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  • 锅炉BoilerTA-02
名称:锅炉BoilerTA-02
详细介绍

  一个好的锅炉是经过不断的思考设计后又经过试验的!锅炉TA-02结构很完整,并且具有an全装置,让使用者更an全。

  为了考核性能和改进设计,锅炉常要经过热平衡试验。直接从有效利用能量来计算锅炉热效率的方法叫正平衡,从各种热损失来反算效率的方法叫反平衡。考虑锅炉房的实际效益时,不仅要看锅炉热效率,还要计及锅炉辅机所消耗的能量。

  单位质量或单位容积的燃料完全燃烧时,按化学反应计算出的空气需求量称为理论空气量。为了使燃料在炉膛内有更多的机会与氧气接触而燃烧,实际送入炉内的空气量总要大于理论空气量。虽然多送入空气可以减少不完全燃烧热损失,但排烟热损失会增大,还会加剧硫氧化物腐蚀和氮氧化物生成。因此应设法改进燃烧技术,争取以尽量小的过量空气系数使炉膛内燃烧完全。

  A good boiler is after continuous thinking design and tested! The boiler TA-02 has a complete structure and a safety device to make the user safer.

  In order to assess the performance and improve the design, the boiler often go through thermal equilibrium test. The method of calculating the thermal efficiency of a boiler directly from the efficient use of energy is called a counterbalance, and the method of back-calculating efficiency from various heat losses is called anti-balance. When considering the actual benefits of the boiler room, not only the thermal efficiency of the boiler but also the energy consumed by the auxiliary boiler is taken into consideration.

  When the unit mass or unit volume of fuel is completely combusted, the air demand calculated by chemical reaction is called the theoretical air volume. In order to make the fuel in the furnace have more opportunities to contact with oxygen combustion, the actual amount of air into the furnace is always greater than the theoretical amount of air. Although more air can be injected into the air to reduce the heat loss from incomplete combustion, heat loss from the exhaust fumes can increase and sulfur oxides and nitrogen oxides can be further exacerbated. Therefore, efforts should be made to improve the combustion technology so as to make the combustion in the furnace complete with a minimum excess air ratio.