Euromonitor series boilers use coupling technology to combine the traditional combustion system and heat transfer system into a complete thermal energy system, solving the dilemma of sacrificing the heat transfer characteristics of the boiler to adapt to the combustion characteristics of the burner, achieving low nitrogen emissions and low nitrogen emissions. High efficiency while further improving. Scope of application: packaging industry, pharmaceutical industry, chemical industry, liquid beverages, heating companies, biological fermentation engineering, etc.
This condenser and energy-saving device utilizes the heat exchange principle between water and flue gas, and has the characteristics of fast heat transfer, energy saving, and durability. They cool the flue gases and increase the temperature of the boiler feed water.
The air-energy water heater adopts main and auxiliary fan matching technology and uses high-temperature condensed water to exchange heat with the inlet air. The auxiliary fan premixes some of the flue gases and coordinates the air supply from the inlet heater and the main fan. Unifiedly adjust the temperature of each node to stabilize combustion and control emissions.
The corrugated furnace lining fully absorbs the extension and expansion of the furnace lining wall, ensuring low-stress operation under any working conditions. The higher furnace back pressure improves the stability of the flame and provides more space for FGR adjustment; The effective application of wing technology can significantly reduce the boiler body diameter, water volume, and start-up time.
An air heater is used to preheat the combustion air inlet to provide hot air for combustion, which fundamentally solves the instability caused by condensation in the combustion system, increases the temperature of the combustion air above the dew point, and improves combustion efficiency.
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Boiler Internet of Things + Remote Control + Expert Management
Corrugated furnace + threaded smoke pipe to improve heat transfer efficiency. Economizer and condenser reduce exhaust gas temperature
Advanced control system enables unattended operation
Using low-nitrogen burners and advanced low-nitrogen combustion technology, Nitrogen oxide emissions ≤30mg/Nm³
It reduces the difficulty of installation, reduces installation errors, and ensures the overall accuracy of boiler installation.
The larger steam space design ensures the steam quality under the dual influence of water level fluctuations and load fluctuations.
Effectively combine combustion and heat transfer to reduce or avoid the generation of local high temperatures in the furnace, and effectively reduce the generation of thermal nitrogen oxides.
The pressure increase process can be completed within 5 minutes (the first cold furnace pressure increase needs to be within 15 minutes), reducing surface heat loss when starting and stopping the furnace.
Types | Evaporation(t/h) | Steam pressure | Steam temperature | Feed water temperature | Thermal efficiency | Fuel | Natural gas consumption |
---|---|---|---|---|---|---|---|
θ7-2000 | 2 | 1.25MPa | 194℃ | 150℃(80%) 20℃(20%) | 102.85% | Gas | 140.4(Nm3/h) |
θ7-4000 | 4 | 1.25MPa | 194℃ | 150℃(80%) 20℃(20%) | 103.37% | Gas | 273.35(Nm3/h) |
θ7-6000 | 6 | 1.25MPa | 194℃ | 150℃(80%) 20℃(20%) | 103.05% | Gas | 409.6(Nm3/h) |
θ7-8000 | 8 | 1.25MPa | 194℃ | 150℃(80%) 20℃(20%) | 103.2% | Gas | 549.44(Nm3/h) |
θ7-10000 | 10 | 1.25MPa | 194℃ | 150℃(80%) 20℃(20%) | 103.72% | Gas | 681.07(Nm3/h) |
θ7-20000 | 20 | 1.25MPa | 194℃ | 150℃(80%) 20℃(20%) | 100.68% | Gas | 1397.6(Nm3/h) |
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