热风炉为了改进传统热风炉热风炉在供气采暖方面的缺点，在燃生物质热风炉设计的时候采用特有的二次风结构，有效的改善了炉内的空气力场，将炽热的颗粒引向前拱，有利于燃料的引燃点火，同时也延长了燃料在炉内的停留时间，提高了燃料的适应性和利用率，供气更加安全可靠。Since the "12th Five-Year" plan, the slogan of building resources saving and environment friendly has been put forward. The traditional hot air furnace with large pollution environment is no longer suitable for the needs of the development of the times. With the increasing reduction of non renewable resources and the rapid increase of energy prices, energy conservation and environmental protection is the prerequisite for the development of all walks of life. The material hot stove has become the main force of the future hot stove market.
With the arrival of the winter heating season, the demand for heating by burning biomass hot blast stove is increasing gradually. According to the data of the sales center of the hot blast stove, the trend of the recent consulting and purchase of biomass hot blast stove for gas supply heating is increasing, and the analysis of the heating of the type hot blast stove is analyzed.
In the process of gas supply and heating of biomass burning hot stove, the longer the steam pipe will be, the more steam loss will be generated. Especially for frequent start and stop hot stove, the wastage is greater. Therefore, the lower the steam point of the hot stove is, the smaller the steam loss will be.
However, the conventional hot air stove can not be directly placed next to the steam point due to the limitation of the site and the state regulations on the management of the burning biomass hot blast stove. The state stipulates that the conventional hot air stove must establish a separate hot air furnace room, and there are various requirements for the explosion protection of the hot blast stove room.
In order to improve the shortcomings of the hot blast stove in the traditional hot blast stove for air supply heating, the special two wind structure is adopted in the design of the burning biomass hot blast stove, which effectively improves the air force field in the furnace and leads the hot particles to the front arch, which is beneficial to fuel ignition and ignition, and also prolongs the stop of fuel in the furnace. With time saved, the adaptability and utilization rate of fuel are improved, and the gas supply is safer and more reliable.