Response of the thermosphere to Joule heating and particle precipitation

G. R. Wilson; D. R. Weimer; J. O. WiseF. A. Marcos

首页> 外文期刊>Journal of Geophysical Research, A. Space Physics: JGR >Response of the thermosphere to Joule heating and particle precipitation

【24h】

Response of the thermosphere to Joule heating and particle precipitation

机译：的反应电阻加热和热大气层粒子沉淀

获取原文

获取原文并翻译 | 示例

掌桥外文数据库（机构版） >>

开具论文收录证明 >>

文献代查 >>

页面导航

摘要
著录项
相似文献
相关主题

摘要

We have used output from the Weimer Joule heating model (2005) and the Air Force High Accuracy Satellite Drag Model (HASDM) to study the response of the thermosphere to Joule heating. Our study period of 15 January to 29 June 2001 contains a number of large and small magnetic storms during which thermospheric heating events occurred. We find that a new Joule heating model (Weimer, 2005), combined with the energy input provided by precipitating particles (NOAA/TIROS hemispheric power index), can supply more than enough energy to account for the change in total thermospheric internal and gravitational potential energy during magnetic storms. In the smaller storm heating events the energy input is about equally divided, with Joule heating only slightly dominant over particle precipitation. In the larger events, Joule heating clearly dominates. We find that the thermosphere responds globally in just 3–6 hours to an increase in energy input.

机译：我们使用从魏玛焦耳加热输出模型(2005年)和美国空军精度高卫星的阻力模型(HASDM)研究反应的热电离层焦耳加热。我们的研究1月15日到2001年6月29日包含许多大型和小型磁暴风雨期间thermospheric加热事件发生。(魏玛,2005),结合能量输入提供的沉淀颗粒(NOAA /洛斯半球的权力指数),可以提供超过足够的能量占总量的变化thermospheric内部和重力势能在磁性风暴。小风暴加热能量输入事件大约同样分裂,焦耳加热略占主导地位在粒子沉淀。更大的事件,焦耳加热占主导地位。在全球范围内增加3 - 6小时能量输入。

著录项

来源
《Journal of Geophysical Research, A. Space Physics: JGR》 |2006年第10期|A10315-1-A10315-9-0|共9页
作者
G. R. Wilson; D. R. Weimer; J. O. WiseF. A. Marcos;
展开▼
作者单位

ATK Mission Research, Nashua, New Hampshire, USA;

Air Force Research Laboratory, Space Vehicles Directorate, Hanscom Air Force Base, Massachusetts, USA;

展开▼
收录信息
原文格式 PDF
正文语种英语
中图分类
关键词
magnetic storms; Energy sources; Resistance heatinggravitational fieldsENERGY INPUTthermosphereparticle precipitation;

机译：磁性风暴;能源;阻力heatinggravitational fieldsENERGYINPUTthermosphereparticle降水;

相似文献

外文文献
中文文献
专利

1. Influence of Hall current and Joule heating on entropy generation during electrokinetically induced thermoradiative transport of nanofluids in a porous microchannel [J] . B.MALLICK, J.C.MISRA, A.R.CHOWDHURY 应用数学和力学（英文版） . 2019,第010期
2. Biologic response of sperm and seminal plasma to transient testicular heating ^z>Zhen-Ya Fang, Wei Xiao, Su-Ren Chen, Mei-Hua Zhang, Yi Qiu, Yi-Xun Liu [J] . Frontiers in bioscience: a journal and virtual library . 2019,第LandMarakandScholar期

机译：biologic response of sperm and seminal plasma to transient testicular heating ^在>Z很-ya fang, Wei ξ奥, SU-Re NC很, M诶-hu A Zhang, Y IQ IU, Y i-X UN l IU
3. Improvement of recovery of gaseous fluids using the replacement of supersonic separator instead of Joule-Thomson valve in dehydration/NGL recovery unit with computational fluid dynamic modeling [J] . Shoghl Sina Nabati, Nazerifard Reza, Naderifar Abbas Chemical Engineering Research & Design: Transactions of the Institution of Chemical Engineers . 2019,第期

机译：使用计算流体动力学建模更换超音速分离器代替joule-thomson阀的joule-thomson阀的脱水/ ngl回收单元的改进
4. A particle-to-particle heat transfer model for dense gas-solid fluidized bed of binary mixture [J] . Jian Chang, Shuqing Yang, Kai Zhang Chemical Engineering Research & Design: Transactions of the Institution of Chemical Engineers . 2011,第7期

机译：particle-to-particle传热模型稠密气固流化床的二元混合物
5. Wavelet Feature of Precipitation in Quzhou Jiuhua [C] . Junping Liu International Conference on Civil Engineering, Architecture and Sustainable Infrastructure . 2013

机译：wavelet feature of precipitation in Q U周J IU花
6. On the Structure of Sentential Periphery from the Perspective of Cantonese Sentence-Final Particle aa3 =從粵語句末助詞「啊」看句?的邊緣結構 [D] . Lau, Chaak Ming. 2019

机译：On the Structure of Sentential Periphery from the Perspective of Cantonese Sentence-Final Particle aa3 =从粤语句末助词「啊」看句?的边缘结构
7. Joule–Thomson Effect on a CCS-Relevant (CO2 + N2) System [O] . Ming Gao, Linlin Wang, *, 2021

机译：joule-thomson对CCS相关的影响（CO2 + N2）系统
8. Precipitation variability and response to changing climatic condition in the Yarlung Tsangpo River basin, China [O] . Sang Y. F., Singh, V. P., Gong, T. L., 2016

机译：precipitation variability and response to changing climatic condition in the Yarlung Tsangpo River basin, China
9. In-Tank Precipitation Facility (ITP) and H-Tank Farm (HTF) geotechnical report, WSRC-TR-95-0057, Revision 0, Volume 6 [R] . 1995

机译：In-Tank precipitation Facility（ITp）和H-Tank Farm（HTF）岩土工程报告，WsRC-TR-95-0057，修订版0，第6卷

Response of the thermosphere to Joule heating and particle precipitation

摘要

著录项

相似文献

相关主题

期刊订阅