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1. Acoustic black hole effect enhanced micro-manipulator

Author

Qiu Yin, Haoyong Song, Zhaolong Wang, Zhichao Ma, and Wenming Zhang

Subjects
Technology, Engineering (General). Civil engineering (General), TA1-2040
Abstract

Abstract Microparticle manipulation is a critical concern across various fields including microfabrication, flexible electronics and tissue engineering. Acoustic-activated sharp structures have been designed as simple and flexible tools to manipulate microparticles with their good compatibility, fast response, and broad tunability. However, there still lacks rational acoustic-structure design for effective energy concentration at the acoustic-activated sharp structures for microparticle manipulation. Here, we present the acoustic black hole (ABH) effect as enhancement for the acoustic micro-manipulator. It provides great reliability, simplicity and ease of use, supporting custom design of high-throughput patterning modes. Moreover, compared to commonly used configurations, such as cylindrical or conical microneedles, those microneedles with ABH profile exhibit superior acoustic energy focusing at the tip and induce stronger acoustofluidic effects. The average acoustic flow velocity induced by the ABH microneedle is 154 times greater than that of the conical one and 45 times greater than that of the cylindrical microneedle. Besides, the average acoustic radiation force (ARF) produced by the ABH microneedle against acrylic microparticles is about 319 times greater than that of the cylindrical one and 16 times greater than that of the conical one. These results indicate that ABH design significantly enhances microparticle manipulation. We demonstrate this concept with ABH effect enhanced microparticle manipulation and study the parameters influencing its performance including operating frequency, operating voltage and particle diameter. Furthermore, considering the flexibility of this system, we employ it for various patterning and high-throughput microparticle manipulation. This work paves the way for controllable microparticle manipulation, holding great potential for applications in microfabrication and biomedicine.

Published
2024
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2. Molecular cloning, expression and functional analysis of foxl2 from Chinese sturgeon (Acipenser sinensis) in relation to sex differentiation

Author

Yacheng Hu, Ruihua Tan, Yang Li, Tingting Shu, Gang Yang, Zhong Chu, Haoran Wang, Xueqing Liu, Xin Zhu, Binzhong Wang, Baifu Guo, Runqiu Wang, Huantao Qu, Haoyong Song, Dezhi Zhang, Hejun Du, Zhiyuan Li, Jianbo Chang, Dianchang Wang, Dan Xu, Wei Jiang, Qingfei Li, and Yuanjin Yang

Subjects
Chinese sturgeon, FOXL2, sex differentiation, gonad, endangered fish, Science, General. Including nature conservation, geographical distribution, QH1-199.5
Abstract

IntroductionOur understanding of the regulatory mechanisms that govern the development of sexual characteristics in sturgeon, particularly the Chinese sturgeon (Acipenser sinensis), is limited. Foxl2, a member of the forkhead/HNF-3-related transcription factor family, is known for its role in precise gene regulation within specific tissues and its control over ovarian aromatase, a key enzyme in ovarian development and maturation. This study aimed to investigate the sexually dimorphic expression of foxl2 during the molecular and morphological sex differentiation stages in Chinese sturgeon.MethodsWe successfully isolated the full-length cDNAs of foxl2 in Chinese sturgeon. We then examined the expression profiles of this gene across various somatic tissues in both female and male specimens.ResultsFoxl2 was predominantly expressed in the ovulatory organs of two-year-old Chinese sturgeon, with significantly lower expression in other somatic tissues. We observed sexual dimorphism in foxl2 expression within gonads that had achieved morphological differentiation.DiscussionThe results suggest that foxl2 expression is intricately linked to the process of ovarian differentiation in Chinese sturgeon. Furthermore, we propose that the mRNA quantities of foxl2 could serve as an accurate biomarker for sex determination in sturgeon during their early growth stages.

Published
2024
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3. Comparison of Dissolved Gases in Mineral and Vegetable Insulating Oils under Typical Electrical and Thermal Faults

Author

Chenmeng Xiang, Quan Zhou, Jian Li, Qingdan Huang, Haoyong Song, and Zhaotao Zhang

Subjects
vegetable insulating oil, electrical fault, thermal fault, dissolved gas analysis (DGA), fault diagnosis, gas formation mechanism, Technology
Abstract

Dissolved gas analysis (DGA) is attracting greater and greater interest from researchers as a fault diagnostic tool for power transformers filled with vegetable insulating oils. This paper presents experimental results of dissolved gases in insulating oils under typical electrical and thermal faults in transformers. The tests covered three types of insulating oils, including two types of vegetable oil, which are camellia insulating oil, Envirotemp FR3, and a type of mineral insulating oil, to simulate thermal faults in oils from 90 °C to 800 °C and electrical faults including breakdown and partial discharges in oils. The experimental results reveal that the content and proportion of dissolved gases in different types of insulating oils under the same fault condition are different, especially under thermal faults due to the obvious differences of their chemical compositions. Four different classic diagnosis methods were applied: ratio method, graphic method, and Duval’s triangle and Duval’s pentagon method. These confirmed that the diagnosis methods developed for mineral oil were not fully appropriate for diagnosis of electrical and thermal faults in vegetable insulating oils and needs some modification. Therefore, some modification aiming at different types of vegetable oils based on Duval Triangle 3 were proposed in this paper and obtained a good diagnostic result. Furthermore, gas formation mechanisms of different types of vegetable insulating oils under thermal stress are interpreted by means of unimolecular pyrolysis simulation and reaction enthalpies calculation.

Published
2016
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14. Differences in Characteristics of Long-Gap Lightning Impulse Breakdown between Vegetable and Mineral Insulating Oil

Author

Wang Wei, Chen Yuqing, Haoyong Song, Mo Wenxiong, and Qingdan Huang

Subjects
010302 applied physics, Materials science, Long gap, Petroleum engineering, Transformer oil, 020209 energy, 02 engineering and technology, 01 natural sciences, Electronic, Optical and Magnetic Materials, law.invention, law, Fire point, 0103 physical sciences, Lightning impulse voltage, 0202 electrical engineering, electronic engineering, information engineering, medicine, Breakdown voltage, Electrical and Electronic Engineering, Mineral oil, Transformer, Power equipment, medicine.drug
Abstract

Vegetable insulating oils, with higher fire point, lower biological hazard and better availability compared to traditional mineral insulating oils, have enormous potential to become the substitute of the latter, given the trend of green development of the power equipment, for example, the transformers. However, the obviously different constitution of the vegetable oils makes the circumstance hard when considering their application on the insulation for actual transformers. One of the significant deficiencies of the vegetable oils in working condition is their insufficient lightning impulse endurance under partial high electric fields and large discharge gaps. In this article, three kinds of transformer insulating oils, rapeseed oil, FR3 and 25# mineral oil were chosen to investigate the performances of these insulation materials under long-gap lightning impulses with positive and negative polarity respectively. The variation rules of breakdown voltage and velocity with the gap length were obtained. And the difference of the lightning impulse voltage endurance between the vegetable and mineral insulating oils as well as its causes based on theories of streamer and ionization potential (IP) were analyzed, which led to the conclusion that the gap increase causes more threat to the positive lightning impulse breakdown of vegetable insulating oils, compared to its counterpart.

Published
2020
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18. Effect of oxygen on the thermal decomposition of eco-friendly gas insulating medium C4F7N-CO2

Author

Yi Jing, Ran Zhuo, M. Fu, Haoyong Song, Jing Liu, and Luo Yan

Subjects
010302 applied physics, Materials science, Nitrile, Thermal decomposition, Analytical chemistry, chemistry.chemical_element, Mass spectrometry, 01 natural sciences, Decomposition, Oxygen, C-4, law.invention, Hafnium, chemistry.chemical_compound, chemistry, law, 0103 physical sciences, Spectroscopy
Abstract

In recent years, C 4 F 7 N (fluorinated nitrile) is considered to be the most potential candidate gas for SF 6 in gas insulation equipment because of its excellent electrical performance and environmental protection advantages. However, there are few studies on the effect of O 2 on decomposition characteristics of C 4 F 7 N-CO 2 mixture. In this paper, we set up an experimental platform to simulate the thermal decomposition. We studied the effect of O 2 on the decomposition path of C 4 F 7 N-CO 2 mixture. The influence of pressure on the decomposition products of C 4 F 7 N-CO 2 mixture has also been studied. Gas chromatography-mass spectrometry (GC-MS) was used to detect the decomposition products. The experimental results show that the mixture of C 4 F 7 N-CO 2 decomposes into C 3 F 8 , CF 3 CN, C 3 F 6 , C 4 F 10 , C 2 F 5 CN and C 4 F 8 at an overheated temperature of 500 °C, and the mixture of C 4 F 7 N-CO 2 decomposes into C 3 F 8 , CF 3 CN, C 3 F 6 after adding O 2 . The addition of O 2 reduced the type of decomposition products and accelerated the decomposition rate of C 4 F 7 N-CO 2 mixture. The addition of O 2 should be avoided in the engineering application of C 4 F 7 N-CO 2 mixture. Increasing the pressure of C 4 F 7 N-CO 2 mixture in gas insulated equipment can effectively reduce the effect of O 2 on the decomposition of overheat.

Published
2020
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19. Breakdown and decomposition characteristics of environmentally friendly C4F7N/N2/O2 gas mixture at high pressure

Author

Mingli Fu, Ran Zhuo, Wang Wei, Haoyong Song, Yi Jing, and Dibo Wang

Subjects
010302 applied physics, Materials science, 0211 other engineering and technologies, Analytical chemistry, chemistry.chemical_element, 02 engineering and technology, 01 natural sciences, Decomposition, Gas insulation, Environmentally friendly, Oxygen, C-4, law.invention, Volume (thermodynamics), chemistry, law, High pressure, 0103 physical sciences, Electrode, 021108 energy
Abstract

C 4 F 7 N gas mixture has excellent insulating property, which is a gas insulating medium widely concerned by scholars at home and abroad in recent years. In order to reduce the harmful solid by-products produced during the discharge process, a certain amount of O 2 should be added to the C 4 F 7 N/N 2 gas mixture. This paper investigated the potential of C 4 F 7 N/N 2 /O 2 gas mixture in high-voltage gas insulating electrical equipment, tested the breakdown characteristics of C 4 F 7 N/N 2 /O 2 gas mixture containing oxygen of different volume fractions under 0.6MPa by gas insulation test platform, and analyzed the decomposition products and contents of the gas mixture after breakdown by GC-MS. It is found that adding a certain amount of O 2 to the C 4 F 7 N/N 2 gas mixture can improve the insulation self-recovery performance under high pressure, the main decomposition products of C 4 F 7 N/N 2 /O 2 gas mixture after multiple breakdowns are CF 4 , C 2 F 6 , C 3 F 6 , C 3 F 8 , CF 3 CN, C 2 F 5 CN, CO, COF 2 , C 2 N 2 . The content of these products increased first and then decreased with the further increase of oxygen content. Comprehensively considering the influence of O 2 addition on the insulation properties and discharge decomposition characteristics, as for HV engineering application, it is recommended to add 6% O 2 in the C 4 F 7 N/N 2 gas mixture.

Published
2020
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20. Numerical modeling of contact erosion including both vaporization and sputter erosion

Author

Haoyong Song, Yunfeng Wang, Mo Wenxiong, Qingdan Huang, Qian Wang, Xingwen Li, Yihong Wu, and Wang Wei

Subjects
010302 applied physics, Marangoni effect, Materials science, Evaporation, Mechanics, Deformation (meteorology), 01 natural sciences, 010305 fluids & plasmas, Physics::Fluid Dynamics, Stress (mechanics), Boiling point, 0103 physical sciences, Vaporization, Volume of fluid method, Erosion
Abstract

The erosion of contact material is one of the critical failure mechanisms in switch devices. Thus it is important to study the characteristics of contact erosion. In this paper, a two-dimensional magnetic hydrodynamics (MHD) is established to get physical characteristics of the molten pool in cathode. Gas dynamics and statistical methods are then used for the calculation of the vaporization rates and sputter rates. The deformation of the geometry is calculated using the volume of fraction method (VOF). According to simulation results, the Marangoni stress plays a major role in molten pool flow which can determined the shape of the molten pool. Compared with the erosion model without consideration of evaporation below boiling point, the surface temperature and sputter rate is lower when the evaporation below boiling point is considered. The results also show that the temperature is relatively lower after considering the deformation.

Published
2017
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21. Numerical analysis of DC arc evolution process of two parallel contacts model

Author

Wang Wei, Haoyong Song, Jianning Yin, Qian Wang, Qingdan Huang, Xingwen Li, and Mo Wenxiong

Subjects
Materials science, 020208 electrical & electronic engineering, 02 engineering and technology, Mechanics, Plasma, 01 natural sciences, Cathode, 010305 fluids & plasmas, law.invention, Anode, Arc (geometry), Physics::Plasma Physics, law, 0103 physical sciences, Electrode, 0202 electrical engineering, electronic engineering, information engineering, Current density, Voltage drop, Circuit breaker
Abstract

The movable contact of conventional air circuit breaker (ACB) includes multiple parallel contacts. The arc motion process directly affects the breaker capacity of ACB. Therefore, it is important to study the arc motion process of multiple parallel contacts model. A three-dimensional (3D) magneto-hydro-dynamic (MHD) model of air arc plasma is built to investigate the arc motion process. The anode of this model consists of two parallel contacts. The potential vector approach is adopted to calculate the electromagnetic field. The thin sheaths surrounding the electrodes are also employed to represent the voltage drop of electrodes. Based on this model, the evolutions of arc voltage, temperature, and current density are obtained. It is noted that the anode arc root form on two parallel contacts with the arc evolution, and the cathode root is the only one. The arc column is merged together due to their attraction.

Published
2017
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22. Application of computational fluid dynamics to predict the temperature-rise of gas insulated switchgears

Author

Makoto Hasegawa, Wang Wei, Xiaofeng Deng, Haoyong Song, Guobin Hou, Mo Wenxiong, Xingwen Li, and Qingdan Huang

Subjects
Materials science, business.industry, 020209 energy, 02 engineering and technology, Mechanics, Computational fluid dynamics, Switchgear, law.invention, Sulfur hexafluoride, chemistry.chemical_compound, chemistry, law, Thermal radiation, Heat generation, 0202 electrical engineering, electronic engineering, information engineering, Eddy current, Skin effect, business, Circuit breaker
Abstract

Accurate temperature-rise prediction in gas insulated switchgears (GIS) is necessary to reduce the number of heat-run tests during the product development process. An electromagnetic-thermal-fluid coupled model using computational fluid dynamics (CFD) is developed to predict the temperature-rise of a 110-kV three phase GIS in common tank type. The GIS includes the three-position isolation/ground switch and the circuit breaker insulated with SF 6 gas at 5 bar. In this model, the contact resistance, eddy current, skin effect, thermal flow, and thermal radiation are considered. The ohmic losses generated in the conducting components are calculated through the harmonic electromagnetic analysis with MAXWELL 3D software. Then, the predicted losses are imported to the commercial CFD software ANSYS Fluent to fulfill the thermal simulation. Based on this model, the distributions of heat generation, gas velocity, and temperature-rise are obtained. The results show that the maximum power density and temperature-rise both occur at the contact zones of the three-position isolation/ground switch. To verify the developed model, the temperature-rise tests of the GIS are carried out at 2200 A. The simulation and measurement results are close with a maximum error of 3.99 K.

Published
2017
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23. Experimental research on creepage discharge between oil-impregnated pressboard layers

Author

Jinqing Wei, Chongzhi Zhao, Yangchun Cheng, and Haoyong Song

Subjects
010302 applied physics, Pressboard, Materials science, 020208 electrical & electronic engineering, 0103 physical sciences, 0202 electrical engineering, electronic engineering, information engineering, 02 engineering and technology, Composite material, 01 natural sciences, Experimental research
Published
2016
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25. Influence of acids on the electrical lifetime of vegetable oil impregnated paper insulation

Author

Qingdan Huang, Wei Yao, Haoyong Song, and Mo Wenxiong

Subjects
010302 applied physics, Materials science, Waste management, Dielectric strength, Transformer oil, Electric breakdown, Dielectric, 01 natural sciences, Hydrolysis, Vegetable oil, 0103 physical sciences, Cellulose insulation, Life test, Composite material
Abstract

Electrical lifetime is a vital means of assessing the insulation properties of dielectric materials. The hydrolysis process of vegetable insulating oil could generate a lot of acids, which may have a negative impact on the dielectric strength and aging performance of oil-paper insulation. To identify the influence of seven types of acids (formic, acetic, levulinic, oleic, linoleic, palmitic and stearic acids) on the electrical lifetime of vegetable oil impregnated paper insulation, this paper mainly focuses on a comparative accelerated electrical life test among the seven types of acids. The lifetime of vegetable oil impregnated cellulose insulation is estimated by performing the progressive stress tests. The Weibull distribution is utilized to get mean lifetime of oil-paper specimens and the exponential model is applied to fit experimental test data and acquire the voltage endurance coefficients. The breakdown voltage and time of vegetable oil impregnated paper insulation with the seven types of acids were obtained. The influence of acids on the electrical lifetime of vegetable oil impregnated paper insulation was provided at last. Results show that acids can reduce the electrical lifetime of vegetable oil impregnated paper insulation, and the impact of low molecular weight acids on insulation lifetime is about 2–3 times higher than that of high molecular weight acids.

Published
2016
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