Condensing oil boilers are a popular choice for homeowners and businesses looking for an efficient and reliable heating system that can help reduce energy costs and minimize their environmental impact. What sets it apart from traditional oil boilers is its ability to recover some of the heat that would otherwise be lost through the flue. The waste heat is recycled by passing the flue gases through a heat exchanger, where they are cooled down, and the heat is transferred to the water circulating in the system. This process increases the efficiency of the boiler and reduces fuel consumption and operating costs. In addition, it also helps to lower carbon emissions and make the system more environmentally friendly.
The integration of complete condensation technology makes the boiler operating efficiency increase by more than 10%, as high as 106%, which is the first choice for energy-saving heating.
The condensing heat exchange element is made of silicon-aluminum alloy with strong corrosion resistance; and flaw detection is carried out before leaving the factory to ensure the overall quality of the boiler.
The condensing oil boiler adopts an integrated design to increase the heat exchange area, which is 20-40% smaller than that of traditional condensing boilers.
The oil condensing boiler has a complete safety protection function. If there is a sudden failure, it can immediately call the police to protect the safety of the boiler operation in all directions.
This is a new type of environmentally friendly combustion method, which fully premixes fuel and air. Through precise adjustment and control, it ensures the complete mixing of gas and air to make combustion more complete; the use of surface combustion technology makes combustion more efficient. Reduce NOX emissions. NOX emission is lower than 18 mg/Nm³.
The brand-new "Ultraten" technology heat exchange element—feather tube, is highly efficient and energy-saving. The highly advanced condensation technology ensures the high efficiency of energy utilization. By fully absorbing the latent heat of vaporization in the flue gas generated after combustion of gas, the energy can be absorbed Effective utilization not only saves energy, but also improves the thermal efficiency of use.
|Types||Thermal Power||Steam Pressure||Rated Steam Temperature||Thermal Efficiency||Fuel||Length * Width * Height||Hot Water Production|
|T6-700||0.7||-0.02||93.5||105.50%||Natural gas||3300 * 1200 * 2100||12|
|T6-1400||1.4||3900 * 1550 * 2620||24|
|T6-2800||2.8||4910 * 1830 * 3000||48|