当前位置: X-MOL 学术J. Energy Inst. › 论文详情
Our official English website, www.x-mol.net, welcomes your feedback! (Note: you will need to create a separate account there.)
Counter-current hydrogen–oxygen vortex combustion chamber. Thermal physics of processing
Journal of the Energy Institute ( IF 5.7 ) Pub Date : 2019-06-11 , DOI: 10.1016/j.joei.2019.06.002
A.I. Guryanov , Sh.A. Piralishvili , M.M. Guryanova , O.A. Evdokimov , S.V. Veretennikov

The expediency is substantiated for the use of a vortex counter-current circulation flow of water steam and the stoichiometric hydrogen-oxygen mixture as a source of heat generation. That flow is essential for the purpose of making efficient models of high-temperature combustion chambers for the cogeneration cycles.

An experimental investigation was carried out of hydrogen-oxygen mixture combustion in a counter-current combustion chamber-superheater. Operating range values of heat power were obtained. A maximum temperature of the superheated steam at the combustion chamber outlet was 1350 K. There were determined the optimal modes of hydrogen-oxygen mixture outflow ensuring its steady combustion in the counter-current flow core of the water steam.



中文翻译:

逆流氢气-氧气涡流燃烧室。加工的热物理学

通过使用水蒸气和化学计量的氢-氧混合物的涡流逆流循环流作为生热源,可以证明这种权宜之计。为了对热电联产循环建立高温燃烧室的有效模型,该流量至关重要。

在逆流燃烧室-过热器中进行了氢氧混合物燃烧的实验研究。获得了热功率的工作范围值。燃烧室出口处的过热蒸汽的最高温度为1350K。确定了确保氢氧混合物在水蒸汽逆流核心中稳定燃烧的最佳流出方式。

更新日期:2019-06-11
down
wechat
bug