期刊文献+
共找到3篇文章
< 1 >
每页显示 20 50 100
Experimental and numerical investigations of the dry-low-NO_(x) hydrogen micromix combustion chamber of an industrial gas turbine 被引量:5
1
作者 A.Haj Ayed K.Kusterer +3 位作者 H.H.-W.Funke j.keinz C.Striegan D.Bohn 《Propulsion and Power Research》 SCIE 2015年第3期123-131,共9页
Combined with the use of renewable energy sources for its production,hydrogen represents a possible alternative gas turbine fuel within future low emission power generation.Due to the large difference in the physical ... Combined with the use of renewable energy sources for its production,hydrogen represents a possible alternative gas turbine fuel within future low emission power generation.Due to the large difference in the physical properties of hydrogen compared to other fuels such as natural gas,well established gas turbine combustion systems cannot be directly applied for dry-low-NO_(x)(DLN)hydrogen combustion.Thus,the development of DLN combustion technologies is an essential and challenging task for the future of hydrogen fuelled gas turbines.The DLN micromix combustion principle for hydrogen fuel has been developed to significantly reduce NO_(x) emissions.This combustion principle is based on cross-flow mixing of air and gaseous hydrogen which reacts in multiple miniaturized diffusion-type flames.The major advantages of this combustion principle are the inherent safety against flash-back and the low NO_(x) emissions due to a very short residence time of reactants in the flame region of the micro-flames.The micromix combustion technology has been already proven experimentally and numerically for pure hydrogen fuel operation at different energy density levels.The aim of the present study is to apply and compare different combustion models for the characterization of the micromix flame structure,its interaction with the flow field and its NO_(x) emissions.The study reveals great potential for the successful application of numerical flow simulation to predict flame structure and NO_(x) emission level of micromix hydrogen combustion,help understanding the flow phenomena related with the micromixing,reaction zone and NO_(x) formation and support further optimization of the burner performance. 展开更多
关键词 Micromix combustion Hydrogen gas turbine Dry-low-NO_(x)(DLN) COMBUSTION Hydrogen combustion High hydrogen COMBUSTION
原文传递
Improvement study for the dry-low-NO_(x) hydrogen micromix combustion technology 被引量:1
2
作者 A.Haj Ayed K.Kusterer +3 位作者 H.H.-W.Funke j.keinz C.Striegan D.Bohn 《Propulsion and Power Research》 SCIE 2015年第3期132-140,共9页
The dry-low-NO_(x)(DLN)micromix combustion principle is developed for the low emission combustion of hydrogen in an industrial gas turbine APU GTCP 36-300.The further decrease of NO_(x) emissions along a wider operati... The dry-low-NO_(x)(DLN)micromix combustion principle is developed for the low emission combustion of hydrogen in an industrial gas turbine APU GTCP 36-300.The further decrease of NO_(x) emissions along a wider operation range with pure hydrogen supports the introduction of the micromix technology to industrial applications.Experimental and numerical studies show the successful advance of the DLN micromix combustion to extended DLN operation range.The impact of the hydrogen fuel properties on the combustion principle and aerodynamic flame stabilization design laws,flow field,flame structure and emission characteristics is investigated by numerical analysis using an eddy dissipation concept combustion model and validated against experimental results. 展开更多
关键词 HYDROGEN NO_(x) Emission reduction Micromix Jet in cross-flow Combustion
原文传递
CFD based exploration of the dry-low-NO_(x) hydrogen micromix combustion technology at increased energy densities 被引量:1
3
作者 A.Haj Ayed K.Kusterer +2 位作者 H.H.-W.Funke j.keinz D.Bohn 《Propulsion and Power Research》 SCIE 2017年第1期15-24,共10页
Combined with the use of renewable energy sources for its production,hydrogen represents a possible alternative gas tuibine fuel within future low emission power generation.Due to the large difference in the physical ... Combined with the use of renewable energy sources for its production,hydrogen represents a possible alternative gas tuibine fuel within future low emission power generation.Due to the large difference in the physical properties of hydrogen compared to other fuels such as natural gas,well established gas tuibine combustion systems cannot be directly applied for dry-low-NO_(x)(DLN)hydrogen combustion.Thus,the development of DLN combustion technologies is an essential and challenging task for the future of hydrogen fuelled gas turbines.The DLN micromix combustion principle for hydrogen fuel has been developed to significantly reduce NO_(x)-emlssions.This combustion principle is based on cross-flow mixing of air and gaseous hydrogen which reacts in multiple miniaturized diffusion-type flames.The major advantages of this combustion principle are the inherent safety against flash-back and the low NO_(x)-emlssions due to a very short residence time of reactants in the flame region of the micro-flames.The micromix combustion technology has been already proven experimentally and numerically for pure hydrogen fuel operation at different energy density levels.The aim of the present study is to analyze the influence of different geometry parameter variations on the flame structure and the NO_(x)emission and to identify the most relevant design parameters,aiming to provide a physical understanding of the micromix flame sensitivity to the burner design and identify further optimization potential of this innovative combustion technology while increasing its energy density and making it mature enough for real gas turbine application.The study reveals great optimization potential of the micromix combustion technology with respect to the DLN characteristics and gives insight into the impact of geometry modifications on flame structure and NO_(x)emission.This allows to further increase the energy density of the micromix burners and to integrate this technology in industrial gas turbines. 展开更多
关键词 Micromix combustion Hydrogen gas turbine Dry-low-NO_(x)(DLN)combustion Hydrogen combustion High hydrogen combustion
原文传递
上一页 1 下一页 到第
使用帮助 返回顶部