| HAN基电控固体推进剂电热耦合特性及燃烧特性实验研究 |
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| 引用本文: | 鲍立荣,汪辉,王志文,谢海明,向书杰,张伟,张晓军,黄寅生,沈瑞琪,叶迎华.HAN基电控固体推进剂电热耦合特性及燃烧特性实验研究[J].推进技术,2021,42(6):1410-1417. |
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| 作者姓名: | 鲍立荣 汪辉 王志文 谢海明 向书杰 张伟 张晓军 黄寅生 沈瑞琪 叶迎华 |
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| 作者单位: | 南京理工大学空间推进技术研究所,南京理工大学空间推进技术研究所,南京理工大学空间推进技术研究所,南京理工大学空间推进技术研究所,南京理工大学空间推进技术研究所,南京理工大学空间推进技术研究所,西安近代化学研究所,南京理工大学化工学院,南京理工大学空间推进技术研究所,南京理工大学空间推进技术研究所 |
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| 基金项目: | 中央高校基本科研业务专项(30919012102)和西安近代化学研究所开放合作创新基金(SYJJ17,SYJJ200314) |
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| 摘 要: | 为了探究HAN基电控固体推进剂(ECSP)的电热耦合特性和燃烧性能,通过改变施加电压和环境压力对ECSP进行燃烧性能测试。在ECSP燃烧性能测试装置中采用电压、电流探头记录燃烧过程中通过推进剂的电压和电流,利用高速摄影仪记录推进剂的燃烧过程,借助法拉第电化学分解定律计算推进剂理论电化学分解质量在总燃烧消耗质量中的占比,分析电压和压力对推进剂燃速和质量损失的影响,同时拟合出ECSP燃速(r)与功率(P1)和压力(P2)的经验公式。结果表明:随着电压和压力的增加,ECSP理论电化学分解质量和实际燃烧质量增加,理论/总燃烧质量比值降低,燃速和质量损失增加。在ECSP的可控燃烧范围内,其燃速与功率和压力满足r = 0.0105P10.705P20.251。本文得到了热分解反应在ECSP的燃烧过程中占主导地位,是高压力下造成推进剂不可控燃烧的主要原因,为揭示ECSP的燃烧可控机理提供理论基础。
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| 关 键 词: | 电控固体推进剂 电热耦合特性 燃烧性能 电化学分解质量 热分解反应 |
| 收稿时间: | 2020/10/17 0:00:00 |
| 修稿时间: | 2021/5/17 0:00:00 |
Experimental Study on Electrothermal Coupling and Combustion Characteristics of HAN-Based Electrically Controlled Solid Propellant |
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| BAO Li-rong,WANG Hui,WANG Zhi-wen,XIE Hai-ming,XIANG Shu-jie,ZHANG Wei,ZHANG Xiao-jun,HUANG Yin-sheng,SHEN Rui-qi,YE Ying-hua.Experimental Study on Electrothermal Coupling and Combustion Characteristics of HAN-Based Electrically Controlled Solid Propellant[J].Journal of Propulsion Technology,2021,42(6):1410-1417. |
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| Authors: | BAO Li-rong WANG Hui WANG Zhi-wen XIE Hai-ming XIANG Shu-jie ZHANG Wei ZHANG Xiao-jun HUANG Yin-sheng SHEN Rui-qi YE Ying-hua |
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| Institution: | Institute of Space Propulsion,Nanjing University of Science and Technology,,,,,Institute of Space Propulsion,Nanjing University of Science and Technology,,,, |
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| Abstract: | In order to explore the electrothermal coupling characteristics and combustion performance of HAN-based electrically controlled solid propellant (ECSP), the combustion performance test of ECSP was performed by changing the voltage and pressure. In the ECSP combustion performance test device, voltage probe and current probe were used to record the voltage and current passing through the propellant during the combustion process. The combustion process of propellant was recorded by high speed camera. According to Faraday"s law of electrochemical decomposition, the proportion of theoretical electrochemical decomposition mass in total combustion consumption mass of propellant was calculated. The influence of voltage and pressure on the burning rate and mass loss of propellant was analyzed, and the empirical formulas of ECSP burning rate (r) and power (P1) and pressure (P2) were fitted. The results show that with the increase of voltage and pressure, the theoretical electrochemical decomposition mass and actual combustion mass of ECSP increase, but the ratio of theoretical to total combustion mass decreases. Within the controllable combustion range of ECSP, the empirical formula of ECSP burning rate can be fitted as r = 0.0105P10.705P20.251. This article shows that the thermal decomposition reaction is dominant in the combustion process of ECSP and is the main reason for the uncontrollable combustion of the propellant under high pressure. It provides a theoretical basis for revealing the controllable combustion mechanism of ECSP. |
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| Keywords: | Electronically controlled solid propellant Electrothermal coupling characteristics Combustion performance Electrochemical decomposition mass Thermal decomposition reaction |
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