推进剂
沉积(地质)
机械
热传导
热的
等离子体
材料科学
热能
功率(物理)
霍尔效应
能量(信号处理)
电离
电流(流体)
核工程
动能
电弧喷射火箭
激发态
热辐射
热导率
航空航天工程
可再生能源
发电
辐射
数学模型
电阻式触摸屏
辐射能
氩
频道(广播)
消散
特征能量
传热
作者
Kaylin Borders,Elaine Petro
摘要
The influence of propellant properties on heat generation in Hall effect thrusters is evaluated and compared using two analytical plasma energy deposition models. Both approaches quantify discharge power losses to conduction to channel surfaces, radiation from excited neutral particles, and the plume. Each uses a propellant-specific energy deposition approach that accounts for the energy carried by each particle, specifically the ions, electrons, and neutrals. Initially developed for xenon, the models have been extended to krypton, argon, and water vapor. For each propellant, the ionization cost of electron-neutral collisions is evaluated and incorporated into the analytical models
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