Yong Xing Boiler Group Co.,Ltd
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Customized Heat Transfer In Boiler, Oil Hot Water Boiler Heating System For Greenhouse
Oil Hot Water Boiler Heating System General introduction
1. The corrugated furnace design increases the heating area of the furnace body, and the spiral bellows design improves the heat transfer efficiency by 1-2 times and eliminates the hidden danger of welding stress.
2. The whole wet back structure is adopted to avoid the damage caused by overheating to the boiler, and the safety protection devices such as overheating protection, overpressure protection, water shortage protection, and flameout protection are equipped to improve the safety factor.
Features of Oil Hot Water Boiler Heating System
1. The latest design of large heating furnace is adopted, and the main heat transfer method is radiation heat transfer, which reduces the heat burden of the second and third return journeys, enables the fuel to be fully burned and reduces the generation of harmful gases
2. The spiral furnace in the high-temperature area not only increases the area of heat radiation heat transfer but also produces certain resistance to the movement of flue gas, which has a significant positive impact on heat transfer by radiation.
3. The design of the spiral furnace can make the furnace body expand automatically when heated, so the Oil Hot Water Boiler Heating System has strong adaptability to a variety of oils.
4. The design of the integral spiral tube is adapted to optimize heat transfer so that the thermal efficiency of the Oil Hot Water Boiler Heating System does not decrease with the increase of time, and the damage of the Oil Hot Water Boiler Heating System caused by the stress generated during welding can also be eliminated.
Oil Hot Water Boiler Heating System application
1. Hotel
2. Swimming pool
3. Greenhouse
4. Center heating
5. Hospital, etc.
Oil Hot Water Boiler Heating System Technical parameter
| Boiler model | Capacity | Pressure | Outlet temp. | Fuel consume. | Thermal efficiency | Weight | |
| Light oil | Natural gas | ||||||
| MW | MPa | ℃ | kg/h | m3/h | % | ton | |
| WNS0.7-0.7/95/70-Y(Q) | 0.7 | 0.7 | 95 | 65.5 | 84.2 | 91 | 4.3 |
| WNS1.4-0.7/95/70-Y(Q) | 1.4 | 0.7 | 95 | 129.6 | 165 | 92 | 7 |
| WNS2.8-0.7/95/70-Y(Q) | 2.8 | 0.7 | 95 | 256 | 323.6 | 93 | 9.5 |
| WNS4.2-0.7/95/70-Y(Q) | 4.2 | 0.7 | 95 | 380 | 450 | 93.2 | 16 |
| WNS5.6-1.0/95/70-Y(Q) | 5.6 | 1 | 95 | 503 | 642 | 93.5 | 24.6 |
| WNS7-1.0/95/70-Y(Q) | 7 | 1 | 95 | 628 | 805 | 93.5 | 26.2 |
| WNS10.5-1.0/95/70-Y(Q) | 10.5 | 1 | 95 | 940 | 1182 | 93.5 | 37 |
| WNS14-1.0/95/70-Y(Q) | 14 | 1 | 95 | 1250 | 1597 | 93.5 | 55 |