控制不同锅炉负荷下燃烧产物体积的方法

V. Kryvda, O. Brunetkin, K. Beglov, T. Markolenko, I. Lutsenko
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引用次数: 0

摘要

目的开发一种方法,用于控制锅炉设备在不同负荷下的燃烧产物量。实现这一目标可以控制烟气温度,从而提高效率。方法。在确定燃料气混合物适当成分的基础上控制烟气量值。研究结果。揭示了在使用低热值燃料气体和增加压载气体数量时提高烟气温度的效果。后者可以是过量用作氧化剂的空气。研究提出了由于烟气数量和速度增加而产生这种效应的机理。提出了一个确定各种燃料气体单位热值产生的烟气量的参数。在该参数的基础上,提出了计算不同气体混合物成分的方法,以确保在不同负荷下烟气量保持稳定。以验证热计算结果为例,考虑了烟气温度和效率值的变化。揭示了其变化的非标准性。与使用恒定成分燃料气体的情况相反,随着负荷的增加,烟气温度保持接近恒定,而效率值却增加了。实用价值。所得结果表明,在给定负荷下,可以控制烟气温度和锅炉效率。这与使用恒定成分的燃料气体不同,可以在最大负荷时提高效率,避免在最小负荷时进入冷凝模式。这样可以节省化石燃料,从而减少二氧化碳的温室气体排放量。
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Method of controlling the volume of combustion products at different boiler loads
Purpose. Development of a method for controlling the volume of combustion products at different load of boiler equipment. Achieving the objective may allow controlling the flue gas temperature and, consequently, the efficiency to increase it. Methodology. Control of the flue gas volume value on the basis of determining the appropriate composition of the fuel gas mixture. Findings. The effect of flue gas temperature increase at use of fuel gases of lower calorific value and increase in ballast gases quantity is revealed. The latter can be the air used as an oxidising agent at its considerable excess. The mechanism of such an effect due to the increase in the quantity and velocity of flue gases is suggested. A parameter determining the volume of flue gases produced per unit calorific value of various fuel gases is proposed. On the basis of this parameter the method for calculating the composition of the mixture of different gases to ensure the constancy of the flue gas volume at variable load is proposed Originality. On the example of the results of verification thermal calculation the change in flue gas temperature and efficiency value is considered. The non-standard character of their change is revealed. In contrast to the case of using fuel gas of constant composition with increasing load, the temperature of flue gases remained close to constant, and the value of efficiency increased. Practical value. The obtained results indicate the possibility of controlling the flue gas temperature and boiler efficiency at a given load. This allows one, unlike the case of using fuel gas of constant composition, to increase the efficiency exactly at maximum load avoiding getting into the condensate mode at minimum load. There is a possibility to save fossil gas and, consequently, to reduce the greenhouse share in CO2 emissions.
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来源期刊
CiteScore
1.70
自引率
0.00%
发文量
148
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