φ300玻璃钢环隙式离心萃取器动平衡的实验研究

对Φ300玻璃钢环隙式离心萃取器玻璃钢转筒进行动平衡校正实验研究,并模拟工况对该设备进行水力学实验。玻璃钢转筒进行动平衡校正前后,设备负载运行与空载时相比,振动值平均增幅小于8%,验证了转子动不平衡是导致设备振动较大的主要因素;同时,校正后的离心萃取器整体振动值降幅高于72%,表明玻璃钢转子在500r/min下进行动平衡校正是有效可行的。     

Sylvester矩阵方程的改进IO迭代算法

通过对Sylvester矩阵方程的理论分析,可知IO迭代算法中迭代矩阵的谱半径随内迭代次数的增大而减小,更新了IO迭代算法中内迭代次数的选择方法,并证明了该算法收敛性与初始矩阵无关。Sylvester矩阵在满足一些特定条件下,为了进一步提高收敛速度,可通过选择适当的相关参数,使得IO迭代算法有较好的收敛速度且比Smith算法的迭代次数明显减少。     

φ300玻璃钢环隙式离心萃取器动平衡的实验研究

对φ300玻璃钢环隙式离心萃取器玻璃钢转筒进行动平衡校正实验研究,并模拟工况对该设备进行水力学实验.玻璃钢转筒进行动平衡校正前后,设备负载运行与空载时相比,振动值平均增幅小于8％,验证了转子动不平衡是导致设备振动较大的主要因素;同时,校正后的离心萃取器整体振动值降幅高于72％,表明玻璃钢转子在500r/min下进行动平衡校正是有效可行的.     

Effective model for rare-earth Kitaev materials and its classical Monte Carlo simulation

Recently, the family of rare-earth chalcohalides were proposed as candidate compounds to realize the Kitaev spin liquid (KSL) [Chin. Phys. Lett. 38 047502 (2021)]. In the present work, we firstly propose an effective spin Hamiltonian consistent with the symmetry group of the crystal structure. Then we apply classical Monte Carlo simulations to preliminarily study the model and establish a phase diagram. When approaching to the low temperature limit, several magnetic long range orders are observed, including the stripe, the zigzag, the antiferromagnetic (AFM), the ferromagnetic (FM), the incommensurate spiral (IS), the multi-Q, and the 120° ones. We further calculate the thermodynamic properties of the system, such as the temperature dependence of the magnetic susceptibility and the heat capacity. The ordering transition temperatures reflected in the two quantities agree with each other. For most interaction regions, the system is magnetically more susceptible in the ab-plane than in the c-direction. The stripe phase is special, where the susceptibility is fairly isotropic in the whole temperature region. These features provide useful information to understand the magnetic properties of related materials.