify and install the correct orifice, set the gas valve pressure and adjust the primary and off cycle dampers.
All HSG400 burners are factory set to fire natural gas, while the firing of LP is easily achieved with an orifice change in the field.