生物質熱風爐成為未來熱風爐市場的主力軍

自“十二五”規劃以來，建設資源節約，环境友好的口號被提出，傳統的污染环境消耗大的熱風爐形式已經不再適應時代發展的需要，隨著不可再生資源日益減少，能源價格飛速上漲，節能环保才是各行各業發展的前提，而生物質熱風爐成為未來熱風爐市場的主力軍。
Since the 12th Five-Year Plan, the slogan of building resource-saving and environment-friendly has been put forward. The traditional form of hot stove which pollutes the environment and consumes a lot of energy is no longer adapted to the needs of the development of the times. With the decrease of non-renewable resources and the rapid rise of energy prices, energy conservation and environmental protection are the prerequisites for the development of all walks of life. Material hot stove will become the main force of hot stove Market in the future.
隨著冬季供暖季節的到來，燃生物質熱風爐用於供暖的需求逐漸增加，據熱風爐銷售中心的數據顯示，近來咨詢選購燃生物質熱風爐進行供氣采暖的客戶呈增長趨勢，該型號熱風爐供氣采暖的方案分析：
With the arrival of the winter heating season, the demand for biomass-fired hot stoves for heating is increasing. According to the data from the sales center of hot stoves, the customers who consulted and purchased biomass-fired hot stoves for heating are increasing recently. The scheme analysis of this type of hot stoves for heating is presented.
在燃生物質熱風爐的供氣采暖過程中，使用越長的蒸汽管道，印花地坪就會產生越多的蒸汽損耗。特別是對於頻繁起停的熱風爐，產生的損耗量更大。所以熱風爐離用汽點越低，產生的蒸汽損耗就越小。
In the heating process of biomass-fired hot stove, the longer the steam pipe is used, the more steam loss will be produced. Especially for hot stoves which start and stop frequently, the loss is greater. Therefore, the lower the distance between the hot stove and the steam point, the smaller the steam loss.
但是由於場地限制和國傢對燃生物質熱風爐的管理規定，常規的熱風爐都不能直接放置在用汽點旁邊，國傢規定常規熱風爐必須建立單獨的熱風爐房，並對熱風爐房的防爆等有各種要求。
However, due to site constraints and state regulations on the management of biomass-fired hot stoves, conventional hot stoves can not be directly placed next to the steam point. The state stipulates that conventional hot stoves must establish a separate hot stove room, and there are various requirements for the explosion-proof of hot stove room.
熱風爐為瞭改進傳統熱風爐熱風爐在供氣采暖方面的缺點，在燃生物質熱風爐設計的時候采用特有的二次風結構，有效的改善瞭爐內的空氣力場，將熾熱的顆粒引向前拱，有利於燃料的引燃點火，同時也延長瞭燃料在爐內的停留時間，提高瞭燃料的適應性和利用率，供氣更加安全可靠。
In order to improve the shortcomings of traditional hot-blast stove in gas supply and heating, the special secondary air structure is adopted in the design of biomass-fired hot-blast stove, which effectively improves the air force field in the stove and leads the hot particles forward arch, which is conducive to the ignition of fuel and prolongs the shutdown of fuel in the stove. Leave time, improve the adaptability and 环氧地坪utilization of fuel, gas supply is more safe and reliable.