In the world economy more and more attention is paid to the environment protection. This has brought a requirement for reduction of harmful substances emission from the gas turbine engine combustors to the foreground scene. Several concepts of low-emission combustion of liquid fuels have been suggested to solve the problem of nitric oxide emission reduction. The authors consider combustion of lean homogenized (quick-mixed) fuel-air mixtures to be the most promising concept for a multi-mode combustion chamber. Based on the accumulated experience, the authors have formed some notion with respect to design peculiarities of low-emission combustors. Based on such general notions, an attempt has been made to create a model combustion chamber for decreasing harmful substances emission. A design for compact mixing modules has been worked out, as well as for a perforated flame tube. 3D computations have been carried out for the flow in the combustor compartment with 3 mini-modules, so to compare design and experimental data. In calculations the air entered the flame tube through a channel with a rectangular cross-section and, further, through swirlers of three burners (60% of air flow). Besides, the air came into the gap between the flame tube and casing through two side channels and, further, it got inside the flame tube through cooling system holes (40% of air flow). In parallel, tests have been carried out in similar combustor compartment, using standard fuels, measuring harmful substances emission at gas temperature (T_4) up to 1700 K. Data obtained testifies to essential reduction of nitric oxides in the experimental combustor being considered. Emission index NO_x does not exceed value of 1 g/kg f in all the conditions investigated. Fuel efficiency is ≥ 99% for all the measurement regimes, except one, where it is 98%. Additionally, tests have been conducted, using bio fuel obtained from plant raw material. Research results have revealed problems of changeover to such type of fuel mixtures. Comparing test data with 3D simulation results, it can be noted that there, where computed value of the fuel combustion efficiency coincides with the measured one, NO_x value also coincides. However, the emission index value is higher there, where the fuel combustion efficiency value obtained in computation is higher, i.e. where there are zones with higher temperature. The experimental results obtained have confirmed possibility of organizing low-emission combustion, as well as possibility of achieving the nitric oxide emission index level equal to 1 g/kg f at the combustor inlet temperature of 682K. It is evident that more detailed design study is required for transfer of the experimental technology to the working compartment of the combustion chamber. The achieved level of harmful substances emission, after improvement and implementation of technology, may allow meeting the strictest ICAO requirements and reducing the airport fees significantly.
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机译:在世界经济中,越来越多地关注环境保护。这使得要求将燃气涡轮发动机燃烧器发射的有害物质减少到前景场景。已经提出了几种低排放燃烧液体燃烧的概念来解决一氧化氮排放的问题。作者认为瘦均质(快混合)燃料空气混合物的燃烧是多模燃烧室的最有希望的概念。根据累积的经验,作者对低排放燃烧器的设计特性形成了一些概念。基于这样的一般概念,已经尝试创建模型燃烧室以降低有害物质排放。已经制定了紧凑型混合模块的设计,以及穿孔火焰管。已经为燃烧器隔室中的流动进行了3D计算,其中3个迷你模块,从而比较设计和实验数据。在计算中,空气通过具有矩形横截面的通道进入火焰管,并且进一步穿过三个燃烧器的旋流器(60%的空气流动)。此外,空气通过两个侧通道进入火焰管和壳体之间的间隙,并且进一步,它通过冷却系统孔(40%的空气流动)在火焰管内部。并行地,使用标准燃料在类似的燃烧室中进行测试,使用标准燃料,测量气体温度(T_4)的有害物质发射,高达1700k。所获得的数据证明在考虑的实验燃烧器中的一氧化物的基本降低。在调查的所有条件下,排放指数NO_X不会超过1g / kg f的值。所有测量制度的燃油效率≥99%,除了一个,其中98%。另外,使用从植物原料获得的生物燃料进行测试。研究结果揭示了转换转换到这种类型的燃料混合物的问题。将测试数据与3D仿真结果进行比较,可以注意到,在那里的燃料燃烧效率的计算值与测量的燃料燃烧效率一致,NO_X值也一致。然而,发射指数值较高,其中计算中获得的燃料燃烧效率值较高,即存在具有较高温度的区域。获得的实验结果证实了组织低排放燃烧的可能性,以及在682K的燃烧器入口温度下实现一氧化氮排放指数水平等于1g / kg f的可能性。很明显,需要更详细的设计研究来将实验技术转移到燃烧室的工作室。在改进和实施技术后,达到有害物质排放水平,可能允许满足最严格的国际民航组织的要求,并大幅减少机场费用。
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