火箭固体推进剂:一种从廉价来源获得高纯度kno3的方法

R. .
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引用次数: 3

摘要

固体推进剂主要用于火箭推进。固体推进剂的设计直接影响火箭的性能。推进剂配方中杂质的存在会降低火箭的平均推力、比冲和特征速度。氧化剂是推进剂配方中的主要化合物,在燃烧时产生高能量。在业余火箭技术中最常用的氧化剂之一是硝酸钾。通常使用KNO3是因为其良好的特性,包括与其他成分的相容性和在肥料配方中的低成本可用性。这项工作的主要目的是提出一种从肥料中获得高纯度硝酸钾的方法,肥料是一种可用且廉价的来源,可以用作固体火箭推进剂配方中的氧化剂。用工业肥料进行再结晶,得到了KNO3晶体。对纯化肥料的性能与分析型kno3的性能进行了比较。通过形态、饱和溶液pH、傅里叶变换红外光谱(FTIR)和差示扫描量热法(DSC)对肥料、纯化和分析级KNO3样品进行了评价。结果表明,重结晶工艺能有效地去除肥料中的杂质。纯化后的KNO3晶体具有光学透明的平面形状,与高纯度的KNO3相似。FTIR和DSC结果表明,重结晶后脱除了部分杂质,如硫和碱性化合物,纯化后的KNO3表现出与高纯度KNO3相似的行为。本文所采用的再结晶工艺可以成功地获得高纯度的kno3晶体,可作为火箭固体推进剂的氧化剂。
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SOLID PROPELLANTS FOR ROCKETS: A METHODOLOGY TO OBTAIN HIGH PURITY KNO3 FROM AN INEXPENSIVE SOURCE
Solid propellants are mainly used in rocket propulsion applications. The performance of a rocket is directly affected by the design of the solid propellant used. The presence of impurities in the propellant formulation can reduce the average thrust, specific impulse and characteristic velocity of a rocket. Oxidizers are the main compounds in propellants formulation, which produce the high energy on combustion. One the most commonly used oxidizers in amateur rocketry is potassium nitrate. KNO3 is normally used because of its good characteristics that include compatibility with others ingredients and availability at low cost in fertilizer formulation. The main objective of this work is to propose a methodology to obtain higher purity potassium nitrate from a fertilizer, an available and inexpensive source that can be used as oxidizer in a solid rocket propellant formulation. The KNO3 crystals were obtained by recrystallization process using a commercial fertilizer. The properties of purified fertilizer were compared with the properties of KNO3analytical. The fertilizer, purified and analytical grade KNO3 samples were evaluated by means of morphology, pH of saturated solution, Fourier transform infrared (FTIR) spectroscopy, and differential scanning calorimetry (DSC). The results demonstrated that recrystallization process effectively remove impurities from the fertilizer. The purified KNO3 crystals were optically transparent with a planar shape, similar to higher purity KNO3. The FTIR and DSC results showed that some impurities, such as, sulfur and alkaline compounds were removed after recrystallization and the purified KNO3 presented a similar behavior than higher purity KNO3. The recrystallization process used in this work can successfully used to obtain KNO3crystals with high purity that can be used as oxidizer in solid propellants for rockets.
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