经过多次调整,计划将于2018年发射的詹姆斯·韦伯太空望远镜(James Webb Space Telescope,简称JWST)中的中红外仪(Mid-Infrared Instrument,简称MIRI)低温制冷系统最终选用三级脉管制冷机预冷J-T(Joule-Thomson)循环的复合型低温制...经过多次调整,计划将于2018年发射的詹姆斯·韦伯太空望远镜(James Webb Space Telescope,简称JWST)中的中红外仪(Mid-Infrared Instrument,简称MIRI)低温制冷系统最终选用三级脉管制冷机预冷J-T(Joule-Thomson)循环的复合型低温制冷技术。详细介绍了该技术的发展历程,表明该复合型低温制冷技术已在空间任务中逐渐替代固氢或液氦杜瓦技术,以期为国家未来空间计划的实施提供借鉴。展开更多
To weaken the nonlinear coupling influence among the variables in the speed and tension system of reversible cold strip mill, a compound control(CC) strategy based on invariance principle was proposed. Firstly, invari...To weaken the nonlinear coupling influence among the variables in the speed and tension system of reversible cold strip mill, a compound control(CC) strategy based on invariance principle was proposed. Firstly, invariance principle was used to realize static decoupling between the speed and tension of reversible cold strip mill. Then, considering the influence caused by the time variation of steel coil radius and rotational inertia of the left and right coilers, as well as the uncertainties, a CC strategy that is composed of extended state observer(ESO) and global sliding mode control(GSMC) with backstepping adaptive was proposed,which further realized dynamic decoupling and coordination control for the speed and tension system. Theoretical analysis shows that the resulting closed-loop system is global bounded stable. Finally, the simulation was carried out on the speed and tension system of a 1422 mm reversible cold strip mill by using the actual data, and through the comparison of the other control strategies, validity of the proposed CC strategy was shown by the results.展开更多
文摘经过多次调整,计划将于2018年发射的詹姆斯·韦伯太空望远镜(James Webb Space Telescope,简称JWST)中的中红外仪(Mid-Infrared Instrument,简称MIRI)低温制冷系统最终选用三级脉管制冷机预冷J-T(Joule-Thomson)循环的复合型低温制冷技术。详细介绍了该技术的发展历程,表明该复合型低温制冷技术已在空间任务中逐渐替代固氢或液氦杜瓦技术,以期为国家未来空间计划的实施提供借鉴。
基金Project(61074099)supported by the National Natural Science Foundation of ChinaProject(LJRC013)supported by Cultivation Program for Leading Talent of Innovation Team in Colleges and Universities of Hebei Province,ChinaProject(B705)supported by Doctor Foundation of Yanshan University,China
文摘To weaken the nonlinear coupling influence among the variables in the speed and tension system of reversible cold strip mill, a compound control(CC) strategy based on invariance principle was proposed. Firstly, invariance principle was used to realize static decoupling between the speed and tension of reversible cold strip mill. Then, considering the influence caused by the time variation of steel coil radius and rotational inertia of the left and right coilers, as well as the uncertainties, a CC strategy that is composed of extended state observer(ESO) and global sliding mode control(GSMC) with backstepping adaptive was proposed,which further realized dynamic decoupling and coordination control for the speed and tension system. Theoretical analysis shows that the resulting closed-loop system is global bounded stable. Finally, the simulation was carried out on the speed and tension system of a 1422 mm reversible cold strip mill by using the actual data, and through the comparison of the other control strategies, validity of the proposed CC strategy was shown by the results.