在火焰炉热工特性一般原理的研究基础上,提出了火焰炉热工基本特性准数方程(B_o—P_o,D_o—P_o,和Z_o—B_o),最佳热工特性区间(j±⊿B_o)和最佳热工特性准数值,为火焰炉热工特性自动控制提供了目标函数值。对火焰炉热工特性的测定和操作提供了科学的方法与计算公式,分析火焰炉热工情况,找出它的最佳热工特性区间,从而达到节约燃料的目的。另外判别炉子上所实施的技改,结构和操作参数改变而产生的效果。这些研究首先在实验数据的条件下验证,随后在实际生产数据的条件下得到证实。 Based on the research of the general principle of the thermal characteristics of the flame furnace, the quasi-thermal equation (B_o-P_o, D_o-P_o, and Z_o-B_o) ) And the best thermal performance of the quasi-numerical value for the thermal properties of the flame furnace automatic control provides an objective function value. It provides a scientific method and calculation formula for the determination and operation of the thermal characteristics of the flame furnace, analyzes the thermal conditions of the flame furnace and finds out its best thermal characteristics range, so as to achieve the purpose of fuel saving. In addition to determine the implementation of the stove on the technical changes, changes in structure and operating parameters of the resulting effect. These studies were first validated under experimental conditions and later confirmed under actual production data.