针对含大量风电场的地区电网外送电时,外送联络线通道发生永久故障问题,运用电力系统综合分析程序(power system analysis software package,PSASP)仿真其动态过程,分析无功交换潮流对地区电网形成孤网后稳定性的影响,提出稳定控制策略...针对含大量风电场的地区电网外送电时,外送联络线通道发生永久故障问题,运用电力系统综合分析程序(power system analysis software package,PSASP)仿真其动态过程,分析无功交换潮流对地区电网形成孤网后稳定性的影响,提出稳定控制策略。结果表明:无功交换潮流较小时,对孤网影响不大;当无功交换潮流较大时,应及时采取如:投退无功补偿装置、限制风电出力、切除部分负荷等措施进行稳定控制。展开更多
A low-energy ion spectrometer(LEIS) for use aboard three-axis stabilized spacecraft has been developed to measure ion energy per charge distribution in three-dimensional space with good energy-, angular-and temporal-r...A low-energy ion spectrometer(LEIS) for use aboard three-axis stabilized spacecraft has been developed to measure ion energy per charge distribution in three-dimensional space with good energy-, angular-and temporal-resolutions. For the standard top-hat electrostatic analyzer used widely in space plasma detection, three-axis stabilized spacecraft makes it difficult to obtain complete coverage of all possible ion arrival directions. We have designed angular scanning deflectors supplementing to a cylindrically symmetric top-hat electrostatic analyzer to provide a half-space field of view as 360°×90°(–45°–+45°), and fabricated the LEIS flight model for detecting magnetospheric ions in geosynchronous orbit. The performance of this payload has been evaluated in detail by a series of simulation and environmental tests, and the payload has also been calibrated through laboratory experiments using a low-energy ion source. The results show that capabilities of the LEIS payload are in accordance with the requirements of a magnetospheric mission.展开更多
文摘针对含大量风电场的地区电网外送电时,外送联络线通道发生永久故障问题,运用电力系统综合分析程序(power system analysis software package,PSASP)仿真其动态过程,分析无功交换潮流对地区电网形成孤网后稳定性的影响,提出稳定控制策略。结果表明:无功交换潮流较小时,对孤网影响不大;当无功交换潮流较大时,应及时采取如:投退无功补偿装置、限制风电出力、切除部分负荷等措施进行稳定控制。
基金supported by the National Natural Science Foundation of China(Grant No.41327802)the CAS Key Research Program of Frontier Sciences(Grant No.QYZDB-SSW-DQC015)
文摘A low-energy ion spectrometer(LEIS) for use aboard three-axis stabilized spacecraft has been developed to measure ion energy per charge distribution in three-dimensional space with good energy-, angular-and temporal-resolutions. For the standard top-hat electrostatic analyzer used widely in space plasma detection, three-axis stabilized spacecraft makes it difficult to obtain complete coverage of all possible ion arrival directions. We have designed angular scanning deflectors supplementing to a cylindrically symmetric top-hat electrostatic analyzer to provide a half-space field of view as 360°×90°(–45°–+45°), and fabricated the LEIS flight model for detecting magnetospheric ions in geosynchronous orbit. The performance of this payload has been evaluated in detail by a series of simulation and environmental tests, and the payload has also been calibrated through laboratory experiments using a low-energy ion source. The results show that capabilities of the LEIS payload are in accordance with the requirements of a magnetospheric mission.