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An engineering-based assessment methodology on the loss of residential buildings under wind hazard
Mingxin Li,Guoxin Wang 한국풍공학회 2020 Wind and Structures, An International Journal (WAS Vol.30 No.1
The loss prediction and assessment during extreme events such as wind hazards is always crucial for the group low-rise residential buildings. This paper analyses the effect of variation in building density on wind-induced loss for low-rise buildings and proposes a loss assessment method consequently. It is based on the damage matrices of the building envelope structures and the main load-bearing structure, which includes the influence factors such as structure type, preservation degree, building density, and interaction between different envelope components. Accordingly, based on field investigation and engineering experience, this study establishes a relevant building direct economic loss assessment model. Finally, the authors develop the Typhoon Disaster Management System to apply this loss assessment methodology to practice.
Fuwei Li,Jie He,Peng Luo,Haoyu Jiang,Mingxin Liu 전력전자학회 2023 JOURNAL OF POWER ELECTRONICS Vol.23 No.4
This paper presents a quadratic-type high step-up DC–DC converter for renewable energy applications with a continuousinput current. To reduce the number of components while increasing the gain, a quadratic boost converter and two multiplier cells are applied as the primary and secondary circuit with one coupled inductor connected. In addition, the clamp circuit shares its components with both the second boost stage and the voltage multiplier, which increases the power density. As a result, the leakage energy is recycled and the voltage stress can be suppressed. The operation principles and steady-state analyses including loss analysis of the proposed converter are addressed in detail. Compared with relevant existing topologies of quadratic converter, the proposed converter performs a higher voltage gain and a lower power switch stress. To validate the performance, a 200 W experimental prototype is constructed and tested with 20 V of input voltage and 400 V of output voltage, where the highest efficiency is 95.2% and the full-load efficiency is 93.7%. The performance under dynamic conditions is also verified. In the end, an improved topology based on the proposed converter is supplemented.
Lu Ming,Li Min,Luo Tao,Li Yongsui,Wang Mingxin,Xue Huashi,Zhang Mengchen,Chen Qiu 대한독성 유전단백체 학회 2023 Molecular & cellular toxicology Vol.19 No.3
Background Treating large-volume bone defects (LVBD) remains a challenge for orthopedics and maxillofacial surgeons globally. Objective The present study was to aimed investigate the role of Beta-naphthofl avone (BNF) a synthetic fl avonoid on differentiation of osteoblast of human adipose derived stem cells. Results BNF at 1 μM showed a signifi cantly increased ALP activity and rate of cell proliferation compared to control on the 3rd, 7th and 14th day. Also, it was observed that, BNF at 1 μM resulted in signifi cantly increased expression of BSP. On the 14th day of treatment, BNF at all the three treatments resulted in increased levels of OCN. Also, extracellular matrix mineralization levels were recorded to be highest for BNF 1 μM. The levels of Runx2 were higher in 1 μM treated group on the 3rd day compared to other, whereas in contrast the levels were lower on the 7th and 14th day compared to control. BNF at all the three treatments caused a signifi cant decrease in levels of pSTAT3, C/EBP-α and PPAR-γ levels. Conclusion BNF treatment resulted in increased diff erentiation of osteoblast of hASCs by targeting STAT3 pathway.
Adaptive robust control of active magnetic bearings rigid rotor systems
Yuhao Xu,Xiaoyuan Wang,Mingxin Liu,Na Li,Tian Yu 전력전자학회 2023 JOURNAL OF POWER ELECTRONICS Vol.23 No.6
Aiming at the problems of diffi cult decoupling, complex controller models, and poor disturbance rejection capability caused by the inherent nonlinear and strong coupling characteristics of the active magnetic bearing (AMB), an adaptive H-infinity robust control (AHRC) method is proposed in the AMBs-rigid rotor system. The proposed method combines the active disturbance rejection control (ADRC) with the robust control to achieve stable operation of the AMBs-rigid rotor system under high-speed conditions. First, a four-degree-of-freedom (4-DOF) AMBs-rigid rotor model was established and transformed into a one-degree-of-freedom (1-DOF) model for the design of the robust controller, which weakens the coupling effect between each of the degrees of freedom (DOF). Then the multi-objective non-dominated sorting genetic algorithm II (NSGA-II) was used to fi nd the relative optimal weighting function value of the H-infinite robust control (HRC), which solved the difficulties in the design of the robust controller for known controlled system models. In addition, by combining the optimized H-infi nity robust controller with the original error feedback control rate in the ADRC, the proposed AHRC retains the strong robustness of the HRC and the decoupling capability of the ADRC, which improves the tracking performance and anti-disturbance performance of the controlled system. Simulation and experimental results verify the effectiveness of the proposed method.
Jia Yang,Jiajia Hao,Chen Tang,Yaxin Guo,Mingxin Guo,Zhipeng Li,Shuzheng Liu,Hui Yu,Gang Qin,Qiang Chen 한국공업화학회 2022 Journal of Industrial and Engineering Chemistry Vol.116 No.-
Although many hydrogels have been applied to wearable sensors, it is still challenging to simultaneouslyrealize hydrogels with optical transparency, superior mechanical properties, excellent sensing performance,and anti-freezing by using inexpensive raw materials and an easy preparation process. Herein,using ethylene glycol/H2O (EG/ H2O) as a solvent, poly(vinyl alcohol)/EG organohydrogel (PVA/EGOHG) was prepared by a simple heating and frozen-thawing method. Owing to the multifunctionalityof EG (i.e., physical cross-linker, anti-freezer and co-solvent), PVA/EG OHG demonstrated excellent integratedproperties, including high strength, high toughness, and anti-freezing performances. Besides, PVA/EG OHG also showed low friction, self-cleaning, and frost resistance properties. After the introduction ofLiCl, ionically conductive PVA/EG @LiCl organohydrogel was served as a self-cleaning strain sensor, whichcould be long-term stable to detect the motions of human under room and low temperatures. The studyprovides to further understanding of the organohydrogel, which will help us design next-generationhigh-performance organohydrogels.