Solar container terminal torsion spring
摘要In this paper,four novel evaluation indices and corresponding hierarchical optimization strategies are propose.
摘要In this paper,four novel evaluation indices and corresponding hierarchical optimization strategies are propose.
In this study, the influence of the parameters of torsion springs on the deployment behavior of a solar array system with clearance joint is investigated by simulation experiments. The experimental results indicate that the deployment performances are very sensitive to the parameter values of the.
摘要In this paper,four novel evaluation indices and corresponding hierarchical optimization strategies are propose.展开更多 In this paper,four novel evaluation indices and corresponding hierarchical optimization strategies are proposed for a deployable solar array system considering panel flexibility.
摘要:In this paper,four novel evaluation indices and corresponding hierarchical optimization strategies are proposed for a deployable solar array system considering panel flexibility and joint clearance.The deployable solar array model consists of a rigid main-body,two panels and four key.
本研究通过仿真实验研究了扭力弹簧参数对带有间隙接头的太阳能电池阵列系统展开行为的影响。 实验结果表明,展开性能对扭簧的参数值非常敏感。 迫切需要合适的扭力弹簧来改善太阳能电池阵列系统的部署动力学。 因此,提出了一种扭簧设计的多目标优化方法。 优化的目的是在展开时间和结构强度的约束下,使旋转关节中的接触冲击力和扭簧的质量最小。 最后,通过太阳能阵列系统的优化实例验证了多目标优化方法的有效性。 "点击查看英文标题和摘要" 对于太阳能电池阵列的部署,大多数现有研究主要集中在部署动力学的建模方法,铰链的特性以及同步机制上。 然而,作为驱动机构的扭力弹簧几乎没有引起人们的注意。.
As the photovoltaic (PV) industry continues to evolve, advancements in Solar container terminal torsion spring have become critical to optimizing the utilization of renewable energy sources. From innovative battery technologies to intelligent energy management systems, these solutions are transforming the way we store and distribute solar-generated electricity.