科技报告详细信息
Total Temperature Measurements Using a Rearward Facing Probe in Supercooled Liquid Droplet and Ice Crystal Clouds
Agui, Juan H ; Struk, Peter M ; Bartkus, Tadas P
关键词: CRYSTAL GROWTH;    DROPS (LIQUIDS);    ICE CLOUDS;    ICE FORMATION;    MATHEMATICAL MODELS;    SUPERCOOLING;    TEMPERATURE MEASUREMENT;    TEMPERATURE PROBES;    TEMPERATURE SENSORS;    AIR FLOW;    HEAT RADIATORS;    IMPINGEMENT;    KINETIC HEATING;    MELTING;    TEMPERATURE EFFECTS;   
RP-ID  :  GRC-E-DAA-TN58399
学科分类:工程和技术(综合)
美国|英语
来源: NASA Technical Reports Server
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【 摘 要 】

Engine Icing Performance loss: rollback, surge, flameout, and even internal engine damagePartial melting and refreeze of ice inside engine core (Mason et al., 2006). Ingestion of ice crystals and aggregates, mixed-phase droplets, or supercooled liquid dropletsNeed to better understand the conditions and properties that lead to engine icing.Simulation and analysis (physical and computational, and modeling)Test facilities (PSL, NRC, ...). Thermal and computational models and analysisProbesMultiple probes (aerothermal probes and ice cloud characterization probes and techniques). Total temperatureTraditional total temperature probes (vented forward facing)Heated total temperature probes (Goodyear). Rearward facing (developmental). Total temperature relevance. Thermal interaction between the icing cloud and air flow impinging particles contribute to kinetic heating effect (Gent et al., 2000). Measurement considerations Temperature sensor accuracy. Incomplete recovery of total temperature. Thermal surfaces (sources and sinks). Flow effects (viscous losses). Debris contamination, including icing and ice ingestion.

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