Macrokinetic Behavior of Hydrogen Combustion under High Pressure with Turbulence and Thermal Inhomogeneity
الشريط الجانبي للمقالة
محتوى المقالة الرئيسي
الملخص
This study investigates how turbulence intensity and temperature gradients affect the macroscopic kinetics of hydrogen-air combustion at supercritical pressures from 10 to 20 MPa. A series of high-precision experiments was conducted in a custom-designed high-pressure combustion reactor with a controllable thermal field and adjustable turbulent-flow generation. The induction period for spontaneous ignition was measured under various turbulence regimes and temperature distributions. Increasing turbulence intensity from 0% to 20% reduced the induction period from 0.71 s to 0.39 s, and imposing a linear temperature gradient of 300 K over 15 cm further decreased it to 0.26 s. The maximum radical concentrations of H and OH were 3.5×10–⁴ and 3.9×10–⁴ mol/mol at 20 MPa and 1000 K, indicating enhanced chain-reaction activity in locally overheated regions. Numerical simulations using a modified global kinetic model deviated by less than 8% from the experimental data. The findings support the development of improved macrokinetic models suitable for engineering applications involving hydrogen combustion at high pressures with complex thermal and flow fields.
تفاصيل المقالة
القسم
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