Your search keyword '"Wei, Yuqi"' showing total 42 results

1. Hierarchical Gradient Structural Porous Metamaterial with Selective Spectral Response for Daytime Passive Radiative Cooling.

Author

Liu, Jinru, Wei, Yuqi, Zhong, Yi, Zhang, Linping, Wang, Bijia, Feng, Xueling, Xu, Hong, and Mao, Zhiping

Subjects

RADIATION, SPECTRAL sensitivity, POROUS materials, SOLAR spectra, POROSITY, EMISSIVITY

Abstract

Porous photonic structures have greatly advanced large‐scale radiative cooling application owing to its satisfying optical properties, easy‐designation, and low cost. However, current reported porous radiative cooling materials mainly focuses on uniform or random pore distribution structure, which failed to achieve precise spectrum control for sunlight and mid‐infrared light, thereby weakening the radiative cooling performance. Herein, gradient structural porous metamaterials (GSPMs) are proposed and successfully constructed for maximizing cooling effectiveness based on step‐by‐step freeze‐casting technology. The designed GSPMs with gradient micro‐nano porous structure can wide‐range scatter entire solar spectrum while possess gradual refractive index transition to increase air‐medium interface absorption at mid‐infrared regions. Notably, solar reflectivity and mid‐infrared emissivity of GSPMs reach 97.3% and 97.6%, achieving maxinum cooling temperature of 8.7 °C and net cooling power of 94.1 W m−2, presenting a higher cooling effect than random porous materials. Moreover, GSPMs enable achieve compatibility with color aesthetic and cooling superiorities due to selective spectra response behavior, as well as can be applied in building materials, realizing efficient energy saving and CO2 emission reduction. This work proposed gradient porous structure can achieve highly efficient daytime radiative cooling, offering new possibilities in the structure design of next‐generation porous radiative cooling materials. [ABSTRACT FROM AUTHOR]

Published

2024

2. Modelling, design, control, and implementation of advanced isolated DC/DC converters for renewable energy applications.

Author

Wei, Yuqi, Luo, Quanming, Mou, Di, Zhao, Shuang, Liserre, Marco, and Mantooth, H. Alan

Subjects

ENGINEERS, INTEGRATED circuit design, ROBUST stability analysis, ELECTRIC power transmission, ELECTRICAL engineering, DC-to-DC converters

Abstract

This document discusses the increasing demand for high-efficient isolated DC/DC converters in renewable energy applications. It presents seventeen papers that cover various topics such as reducing switch count and current balancing, addressing voltage ringing issues, solving current unbalance problems, and optimizing converter design. The papers provide experimental results and propose innovative methods to improve the efficiency and performance of DC/DC converters in renewable energy applications. The document also includes three research papers related to power converters, including one on a prototype for NanoGrid applications, one on a new DC-DC bipolar resonance converter, and one on enhancing the stability of a DCMG cluster. The text also includes acknowledgments and biographies of the guest editors. [Extracted from the article]

Published

2024

3. An adaptive synchronous rectifier driving strategy for unregulated LLC resonant converter.

Author

Wei, Yuqi, Li, Ziang, and Liu, Jinjun

Subjects

DC transformers, EQUALIZERS (Electronics), VOLTAGE, INDUSTRIAL applications, DIODES

Abstract

LLC resonant converters are widely adopted in many different industrial applications due to their high efficiency operation. To further improve LLC resonant converters' efficiency, the secondary unregulated diode rectifier is replaced by the synchronous rectifier (SR). In many applications, LLC converter is designed to operate at resonant frequency to maximize the system efficiency and act as a DC transformer (DCX). The SR driving signal is set as the same as the primary driving signal to work in an open‐loop mode. However, the resonant frequency will deviate due to the tolerance, working environment, and ageing effect of circuit components, which will lead to the degradation of the system efficiency and output voltage variation. Unfortunately, most of the existing techniques cannot be simply adopted in SR LLC DCX. Therefore, an adaptive SR driving strategy that can compensate the circuit components' variations is necessary for SR LLC DCX. Inan adaptive SR strategy based on the constant voltage gain characteristic at resonant frequency point is proposed. The proposed strategy is applicable for all different scenarios with easy implementation and low cost. [ABSTRACT FROM AUTHOR]

Published

2024

4. Low legume-grass seeding ratio combined with phosphorus fertilization promotes forage yield and soil quality in managed grasslands.

Author

Bi, Yixian, Yang, Gaowen, Wei, Yuqi, Wilson, Gail W. T., Wei, Bin, He, Yujuan, Yu, Hongqian, Liu, Nan, and Zhang, Yingjun

Subjects

CROP yields, PHOSPHATE fertilizers, LEGUME seeds, SOIL quality, STRUCTURAL equation modeling

Abstract

Legume-grass mixtures are often used to increase forage yield and soil fertility in managed grasslands, but it remains unclear whether these benefits could be further improved by utilizing optimal legume-grass seeding ratios and phosphorus (P) fertilization. Here, we conducted a 5-year field experiment across 3 sites to investigate the effects of legume-grass seeding ratio and P fertilization on forage yield and soil quality. This experiment included mixtures comprised of two legume species and two grass species at five legume-grass ratios (3:7, 4:6, 5:5, 6:4, and 7:3), and monoculture of each species. P fertilizer was applied at the rate of 0, 9, 18, or 27 kg P ha-1 year-1. Plant diversity effects, e.g., complementarity and selection effects, were assessed by comparing yield of mixtures with monocultures. Our results show that a legume-grass mixture with a seeding ratio of 3:7 under moderate P fertilization resulted in the highest forage yield among all monocultures and mixtures, for each of the three sites, with persistent and consistent transgressive overyielding. Notably, greater soil organic matter, total nitrogen, enzymatic activity, and microbial biomass were observed with the legume-grass ratio of 3:7, compared to monocultures or other seeding ratios. Structural equation modeling indicated that the legume-grass ratio of 3:7 achieved highest yield through directly improving complementarity effect, and indirectly promoting selection effects because of increased fungal biomass. P fertilization directly enhanced soil nutrient and enzymatic activities, and further improved complementarity effect, resulting in high forage yield and soil quality. These results indicate that forage diversification practices with low legume-grass seeding ratios and moderate P fertilization can simultaneously benefit forage production and soil quality in managed grasslands. Overall, our study suggests that low legume seeding proportion in legume-grass mixtures combined with moderate nutrient management is a useful strategy for sustainable and highly productive managed grasslands. [ABSTRACT FROM AUTHOR]

Published

2024

5. LTspice Modeling for GaN-GIT HEMT Including Cryogenic Temperature.

Author

Maksudul Hossain, Md, Wei, Yuqi, and Alan Mantooth, H.

Published

2024

6. GaN HEMT and Air Core Magnetics based Power Converters Evaluations at Cryogenic Temperature.

Author

Wei, Yuqi, Maksudul Hossain, Md, and Alan Mantooth, H.

Published

2024

7. Defoliation, trampling and nutrient return differentially influence grassland productivity by modulating trait-dependent plant community composition: insights from a simulated grazing experiment.

Author

Guo, Tongtian, Wei, Yuqi, Wei, Bin, Guo, Meiqi, Zheng, Shuxia, Zhang, Yingjun, and Liu, Nan

Subjects

CHEMICAL composition of plants, PLANT communities, DEFOLIATION, ECOLOGICAL disturbances, GRASSLANDS, GRAZING

Abstract

Ungulate grazing involves multiple components, including defoliation, dung and urine return, and trampling, which supply offsetting or synergistic effects on plant community composition and productivity (ANPP), but these effects have not been fully studied. Plant functional traits may reflect the response of plants to disturbance and their impact on ecosystem functions. Species turnover and intraspecific trait variation (ITV) are important drivers of community trait composition. We conducted a simulated grazing experiment in a steppe grassland in northern China to examine the effects of defoliation, dung and urine return, and trampling on community-weighted mean (CWM), functional diversity (FD) and ANPP, and to disentangle the roles of species turnover and ITV in driving these changes. We found that defoliation had a dominant effect on CWMs and FDs of all four traits through species turnover and ITV, respectively, resulting in a convergence of traits towards as more resource-acquisitive strategy. Dung-urine return resulted in more resource-acquisitive community traits mainly through ITV, whereas there were no significant effects on FDs except for leaf C/N. Trampling increased CWM of leaf dry matter content primarily driven by ITV, and had no significant effect on FDs. Furthermore, our simulated grazing positively affected ANPP, primarily due to nutrient additions from dung and urine, and ITV largely explained the variation in ANPP. These findings highlight the multifaceted effects of grazing components on community structure and ANPP, and the significance of ITV in shaping grassland plant communities and productivity. [ABSTRACT FROM AUTHOR]

Published

2024

8. Effect of elasticity on the induced charge electro-osmotic mixing of viscoelastic fluids in a micromixer with a conductive cylinder.

Author

Wei, Yuqi, Xu, Jun, Li, Jie, Yu, Weicheng, and Li, Chi

Subjects

VISCOELASTIC materials, NEWTONIAN fluids, ELASTICITY, PROPERTIES of fluids, ELECTRO-osmosis, MICROCHANNEL flow, ELECTROLYTE solutions

Abstract

Mixing of reagents in microfluidics is critical, and currently, the focus is on Newtonian fluids, but these reagents are often viscoelastic fluids. In this study, a micromixer containing a conductive cylinder is proposed based on the principle of induced charge electro-osmosis (ICEO). The Oldroyd-B constitutive model was chosen to characterize the flow properties of viscoelastic fluids, and the Poisson–Boltzmann model was used to describe the ion distribution in the electrolyte. The impact of the elasticity number (El) of viscoelastic fluids on the mixing efficiency, velocity, and vortex in the micromixer was studied. The results show that the mixing efficiency is only 55.41% when El = 0 (Newtonian fluid), and the mixing efficiency reaches 99.08% when El = 50. As El increases from 0 to 50, the cross-sectional average velocity at 50 μm from the micromixer exit decreases from 160 to 26.1 μm/s. Furthermore, the vortices around the conductive plate generated by the ICEO phenomenon begin to fluctuate at El = 7. [ABSTRACT FROM AUTHOR]

Published

2024

9. Defoliation enhances the positive effects of soil microbial diversity on plant productivity.

Author

Zhang, Ruihuan, Zhou, Ping, Wei, Yuqi, Liu, Nan, and Zhang, Yingjun

Subjects

MICROBIAL diversity, PLANT diversity, DEFOLIATION, PLANT productivity, PRIMARY productivity (Biology), STRUCTURAL equation modeling, LEGUMES, PLATEAUS

Abstract

Defoliation, often induced by herbivores, and soil microbiomes are recognized as key drivers of plant diversity and productivity in grasslands. However, lack of experiments simultaneously manipulating defoliation and soil microbial diversity has constrained our understanding of how these two factors interactively influence both above‐ground and below‐ground net primary productivity (ANPP and BNPP).We employed a soil filtering approach to create the gradient of soil microbial diversity and removal of above‐ground biomass by clipping to simulate defoliation effect from herbivores. Our goal was to investigate how soil microbial diversity affected both ANPP and BNPP under the stress of defoliation.We found that defoliation and soil microbial diversity loss decreased the ANPP and BNPP of the plant community, and Medicago falcata (legume) was more responsive to these treatments than Leymus chinensis (grass) and Artemisia frigida (forb). ANPP was positively correlated with soil microbial richness only when plants suffered defoliation. By contrast, BNPP showed a closer relationship with soil fungal richness than bacteria, and defoliation enhanced this relationship. The structural equation model (SEM) showed that defoliation indirectly regulated ANPP by affecting plant P content, while soil bacterial diversity loss decreased the ANPP through altering plant P and fungal diversity loss directly decreased BNPP. The LEfSe and linear regression analysis revealed that the biomarkers of bacteria (e.g. Actinobacteria, Xanthobacteraceae) and fungi (e.g. Ascomycota, Glomerales) significantly contributed to the variation of ANPP and BNPP under defoliation treatment respectively. Defoliation enhanced phosphorus acquisition by soil microorganisms, further strengthening the microbial regulation of plant productivity.Overall, we provide novel insights on how defoliation enhances the positive effects of soil microbial diversity on above‐ and below‐ground net primary productivity. Our findings highlight that soil microorganisms associated with phosphorus cycling are mobilized to play a more active role in promoting productivity after defoliation. It may provide a new perspective on how to better utilize the role of soil microorganisms in grazed or managed grasslands. Read the free Plain Language Summary for this article on the Journal blog. [ABSTRACT FROM AUTHOR]

Published

2023

10. Induced charge electro-osmotic mixing performance of viscoelastic fluids in microchannels with an electrically conductive plate.

Author

Wei, Yuqi, Chen, Yi, Xu, Jun, and Li, Jie

Subjects

VISCOELASTIC materials, FINITE volume method, MICROCHANNEL flow, ELECTRIC conductivity, CHEMICAL engineering, IRON & steel plates, GREEN business

Abstract

Micromixers have important applications in lab-on-a-chip, biomanufacturing, and chemical engineering. In this study, a micromixer with a conductive barrier plate based on the induced charge electro-osmosis is proposed. The Oldroyd-B constitutive model was chosen to characterize the flow characteristics of viscoelastic fluids, and the Poisson–Boltzmann model was used to characterize the electrokinetic properties. The effects of the installation of the conductive plate, the concentration of the polymer, and the shape of the conductive plate on the mixing were studied based on the finite volume method. The mixing efficiency of the viscoelastic fluids is 78.3% when a non-conductive plate is placed in the micromixer. However, placing a conductive plate increases the mixing efficiency to 89.8%. As the polymer concentration increases, the mixing efficiency increases, which is attributed to the elastic instability. As the curvature of the conductive plate increases from 0° to 360°, the mixing efficiency of the Newtonian fluid increases by 2.82%, while that of the polyacrylamide solutions at concentrations of 100 and 250 ppm increases by 5.31% and 1.97%, respectively. [ABSTRACT FROM AUTHOR]

Published

2023

11. A Nonlinear-Model-Based High-Bandwidth Current Sensor Design for Switching Current Measurement of Wide Bandgap Devices.

Author

Du, Xia, Du, Liyang, Chen, Yuxiang, Wei, Yuqi, Stratta, Andrea, and Mantooth, Homer Alan

Subjects

POWER electronics, CURRENT transformers (Instrument transformer), GALVANIC isolation, MAGNETIC cores, DETECTORS, ELECTRONIC measurements, ELECTRONIC equipment

Abstract

With the growing adoption of wide bandgap devices in power electronic applications, current sensor design for switching current measurement has become more important. The demands for high accuracy, high bandwidth, low cost, compact size, and galvanic isolation pose significant design challenges. The conventional modeling approach for bandwidth analysis of current transformer sensors assumes that the magnetizing inductance remains constant, which does not always hold true in high-frequency operations. This can result in inaccurate bandwidth estimation and affect the overall performance of the current sensor. To address this limitation, this paper provides a comprehensive analysis of nonlinear modeling and bandwidth, considering the varying magnetizing inductance in a wide frequency range. A precise and straightforward arctangent-based fitting algorithm was proposed to accurately emulate the nonlinear feature, and the fitting results were compared with the magnetic core's datasheet to confirm its accuracy. This approach contributes to more accurate bandwidth prediction in field applications. In addition, the droop phenomenon of the current transformer and saturation effects are analyzed in detail. For high-voltage applications, different insulation methods are compared and an optimized insulation process is proposed. Finally, the design process is experimentally validated. The bandwidth of the proposed current transformer is around 100 MHz and the cost is around $20, making it a low-cost and high-bandwidth solution for switching current measurements in power electronic applications. [ABSTRACT FROM AUTHOR]

Published

2023

12. Repeated litter inputs promoted stable soil organic carbon formation by increasing fungal dominance and carbon use efficiency.

Author

Wei, Yuqi, Xiong, Xue, Ryo, Masahiro, Badgery, Warwick B., Bi, Yixian, Yang, Gaowen, Zhang, Yingjun, and Liu, Nan

Subjects

CARBON in soils, SOIL formation, SOIL fungi, MICROBIAL growth, FOREST litter, MICROBIAL communities

Abstract

Plant carbon (C) input via litter decomposition is essential for forming soil organic C (SOC). Previous studies have investigated the fate of litter C through one-time litter addition, while litter input could be recurrent, e.g., gradual litter input from above-ground plant material in diverse ecosystems. This paper investigates how litter input's frequency (single vs. repeated) and amount (low vs. high) affect the SOC formation and the associated microbial community composition and activity in a controlled microcosm experiment. After incubating the 13C-labeled litter (Stipa krilovii) for 80 days with the fresh field soil collected from a semi-arid steppe in Inner Mongolia, China, we measured newly formed SOC, microbial biomass C (MBC), and microbial phospholipid fatty acid (PLFA) indicated by 13C-labeling. The repeated litter addition resulted in 19.92% greater and 12.45% more efficient SOC formation than the single addition. Repeated litter addition also increased C use efficiency (CUE, + 76.71%), indicating more substrate C allocated for microbial growth than respiration. It also enhanced the fungi to bacteria ratio by 47.40% (based on 13C-PLFA) and maintained relatively stable microbial assimilation of litter C (based on 13C-MBC). These findings were consistent regardless of litter amounts. Our results indicate that the uninterrupted litter input to the soil in natural ecosystems benefits SOC formation and highlights soil fungi's critical role in promoting SOC formation. This study suggests that incorporating plant C input frequency into SOC dynamic models may improve the predictions of C cycling. [ABSTRACT FROM AUTHOR]

Published

2022

13. Multi-period two-stage DEA model: measuring performance of integrated production and service systems in Chinese cable TV industry.

Author

Wang, Xianmei, Hu, Hanhui, and Wei, Yuqi

Subjects

CABLE television, STREAMING video & television, DATA envelopment analysis, PANEL analysis

Abstract

The performance of the provincial cable television (CATV) industry in China has become one of the main points of interest as competition in this market intensifies and policy making gradually moves from the central to the provincial level with the introduction of Internet Protocol Television (IPTV) and Over the Top (OTT). The CATV industry has two different vertically integrated activities: program production and service transmitting. In this paper, we develop a dynamic framework to describe an integrated system aiming to reflect the operation process of the CATV industry. Considering the service transmitting division further affects the program production division in the following period, this paper proposes a multi-period two-stage DEA model with feedback structures between service transmitting stage in the current period and program production stage in the next period to evaluate the relative performance. Detailed empirical results are presented from a panel data set of Chinese CATV industry from 2010 to 2019, covering two Five-Year Plans. [ABSTRACT FROM AUTHOR]

Published

2022

14. Mixing performance of the induced charge electro-osmosis micromixer with conductive chamber edges for viscoelastic fluid.

Author

Chen, Yi, Lv, Zhuoyao, Wei, Yuqi, and Li, Jie

Subjects

VISCOELASTIC materials, ELECTRO-osmosis, MICROCHANNEL flow, ELECTRIC fields, POLYACRYLAMIDE

Abstract

Enhancing the micro-channel flow mixing is always a difficult problem. In this study, a micromixer based on induced charge electro-osmosis is proposed. A T-shaped micromixer, which has a chamber with conductive surfaces in the channel, is chosen. Due to the electro-osmotic effect of the induced charge, the induced potential is generated on the conductive surface. The Oldroyd-B constitutive model is chosen to characterize the flow characteristics of polyacrylamide solution, and an open-source solver named rheoTool based on the finite-volume method is used. The effect of the chamber shape, the chamber size, the conductive edge numbers in the chamber, and the applied electric intensity on the mixing efficiency are investigated. The results show that the micromixer with conductive edges in the chamber has better mixing effect because of the vortices. At the same time, compared with other shapes, the micromixer with diamond chamber has the best mixing effect, and the mixing efficiency reaches 79.51%. In addition, the mixing efficiency of one conductive edge in the diamond chamber is 4.39% higher than that of the two conductive edges chamber. It is found that increasing the chamber size will improve the mixing efficiency, and the mixing efficiency increased by 12.76% with the increase in chamber size. On the other hand, when increasing the electric field intensity from 100 to 200 V/cm, the mixing efficiency will decrease. [ABSTRACT FROM AUTHOR]

Published

2022

15. Mowing Facilitated Shoot and Root Litter Decomposition Compared with Grazing.

Author

Zhang, Shuzhen, Wei, Yuqi, Liu, Nan, Wang, Yongqi, Manlike, Asiya, Zhang, Yingjun, and Zhang, Bo

Abstract

Shoot and root litter are two major sources of soil organic carbon, and their decomposition is a crucial nutrient cycling process in the ecosystem. Altitude and land use could affect litter decomposition by changing the environment in mountain grassland ecosystems. However, few studies have investigated the effects of land use on litter decomposition in different altitudes. We examined how land-use type (mowing vs. grazing) affected shoot and root litter decomposition of a dominant grass (Bromus inermis) in mountain grasslands with two different altitudes in northwest China. Litterbags with 6 g of shoot or root were fixed in the plots to decompose for one year. The mass loss rate of the litter, and the environmental attributes related to decomposition, were measured. Litter decomposed faster in mowing than grazing plots, resulting from the higher plant cover and soil moisture but lower bulk density, which might promote soil microbial activities. Increased altitude promoted litter decomposition, and was positively correlated with soil moisture, soil organic carbon (SOC), and β-xylosidase activity. Our results highlight the diverse influences of land-use type on litter decomposition in different altitudes. The positive effects of mowing on shoot decomposition were stronger in lower than higher altitude compared to grazing due to the stronger responses of the plant (e.g., litter and aboveground biomass) and soil (e.g., soil moisture, soil bulk density, and SOC). Soil nutrients (e.g., SOC and soil total nitrogen) seemed to play essential roles in root decomposition, which was increased in mowing plots at lower altitude and vice versa at higher altitude. Therefore, grazing significantly decreased root mass loss at higher altitude, but slightly increased at lower altitude compared to mowing. Our results indicated that the land use might variously regulate the innate differences of the plant and edaphic conditions along an altitude gradient, exerting complex impacts in litter decomposition and further influencing carbon and nutrient cycling in mountain grasslands. [ABSTRACT FROM AUTHOR]

Published

2022

16. Comprehensive Optimization Modulation Scheme of Low Current Level and Wide ZVS Range for Dual Active Bridge Converter With Dead-Zone Control.

Author

Li, Jia, Luo, Quanming, Mou, Di, Wei, Yuqi, and Zhang, Xinyue

Subjects

ZERO voltage switching, BRIDGE circuits, PHASE modulation, ZERO current switching

Abstract

Due to the contradiction between [ABSTRACT FROM AUTHOR]

Published

2022

17. A Hybrid Five-Variable Modulation Scheme for Dual-Active-Bridge Converter With Minimal RMS Current.

Author

Li, Jia, Luo, Quanming, Mou, Di, Wei, Yuqi, Sun, Pengju, and Du, Xiong

Subjects

PARTICLE swarm optimization, ROOT-mean-squares, MATHEMATICAL optimization, HARMONIC analysis (Mathematics), PHASE modulation, ZERO voltage switching

Abstract

In order to further improve the efficiency of dual-active-bridge (DAB) converter, a hybrid five-variable modulation scheme with minimal root mean square (rms) current is proposed in this article, which combines the traditional phase-shift and pulsewidth modulation schemes. By adopting the proposed optimal scheme, a wider zero-voltage switching (ZVS) operation range and lower rms current level are achieved simultaneously when compared with other modulation schemes, which significantly improves the efficiency of the DAB converter. Moreover, for the complexity of the proposed modulation scheme with five variables, the Fourier decomposition based analytical expressions are derived for the converter and a generalized performance analysis results are presented. Besides, in order to avoid the analysis error, especially at light-load condition, the optimization strategy takes the rms current as the optimal objective, which includes the eight harmonic component of the inductor current rather than just considers the fundamental component. And an offline particle swarm optimization algorithm is introduced to acquire the optimal operating points for the whole power range. To substantiate the effectiveness of the proposed modulation scheme, a comprehensive comparison among related works in terms of the rms value and ZVS range were carried out under various operation condition. Finally, a 1.2 kW experimental platform was built and the highest experimental efficiency under the proposed modulation scheme reaches 96.8%. [ABSTRACT FROM AUTHOR]

Published

2022

18. A Variable Inductor Controlled Single-Stage AC/DC Converter for Modular Multi-Channel LED Driver.

Author

He, Qingqing, Luo, Quanming, Wei, Yuqi, and Sun, Pengju

Subjects

LIQUID crystal displays, ELECTRIC current rectifiers, MULTICHANNEL communication, STREET lighting, ZERO voltage switching, LIGHT emitting diodes, COST control

Abstract

Light-emitting diodes (LEDs) are widely used in street lighting, landscape lighting, liquid crystal display (LCD) backlighting, healthcare, etc. As an important part of LED lighting products, LED driver plays a vital role in maintenance costs reduction, energy saving and lifetime prolongation. In this paper, a single-stage LED driver is proposed, which is integrated by a totem-pole bridgeless power factor correction (PFC) unit and several modular LCL-T resonant rectifiers. The totem-pole bridgeless PFC unit and the LCL-T resonant rectifiers are integrated by sharing switches, which can simplify the circuit and reduce the system cost. The output current can be regulated by applying the variable inductor control. Constant duty cycle and fixed switching frequency operation can be achieved as well. The operating principle and the performance of the proposed converter are analyzed in this paper. In addition, a precise parameter design method is proposed by considering the high-order harmonics. At last, an experimental prototype is established to validate the proposed parameter design and variable inductor control method. [ABSTRACT FROM AUTHOR]

Published

2021

19. An LLC Converter With Multiple Operation Modes for Wide Voltage Gain Range Application.

Author

Wei, Yuqi, Luo, Quanming, and Mantooth, H. Alan

Subjects

VOLTAGE, DC-to-DC converters, HIGH voltages, ACTIVE medium, LOW voltage systems, VOLTAGE control

Abstract

Although LLC converters are attractive in industrial applications due to its advantages of soft switching, high efficiency, and simple control, in wide voltage gain range applications, large switching frequency operating range is required, which may cause the loss of soft switching operation and existence of control instability issue. In this article, a novel LLC converter with two LLC resonant tanks is proposed. The proposed converter has three operation modes, namely, dual full-bridge operation mode, full-bridge operation mode, and half-bridge operation mode, which can cover the high voltage gain range, medium voltage gain range, and low voltage gain range operations, respectively. The operational principles of the proposed converter are presented, and brief design considerations are discussed. A 250 W experimental prototype with six times input voltage range (50–300 V) was built to validate the theoretical analysis of the proposed converter. Comparisons among different LLC topologies for wide voltage gain range applications are made. [ABSTRACT FROM AUTHOR]

Published

2021

20. Hybrid Control Strategy for LLC Converter With Reduced Switching Frequency Range and Circulating Current for Hold-Up Time Operation.

Author

Wei, Yuqi, Luo, Quanming, and Mantooth, Alan

Subjects

PULSE frequency modulation, DC-to-DC converters, ZERO voltage switching, POWER resources, POWER density

Abstract

Hold-up time operation is a crucial requirement for distributed power systems and server power supplies. LLC resonant converter is widely used in these applications due to its high efficiency and power density characteristics. Conventional pulse frequency modulation (PFM)-controlled inductor-inductor-capacitor (LLC) resonant converter requires a wide switching frequency operation range to satisfy the hold-up requirement. In this article, a novel control scheme is proposed for stacked structure LLC resonant converter. During the normal operation, the frequency doubler modulation strategy is adopted to reduce the switching loss and driving loss, and the output is regulated by PFM. During the hold-up time operation, the pulsewidth modulation is adopted to increase the system voltage gain, where the switching frequency is fixed during this operation stage. For the proposed converter, the resonant tank parameters are designed at the nominal operation point, and the only design consideration for the magnetizing inductor is the zero-voltage switching for primary switches. Therefore, compared with PFM-LLC, both the switching frequency operating range and the circulating current are reduced, and high efficiency feature is obtained. Finally, a 100-W experimental prototype with input voltage range of 160–340 V was built to validate the advantages of the proposed converter. [ABSTRACT FROM AUTHOR]

Published

2021

21. The Sustained Oscillation Modeling and Its Quantitative Suppression Methodology for GaN Devices.

Author

Chen, Jian, Luo, Quanming, Wei, Yuqi, Zhang, Xinyue, and Du, Xiong

Subjects

GALLIUM nitride, OSCILLATIONS, POWER electronics, MODULATION-doped field-effect transistors, PULSE circuits

Abstract

Gallium nitride (GaN) devices are widely used due to their excellent performance when integrated into power electronics applications. However, owing to their low parasitic parameters and fast switching speed, they are more prone to instability than the silicon devices. The sustained oscillation discussed in this article is one of the instability problems, which may result in overshoot or even more serious device breakdown; thus, it is pretty necessary to suppress it effectively in practical applications. It is the first time to adopt an RC snubber to suppress the sustained oscillation in this article, which is very simple and cheap but effective. First, the sustained oscillation modeling based on a double pulse circuit is carried out. Then, the RC region is established quantitatively according to the root locus analysis results, which makes up for the defects of these qualitative methods before. Furthermore, it is first found that the sustained oscillation can be fully suppressed due to the existence of dipoles. Finally, the oscillation suppression effect within the RC region is compared with that outside the region by the simulation and experimental results, which are consistent with the theoretical analysis. Additionally, the possible negative influence of the added RC snubber is also discussed in this article, which shows that it has a little impact on the switching speed and energy loss, while the sustained oscillation is well suppressed. [ABSTRACT FROM AUTHOR]

Published

2021

22. Performance evaluation of NBA teams: A non-homogeneous DEA approach.

Author

Yang, Min, Wei, Yuqi, Liang, Liang, Ding, Jingjing, and Wang, Xianmei

Subjects

BASKETBALL, TEAMS, ATHLETIC leagues, ATHLETES, DATA envelopment analysis

Abstract

National Basketball Association (NBA) is one of the four major sports leagues in North America. The performance evaluation of NBA teams is an important reference for team managers. However, non-homogeneity issues exist on both inputs and outputs sides for NBA teams evaluations. For example, some teams do not have "high-level" players as inputs and some teams are not qualified to play in the playoffs with respect to "wins in the playoffs" as an output. The current paper extends the existing non-homogeneous DEA method to address the non-homogeneous structure of NBA teams in performance evaluation by splitting NBA teams into types of homogeneous sub-units. The sub-unit, in this paper, consists of empirical input subset and output subset which satisfies both atomic property and maximum property. In addition, our method yields a unique efficiency decomposition of sub-units of NBA teams in 2018–2019 season without the need for imposing any additional conditions which are needed in some prior relative researches. As a result, detailed performance improvement directions for all teams can be provided. [ABSTRACT FROM AUTHOR]

Published

2021

23. Transformer Secondary Voltage Based Resonant Frequency Tracking for LLC Converter.

Author

Wei, Yuqi, Luo, Quanming, Wang, Zhiqing, and Mantooth, Alan

Abstract

Unregulated LLC resonant converters operating at resonant frequency have been adopted in numerous applications due to its high efficiency characteristic. However, in practice, resonant frequency operation cannot always be guaranteed due to the tolerances and variations of circuit parameters. Therefore, in this brief, a simple resonant frequency tracking method based on the transformer secondary voltage is proposed. When LLC converter operating in the below resonant frequency region, the ratio of the average transformer secondary voltage and output voltage is less than unity, while the ratio is unity at resonant frequency. By adopting this characteristic, the resonant frequency tracking is achieved by comparing the calculated voltage ratio and unity, then the switching frequency is adjusted to track the resonant frequency. To reduce the sampling circuit complexity, the rectified transformer secondary voltage is sensed, and the voltage ratio becomes 0.5 at resonant frequency. The effectiveness of the proposed resonant frequency tracking method has been experimentally validated under different scenarios. [ABSTRACT FROM AUTHOR]

Published

2021

24. Optimal Asymmetric Duty Modulation to Minimize Inductor Peak-to-Peak Current for Dual Active Bridge DC–DC Converter.

Author

Mou, Di, Luo, Quanming, Wang, Zhiqing, Li, Jia, Wei, Yuqi, Shi, Haochen, and Du, Xiong

Subjects

DC-to-DC converters, ROOT-mean-squares, OVERVOLTAGE, ZERO voltage switching, BRIDGE circuits

Abstract

Asymmetric duty modulation (ADM), as a recently proposed modulation scheme, provides new chance to improve the performance of dual active bridge (DAB) converter. On this basis, an optimal ADM (OADM) scheme is proposed in this article to minimize the inductor peak-to-peak current over the whole voltage and power range. First, the DAB converter adopting ADM scheme is analyzed in frequency-domain and time-domain, and four operating modes are established. Then, the minimum peak-to-peak inductor current for each operating mode is obtained under Karush–Kuhn–Tucker condition, and the corresponding optimal closed-loop control with low calculation complexity is derived. Then, the key values and features of the OADM scheme are compared with recent state of the art, mainly including the inductor root mean square current and soft-switching performance. Finally, an experimental prototype was built to validate the efficiency enhancement of the converter by adopting the proposed OADM scheme. [ABSTRACT FROM AUTHOR]

Published

2021

25. Hybrid Duty Modulation for Dual Active Bridge Converter to Minimize RMS Current and Extend Soft-Switching Range Using the Frequency Domain Analysis.

Author

Mou, Di, Luo, Quanming, Li, Jia, Wei, Yuqi, Wang, Zhiqing, Sun, Pengju, Du, Xiong, and Mantooth, H. Alan

Subjects

ROOT-mean-squares, PHASE modulation, FREQUENCY-domain analysis, ZERO voltage switching, SOFT sets, BRIDGE circuits

Abstract

In this article, an efficiency-oriented hybrid duty modulation (HDM) scheme is proposed for the dual active bridge (DAB) converter that can reduce the inductor root-mean-square (rms) current and extend the switch soft-switching range. First, a complete description of the combination forms of different modulation schemes is presented considering the allocation of the zero-voltage portion. A unified description for these combination forms is obtained in the frequency domain. Second, the symmetric–symmetric duty modulation (SSDM) scheme and asymmetric–symmetric duty modulation (A2SDM) scheme are established to minimize the inductor rms current by considering its fundamental component. Third, the characteristics of SSDM, A2SDM, and the traditional phase shift modulation schemes are compared from several aspects, mainly including the inductor rms current and the soft-switching performance. Furthermore, the loss breakdown analysis results for the three modulation schemes are presented and compared. According to these results, the HDM scheme is proposed to improve the overall efficiency of the DAB converter. Finally, an experimental prototype was built with a peak efficiency of 97%, which validates the effectiveness of the proposed modulation scheme. [ABSTRACT FROM AUTHOR]

Published

2021

26. A Complete Step-by-Step Optimal Design for LLC Resonant Converter.

Author

Wei, Yuqi, Luo, Quanming, Wang, Zhiqing, and Mantooth, Homer Alan

Subjects

ZERO voltage switching, ROOT-mean-squares, TIME-domain analysis, GRAPHICAL user interfaces

Abstract

LLC resonant converters have been widely used in many different industrial applications. Analysis and design methodologies have great effect on the converter performance. Accordingly, a complete step-by-step optimal design methodology based on time-domain analysis has been proposed for an LLC resonant converter in this article. The proposed design methodology is implemented under the worst operation condition, and the following considerations are included to obtain the suitable design area: operation mode; voltage stress for resonant capacitor; zero voltage switching operation for primary switches; and resonant tank root-mean-square current. Then, by finding all possible design candidates and comparing them based on the power loss model, the optimized design candidate can be found. Compared with the existing design methodologies, the proposed one has the advantages of high accuracy and small computation requirement, which makes it application in industry possible. Finally, a 192-W experimental prototype was built to validate the effectiveness of the proposed design methodology. In addition, a MATLAB graphical user interference program was built based on the proposed design methodology to visualize and facilitate the design process for engineers. [ABSTRACT FROM AUTHOR]

Published

2021

27. Analysis and design of LLC resonant converter with variable magnetising inductance control.

Author

Wei, Yuqi, Luo, Quanming, Chen, Jian, and Alan Mantooth, Homer

Abstract

A conventional pulse frequency modulation (PFM) controlled LLC resonant converter requires a wide switching frequency operating range to regulate the output voltage. There are some disadvantages of PFM LLC resonant converters: (i) the design and optimisation of magnetic components and gate driver circuitry are challenging; (ii) due to the variable switching frequency operating range, electro‐magnetic interference performance of the converter is degraded; (iii) efficiency degradation; (iv) inability to achieve independent control in multiple‐output applications. To address the above‐mentioned problems and achieve fixed switching frequency operation, a variable magnetising inductance control (VMIC) strategy is proposed. In the proposed VMIC control strategy, the operating switching frequency of the primary switch is fixed and the duty cycle remains constant at 0.5. At the resonant frequency operating point, the output voltage is independent of both the magnetising inductance and load. In addition, the zero current turn‐off operation of the secondary rectifier requires that the switching frequency be designed below the resonant frequency. The operational principles and design considerations of the LLC resonant converter with VMIC are presented. Experimental results from a 200 W prototype are presented to validate the theoretical analysis and the effectiveness of the proposed VMIC control strategy. [ABSTRACT FROM AUTHOR]

Published

2020

28. A Fault-Tolerant Hybrid Cascaded H-Bridge Multilevel Inverter.

Author

Mhiesan, Haider, Wei, Yuqi, Siwakoti, Yam P., and Mantooth, H. Alan

Subjects

BATTERY storage plants, FAULT diagnosis, RELIABILITY in engineering

Abstract

The cascaded H-bridge (CHB) inverter is one of the most attractive multilevel topologies for renewable energy applications. Due to the fact that CHB inverters employ a large number of components, they suffer from a higher probability of fault, which reduces the system reliability. A fault-tolerant operation for a CHB inverter is described in this article. New features ensure reliable and robust operation of the converter in the event of a fault. The proposed strategy uses an additional cross-coupled CHB (X-CHB) unit in companion with the existing CHB units to support the output voltage and ensure continuity of operation in the event of an open/short-circuit fault. The operation of the proposed X-CHB inverter is described in detail. Simulation and experimental verification of the proposed concept are demonstrated using a seven-level CHB. Both simulation and experimental results confirm the fault-tolerant operation of the X-CHB for a battery energy storage system in case of switch faults. [ABSTRACT FROM AUTHOR]

Published

2020

29. Wide voltage gain range application for full-bridge LLC resonant converter with narrow switching frequency range.

Author

Wei, Yuqi, Luo, Quanming, Wang, Zhiqing, and Mantooth, Alan

Subjects

ZERO current switching, ZERO voltage switching

Abstract

In wide voltage range applications, traditional LLC converters suffer from the following issues: (i) to cover a wide voltage gain operating range, the required switching frequency range is also large, which challenges the design and optimisation of magnetic components, gate driver circuitry, and electro-magnetic interference filter; (ii) a small magnetising inductance is preferred in wide voltage gain range application, which leads to the increase of circuit circulating current and corresponding conduction loss; (iii) passive elements are determined based on the minimum switching frequency, so bulky passive elements are required to satisfy the required operation range. To solve these problems, in this study, a full-bridge LLC (FBLLC) resonant converter with two operation modes, namely full-bridge operation and frequency doubler operation, is proposed for wide voltage gain range application. The FBLLC converter discussed in this study can be designed in half of the input voltage range when compared with the conventional method, so smaller switching frequency operating range and higher efficiency operation are guaranteed. In addition, the smooth mode transition is achieved by introducing switching frequency feedforward control and small output voltage overshoot or undershoot is observed. A 150 W experimental prototype was built to validate the theoretical analysis. [ABSTRACT FROM AUTHOR]

Published

2020

30. Wide voltage gain range application for full‐bridge LLC resonant converter with narrow switching frequency range.

Author

Wei, Yuqi, Luo, Quanming, Wang, Zhiqing, and Mantooth, Alan

Abstract

In wide voltage range applications, traditional LLC converters suffer from the following issues: (i) to cover a wide voltage gain operating range, the required switching frequency range is also large, which challenges the design and optimisation of magnetic components, gate driver circuitry, and electro‐magnetic interference filter; (ii) a small magnetising inductance is preferred in wide voltage gain range application, which leads to the increase of circuit circulating current and corresponding conduction loss; (iii) passive elements are determined based on the minimum switching frequency, so bulky passive elements are required to satisfy the required operation range. To solve these problems, in this study, a full‐bridge LLC (FBLLC) resonant converter with two operation modes, namely full‐bridge operation and frequency doubler operation, is proposed for wide voltage gain range application. The FBLLC converter discussed in this study can be designed in half of the input voltage range when compared with the conventional method, so smaller switching frequency operating range and higher efficiency operation are guaranteed. In addition, the smooth mode transition is achieved by introducing switching frequency feedforward control and small output voltage overshoot or undershoot is observed. A 150 W experimental prototype was built to validate the theoretical analysis. [ABSTRACT FROM AUTHOR]

Published

2020

31. Topology Analysis and Review of Three-Port DC–DC Converters.

Author

Wang, Zhiqing, Luo, Quanming, Wei, Yuqi, Mou, Di, Lu, Xinlei, and Sun, Pengju

Subjects

DISTRIBUTED power generation, CASCADE converters, DC-to-DC converters, GALVANIC isolation, PHOTOVOLTAIC power systems, TOPOLOGY, POWER transmission

Abstract

In order to realize power flow control among photovoltaic (PV) panel port, battery port, and load port in the distributed photovoltaic power generation system, integrated three-port dc–dc converters (TPCs) are widely adopted. The objective of this article is to provide a comprehensive, comparative, and insightful analysis and overview of these TPCs. First, based on the power transmission and control requirements of the system, five topological structures of three-port dc–dc conversion system (TPCS) composed of two or three two-port dc–dc converters are presented. And the five structures are comparatively analyzed. Second, based on these topological structures, and combing with the basic two-port dc–dc converters, three groups of typical TPCs with different galvanic isolation requirements are derived, respectively, by sharing switches, combining branches, etc., And comprehensive analysis, comparisons, and reviews of these TPCs with different structures of each isolation type are presented with tables and figures. Finally, the comparison results of the three isolation groups are summarized, which leads to a guidance for the selection of TPCs in different applications, and then some suggestions for the future research on TPCs are given. [ABSTRACT FROM AUTHOR]

Published

2020

32. Overview of Modulation Strategies for LLC Resonant Converter.

Author

Wei, Yuqi, Luo, Quanming, and Mantooth, Alan

Abstract

In this article, based on the LLC resonant converter fundamental harmonic analysis model, the modulation strategies for LLC resonant converter can be categorized into the following three groups: 1) input voltage fundamental harmonic modulation; 2) resonant tank elements modulation; and 3) secondary equivalent impedance modulation. Operational principles and control diagrams for different modulation strategies are given. Comprehensive comparisons between these modulation strategies in terms of topology complexity, control complexity, and voltage gain range are presented with respect to the same system specifications. The advantages and disadvantages for each modulation strategy are summarized to provide guidance for engineers when analyzing and designing an LLC resonant converter. The hybrid modulation strategies are categorized into different groups based on the specific applications. Brief introductions of these hybrid modulation strategies are presented. Future trends regarding the modulation strategies of LLC resonant converters are presented. [ABSTRACT FROM AUTHOR]

Published

2020

33. A Magnetically Controlled Single-Stage AC–DC Converter.

Author

Wei, Yuqi, Luo, Quanming, Alonso, J. Marcos, and Mantooth, Alan

Subjects

AC DC transformers, LINE drivers (Integrated circuits), SEMICONDUCTOR switches, VOLTAGE-frequency converters, CORRECTION factors, ELECTRIC current rectifiers, MAGNETIC control

Abstract

In this letter, a magnetically controlled single-stage ac–dc converter is proposed for low-power application which has the following features. First, single-stage operation is achieved by sharing switches between LLC resonant converter and totem-pole bridgeless power factor corrector (PFC) converter. Second, the power factor correction function is inherently achieved by designing the PFC converter to operate in discontinuous conduction mode. Third, the dc-link voltage is almost constant. Fourth, fixed switching frequency and duty cycle can be implemented for the switches, which simplifies the magnetic component and driver circuit design. Fifth, the LLC resonant converter is designed to operate at series resonant frequency, the highest efficiency operating point, so the converter can always achieve the maximum efficiency operation. Meanwhile, at this operating point, the converter output voltage is independent of the load so that it is functioning as a dc transformer; and finally, soft switching for all semiconductors is achieved. A 75-W experimental prototype is built to validate the proposed magnetically controlled single-stage ac–dc converter [ABSTRACT FROM AUTHOR]

Published

2020

34. Analysis and Design of the LLC Resonant Converter With Variable Inductor Control Based on Time-Domain Analysis.

Author

Wei, Yuqi, Luo, Quanming, Du, Xiong, Altin, Necmi, Alonso, J. Marcos, and Mantooth, Homer Alan

Subjects

ZERO current switching, ZERO voltage switching, ELECTRIC current rectifiers, MAGNETIC control, HARMONIC analysis (Mathematics)

Abstract

The LLC resonant converters commonly adopt frequency modulation (FM) or combination of FM with phase-shift modulation to regulate its output voltage. However, in these control schemes, a variable switching frequency range is required, which makes the magnetic components design complicated. Therefore, in this article, magnetic control (or variable inductor control) is adopted to make the converter operating at constant switching frequency and constant duty cycle. The fundamental harmonic analysis is commonly used because of its characteristic of simplicity. However, the accuracy of this method is reduced and considerable errors occur when the switching frequency or output power changes. Therefore, an optimal design methodology based on time-domain analysis of the LLC resonant converter with magnetic control is proposed in this article. The proposed methodology can assure that the converter will operate in PO or OPO modes within the whole operating range, and zero voltage switching operation for primary switches and zero current switching operation for secondary rectifier will be guaranteed. In addition, by limiting the resonant tank root-mean-square current, the system efficiency is improved. A 200-W experimental prototype is built and the effectiveness of the proposed optimal design methodology is verified. [ABSTRACT FROM AUTHOR]

Published

2020

35. Comprehensive comparisons between frequency-domain analysis and time-domain analysis for LLC resonant converter.

Author

Wei, Yuqi, Luo, Quanming, and Mantooth, Alan

Subjects

FREQUENCY-domain analysis, EQUATIONS of state, TANKS, ELECTRIC inductance, TECHNICAL specifications

Abstract

LLC resonant converter has been widely used in many applications due to its characteristics of high efficiency and high frequency characteristics. Analysis method plays great role in converter design and operation performance. For LLC resonant converter, the most frequently used analysis methods are frequency-domain analysis (FDA) and time-domain analysis (TDA). FDA assumes that only fundamental harmonics can deliver energy in the system, while TDA is obtained by solving circuit state equations. In this study, comprehensive and complete comparisons between FDA and TDA in terms of analysis methodology, parameter design, analysis accuracy, conduction loss, other power losses, and system efficiency are implemented. The analysis and comparison results show that under the same system specifications, by adopting TDA, a larger magnetising inductance value can be used when compared with FDA, which will reduce the resonant tank circulating current and increase the system efficiency. The comprehensive analysis can provide guidance for engineers when analysing and designing LLC resonant converter. Finally, a 200 W experimental prototype was built and tested to verify the theoretical analysis. [ABSTRACT FROM AUTHOR]

Published

2020

36. A Dual Half-Bridge LLC Resonant Converter With Magnetic Control for Battery Charger Application.

Author

Wei, Yuqi, Luo, Quanming, Du, Xiong, Altin, Necmi, Nasiri, Adel, and Alonso, J. Marcos

Subjects

MAGNETIC control, BATTERY chargers, ZERO current switching, ZERO voltage switching, AC DC transformers, ELECTRIC potential

Abstract

In this paper, a dual half-bridge LLC resonant converter with magnetic control is proposed for the battery charger application. The primary switches are shared by two LLC resonant networks, and their outputs are connected in series. One of the LLC resonant converters is designed to operate at the series resonant frequency, which is also the highest efficiency operating point, and the constant output voltage characteristic is achieved at this operating point. The second LLC resonant converter adopts magnetic control to regulate the total output current and voltage during both constant current charge mode and constant voltage charge mode. Meanwhile, the function decoupling idea is adopted to further improve the system efficiency. The significant amount of the power is handled by the LLC resonant converter operating at the series resonant frequency, whereas the second LLC resonant converter fulfills the responsibility to achieve closed-loop control. By carefully designing the resonant networks, the zero-voltage switching for primary switches and zero-current switching for secondary diodes can be achieved for whole operation range. A 320-W experimental prototype is built to verify the theoretical analysis, and the maximum efficiency is measured about 95.5%. [ABSTRACT FROM AUTHOR]

Published

2020

37. Genome‐Wide Analysis of DNA Methylation and Antituberculosis Drug‐Induced Liver Injury in the Han Chinese Population.

Author

Huai, Cong, Wei, Yuqi, Li, Mo, Zhang, Xiaoqing, Wu, Hao, Qiu, Xiaoyan, Shen, Lu, Chen, Luan, Zhou, Wei, Zhang, Na, Zhu, Guanghui, Zhang, Ying, Zhang, Zhiruo, He, Lin, and Qin, Shengying

Subjects

DNA analysis, DNA methylation, LIVER injuries, METHYLATION, TUBERCULOSIS

Abstract

Tuberculosis (TB) is one of the most prevalent infections. However, anti‐TB drugs induce adverse liver injury in up to 40% of patients. Studies on candidate genes have suggested that single‐nucleotide polymorphisms account for only a small contribution to the occurrence of anti‐TB drug‐induced liver injury (ATLI). In this study, whole‐genome DNA methylation analysis was performed to systematically screen the ATLI‐associated factors in a 49 vs. 51 case‐control population. Next, 34 identified candidate probes were validated using MassARRAY in 296 cases and 288 controls. Our results indicated that 12 CpG sites on seven probes were positively associated with ATLI risk. Furthermore, we applied a CRISPR/Cas9‐mediated methylation modifiable cell model and demonstrated that four CpGs in or near the gene region of AK2,SLC8A2, and PSTPIP2 affected the cellular response to rifampicin treatment. This study provides new biomarkers associated with ATLI occurrence. [ABSTRACT FROM AUTHOR]

Published

2019

38. Research on Topology of the High Step-Up Boost Converter With Coupled Inductor.

Author

Chen, Si, Zhou, Luowei, Luo, Quanming, Gao, Wei, Wei, Yuqi, Sun, Pengju, and Du, Xiong

Subjects

ELECTRIC network topology, TOPOLOGY, PHOTOVOLTAIC cells, FUEL cells, QUANTITATIVE research

Abstract

High step-up boost converters with coupled inductor have attracted much attention in the fuel cell or photovoltaic grid-connected generation system, however, there are few literatures elaborated on the construction ideas and derivation methods of them. Accordingly, in order to obtain a clear roadmap on the derivation and inner connection of these converters, a comprehensive review and analysis are presented in this paper. First, the basic boost converter with coupled inductor is regarded as the basic topology, and its merits and demerits are analyzed in detail. Then, in order to address these demerits, various step-up techniques are introduced, such as the rectifier circuit, the active-clamped circuit, the multi-winding coupled inductor, and the voltage doubler rectifier; and numerous new topologies are continuously proposed by combinations and equivalent simplifications. In addition to a detailed synthesis of each topology, a comparative and quantitative analysis among some important converters is presented, and the optimal one is chosen to build a 250 W prototype. Finally, based on comparisons and analysis, the main characteristics and inner connections of these high step-up boost converters with coupled inductor are identified and clarified. [ABSTRACT FROM AUTHOR]

Published

2019

39. Centralized fixed cost and resource allocation considering technology heterogeneity: a DEA approach.

Author

Ding, Tao, Chen, Ya, Wu, Huaqing, and Wei, Yuqi

Subjects

OVERHEAD costs, RESOURCE allocation, HETEROGENEITY, DATA envelopment analysis, MATHEMATICAL models, DIGITAL divide, DECISION making

Abstract

Many studies have concentrated on fixed cost and resource allocation issues by using data envelopment analysis (DEA). The existing approaches allocate fixed cost or resource primary based on efficiency principle. They usually assume that all of the DMUs become efficient after fixed cost or resource allocation. However, due to the existing of technology heterogeneity among DMUs, it is impractical for all the DMUs to achieve a common technology level, especially when some DMUs are far from the efficient frontier. In this paper, under the centralized decision environment, we present a new approach to deal with fixed cost and resource allocation problems by considering the factor of technology heterogeneity. Specifically, the concepts of meta-efficiency and group efficiency as well as meta-technology ratio are firstly introduced to reflect the technology level of the DMUs. Then two centralized DEA models considering technology heterogeneity are proposed to allocate fixed cost and resources, respectively. Finally, two numerical examples are presented to illustrate the feasibility and superiority of the proposed approach compared with prior studies. [ABSTRACT FROM AUTHOR]

Published

2018

40. Arbuscular mycorrhizal fungi affect plant community structure under various nutrient conditions and stabilize the community productivity.

Author

Yang, Gaowen, Yang, Xin, Zhang, Wenjun, Wei, Yuqi, Ge, Ge, Lu, Wenjie, Sun, Juanjuan, Liu, Nan, Kan, Haiming, Shen, Yue, and Zhang, Yingjun

Subjects

VESICULAR-arbuscular mycorrhizas, PLANT communities, COMMUNITY organization, PLANT productivity, PLANT diversity

Abstract

Soil biota could have a significant impact on plant productivity and diversity through benefiting plants and mediating plant-plant interaction. However, it is poorly understood how soil biotic factors interaction with abiotic environments affect plant community diversity and composition. Here, we investigate the community-level consequences of arbuscular mycorrhizal fungi (AMF) interactions with multiple nutrients and their ecological stoichiometry. We conducted a greenhouse experiment manipulating nitrogen (N) and phosphorus (P) to create soil nutrient availability and N:P gradients for microcosm communities with and without AMF. We found that AMF suppressed plant diversity at low P levels, whereas it did not alter the diversity at high P levels because of trade-offs in the abundance of the dominant and subordinate species. AMF reduced plant diversity at the intermediate N:P ratios, while AMF did not affect the diversity at low and high N:P ratios. P addition decreased the mycorrhizal contribution to community productivity, whereas N addition reduced the negative effects of AMF on productivity at high P levels. AMF decreased community productivity at low N:P ratios but increased it at high N:P ratios. AMF increased the stoichiometric homoeostasis of plant communities, which was positively correlated with the stability of productivity under variations in soil N:P ratios. Our study demonstrates that both resource availability and stoichiometry influence the effect of AMF on plant community productivity and diversity and suggests that AMF may increase the stability of plant communities under variations in the soil nutrients by increasing the stoichiometric homoeostasis of the plant community. [ABSTRACT FROM AUTHOR]

Published

2016

41. A noise-immune extreme learning machine for short-term traffic flow forecasting.

Author

Wei, Yuqi, Zheng, Shiqiang, Yang, Xi, Huang, Boyu, Tan, Guanru, and Zhou, Teng

Published

2022

42. Combining Orchardgrass and Alfalfa: Effects of Forage Ratios on In Vitro Rumen Degradation and Fermentation Characteristics of Silage Compared with Hay.

Author

Xue, Zhulin, Liu, Nan, Wang, Yanlu, Yang, Hongjian, Wei, Yuqi, Moriel, Philipe, Palmer, Elizabeth, and Zhang, Yingjun

Subjects

ALFALFA, RUMEN fermentation, SILAGE fermentation, FORAGE, ORCHARD grass, HAY

Abstract

Simple Summary: Forages are an essential portion of ruminant rations to maintain rumen function. Exploring how orchardgrass and alfalfa interact in the rumen is necessary to better understand their feed use potential as both hay and silage. This study evaluated in vitro rumen degradation, fermentation characteristics, and methane production responses to different forage ratios of alfalfa and orchardgrass. The results indicate that dry matter and organic matter degradability and methane production were greater for mixed silages compared to mixed hays. A forage ratio of 50:50 for orchardgrass and alfalfa favor the growth of rumen microorganisms without compromising nutrient digestion and rumen fermentation. This study aimed to investigate the effects of different forage ratios of orchardgrass (Dactylis glomerata) and alfalfa (Medicago sativa) on in vitro rumen degradation and fermentation characteristics. Orchardgrass and alfalfa were harvested separately and prepared as hay and silage mixtures at ratios of 100:0, 75:25, 50:50, 25:75, and 0:100 (w/w on a dry matter basis) and anaerobically incubated for 48 h with rumen fluid obtained from lactating dairy cows. Fermented residues and cultured fluids were used to determine nutrient degradability, fermentation parameters, and associative effect indices. Increasing the proportion of alfalfa in hay and silage mixtures quadratically increased in vitro organic matter disappearance (IVOMD, up +5.14%) and marginally decreased in vitro neutral detergent fiber disappearance (NDFD, down −1.79%). Meanwhile, increasing the proportion of alfalfa accelerated the rumen fermentation process (e.g., gas production) and remarkably enhanced the growth of rumen microbes as indicated by microbial protein production (MCP, 13.4% increase). Increments of rumen degradability and methane production were more pronounced in silage mixtures than hay mixtures. In combination, a forage ratio of 50:50 for orchardgrass and alfalfa is recommended for both hay and silage in order to improve the feed use potential in ruminants. [ABSTRACT FROM AUTHOR]

Published

2020