CALCULATION OF HEAT TRANSFER INTENSITY OF GAS FUEL COMBUSTION PRODUCTS

A. N. Mrakin, O. Afanaseva, O. Y. Kuleshov
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Abstract

Link for citation: Mrakin A.N., Afanaseva  O.V., Kuleshov O.Yu. Calculation of heat transfer intensity of gas fuel combustion products. Bulletin of the Tomsk Polytechnic University. Geo Аssets Engineering, 2023, vol. 334, no. 5, рр.109-115.  The relevance of the research is determined by the modern trend in the field of thermal power engineering and heat engineering for the transition from traditional gaseous fuel (methane) to the use of hydrogen, methane-hydrogen mixtures, as well as thermochemical conversion gases. Switching to new non-design fuel is justified by considerations of reducing the negative impact on the environment and increasing the thermal efficiency of fuel combustion plants. In this case, the use of fuels with a composition different from the design one will affect the heat transfer processes. The main aim: carrying out a comparative analysis of indicators of the intensity of radiant and convective heat transfer of combustion products of non-design fuels, such as hydrogen, methane-hydrogen mixture and thermochemical conversion gases. As an assumption in the formulation of the problem and objectives of the study, the constancy of the heat release power in the apparatus due to changes in the amount of fuel burned was taken. Objects: heat exchange surface of a fire-tube hot water boiler. Methods: carrying out numerical calculation using traditional approaches to determine the indicators of the intensity of heat transfer in the system «combustion products – metal wall of the pipe of thermal power plants». We also used the relations tested earlier by other authors to calculate the thermophysical parameters of gas mixtures. Results. According to the results of the performed comparative calculations, we can conclude that the transition from the use of conventional fuel (natural gas/methane) to its thermochemical conversion gases under the considered conditions has almost no effect on the integral heat transfer performance. To a greater extent, this transition is caused by changes in the intensity of heat transfer for products of combustion of hydrogen and methane-hydrogen mixture, which will affect the operation of thermal power and heat technological installations. At the same time, it is necessary to conduct additional research on the combustion kinetics of thermochemical methane conversion gases, their thermophysical properties, etc., because the hardware design, type of the catalyst used and operating parameters of the process will affect the composition of obtained synthesis gas.
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燃气燃料燃烧产物传热强度的计算
引用链接:Mrakin a.n., Afanaseva o.v., Kuleshov O.Yu。燃气燃料燃烧产物传热强度的计算。托木斯克理工大学公报。岩土工程Аssets, 2023,第334卷,第2期。5,рр.109 - 115。该研究的相关性是由现代热电工程和热能工程领域从传统的气体燃料(甲烷)向使用氢、甲烷-氢混合物以及热化学转化气体过渡的趋势决定的。考虑到减少对环境的负面影响和提高燃料燃烧厂的热效率,转换到新的非设计燃料是合理的。在这种情况下,使用与设计成分不同的燃料将影响传热过程。主要目的:对非设计燃料(如氢气、甲烷-氢混合物和热化学转化气体)燃烧产物的辐射和对流换热强度指标进行比较分析。作为问题和研究目标制定中的一个假设,取设备中由于燃料燃烧量变化而产生的放热功率的常数。研究对象:火管热水锅炉的换热表面。方法:采用传统方法进行数值计算,确定“燃烧产物-火电厂管道金属壁”系统的传热强度指标。我们还使用其他作者先前测试的关系来计算气体混合物的热物性参数。结果。根据所进行的对比计算结果,我们可以得出结论,在所考虑的条件下,从使用常规燃料(天然气/甲烷)到使用其热化学转化气体的转变对整体传热性能几乎没有影响。这种转变在很大程度上是由于氢气和甲烷-氢混合物燃烧产物的换热强度的变化引起的,这将影响火电和热技术装置的运行。同时,有必要对热化学甲烷转化气体的燃烧动力学、热物理性质等进行额外的研究,因为该工艺的硬件设计、所用催化剂的类型和操作参数都会影响所得合成气的组成。
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来源期刊
CiteScore
1.40
自引率
50.00%
发文量
210
审稿时长
5 weeks
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