摘要
氢燃料微尺度燃烧器在能源领域具重要潜力,其动态响应特性与稳定性控制备受关注。对不同结构与工况下氢燃料微尺度燃烧器的动态响应特性开展研究,分析多种因素对燃烧过程动态变化的影响规律。探讨稳定性控制方法,从燃烧器结构优化、运行参数调节及控制策略制定等方面着手,提升燃烧稳定性。结果表明,燃烧器结构参数对动态响应有显著影响,合理的稳定性控制措施可有效抑制燃烧不稳定现象。研究成果为氢燃料微尺度燃烧器的优化设计与实际应用提供理论支撑与技术指导。
关键词: 氢燃料;微尺度燃烧器;动态响应特性;稳定性控制;燃烧过程
Abstract
Hydrogen fuel microscale burners hold significant potential in energy applications, with their dynamic response characteristics and stability control being of particular interest. This study investigates the dynamic response characteristics of hydrogen fuel microscale burners under different structural configurations and operating conditions, analyzing the influence patterns of various factors on dynamic combustion process variations. Stability control methods are explored through burner structure optimization, operational parameter adjustments, and control strategy formulation to enhance combustion stability. Results demonstrate that burner structural parameters significantly impact dynamic responses, while appropriate stability control measures can effectively suppress combustion instability phenomena. The research findings provide theoretical support and technical guidance for the optimized design and practical application of hydrogen fuel microscale burners.
Key words: Hydrogen fuel; Microscale burner; Dynamic response characteristics; Stability control; Combustion process
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