Your search keyword '"CUI Chao"' showing total 12 results

1. A Highly Spatiotemporal Resolved Pyrometry for Combustion Temperature Measurement of Single Microparticles Applied in Powder-Fueled Ramjets.

Author

Wang, Zhangtao, Lin, Xunjie, Huang, Xuefeng, Huang, Houye, Zhang, Minqi, Yu, Qinnan, Cui, Chao, and Li, Shengji

Subjects

COMBUSTION measurement, HEAT of combustion, TEMPERATURE distribution, PHOTOELECTRIC devices, METAL-base fuel

Abstract

It is vital to measure combustion temperature to define combustion models accurately. For single fuel particles in powder-fueled ramjets, their size distribution ranges from submicron to submillimeter, and their burn time is short to millisecond order. Moreover, the radiation intensity of different types of fuel particles significantly oscillated with several orders of magnitude. Current temperature measurement technology is facing this challenge. This paper proposes a highly spatiotemporal resolved pyrometry to measure the combustion temperature of fuel particles by coupling single-point photomultiplier tube (PMT)-based and two-dimensional complementary metal oxide semiconductor (CMOS)-based photoelectric devices. Both the offline calibration by blackbody furnace and online calibration by standard lamp confirmed the measurement accuracy of the pyrometry. Then, the pyrometry was used to measure the combustion temperature of fuel particles including micro-Al, nano-Al, micro-Mg, nano-B, and micro-B4C. The temperature evolution and distribution of burning fuel particles were complementarily obtained, especially the interfacial flame temperature near the particle surface. Based on the obtained combustion temperature, the combustion characteristics and the energy release efficiencies among these fuels were evaluated and compared in detail, which are helpful to recognize, in depth, the combustion behavior and reveal the combustion mechanism of fuel particles in powder-fueled ramjets. [ABSTRACT FROM AUTHOR]

Published

2025

2. Correlation Study Between Canopy Temperature (CT) and Wheat Yield and Quality Based on Infrared Imaging Camera.

Author

Yu, Yan, Li, Chenyang, Shen, Wei, Yan, Li, Zheng, Xin, Yao, Zhixiang, Cui, Shuaikang, Cui, Chao, Hu, Yingang, and Yang, Mingming

Subjects

PLANT yields, INFRARED imaging, INFRARED cameras, PHOTOSYNTHETIC rates, GLUTELINS

Abstract

As an important physiological indicator, wheat canopy temperature (CT) can be observed after flowering in an attempt to predict wheat yield and quality. However, the relationship between CT and wheat yield and quality is not clear. In this study, the CT, photosynthetic rate (Pn), filling rate, wheat yield, and wheat quality of 68 wheat lines were measured, in an attempt to establish a connection between CT and yield and quality and accelerate the selection of new varieties. This experiment used an infrared imaging camera to measure the CT of wheat materials planted in the field in 2022. Twenty materials with significant temperature differences were selected for planting in 2023. By comparing the temperature trends in 2022 and 2023, it is believed that materials 4 and 13 were cold-type materials, while materials 3 and 11 were warm-type materials. The main grain filling period of cold-type materials occurs in the middle and late stages of the grain filling period and the Pn and the thousand-grain weights of cold-type materials were higher than those of warm-type materials. Similarly, under continuous rainy conditions, cold-type materials had a higher protein and wet gluten contents, while warm-type materials had higher sedimentation values and shorter formation times. [ABSTRACT FROM AUTHOR]

Published

2025

3. Changes in Hydrothermal Conditions During the Spring Maize Growth Period in Inner Mongolia from 1961 to 2020 and Their Impact on the Meteorological Yield.

Author

Qiao, Shuaishuai, Yang, Xiujuan, Yang, Feng, Han, Congying, Chen, Xuan, Zhou, Hui, Liu, Ye, and Cui, Chao

Subjects

SPRING, AGRICULTURAL productivity, METEOROLOGICAL stations, IRRIGATION water, WATER consumption

Abstract

Climate change has led to significant changes in water and heat conditions in crop production areas, which have in turn affected the spring maize growth and yield. This study analyzed the spatiotemporal variation characteristics of the water and heat conditions, such as the growth degree-day (GDD), killing degree-day (KDD), sunshine hours (SD), effective precipitation (Pe), and irrigation water requirement (IR), of spring maize in Inner Mongolia based on data from 50 meteorological stations. The relationship between hydrothermal conditions and yield was revealed using methods that included stepwise regression analysis. The results showed that the GDD during the spring maize growth period ranged from 513 to 2011 °C, with high-value areas concentrated in western and southeastern regions of Inner Mongolia. The GDD showed an increasing trend during all the growth periods. High-KDD areas were mainly distributed in the Alxa League region in western Inner Mongolia, and the KDD showed an increasing trend during all periods except the rapid fertility period. The spatial distribution of the SD was consistent with that of the GDD, and the SD values for each reproductive period showed a decreasing trend. The average Pe and IR values in the last 60 years were 111 mm and 386 mm, respectively, and showed opposite spatial distribution trends. The overall Pe trend was decreasing and that of the IR was increasing, which will aggravate future water resource consumption in the region. Stepwise regression analysis showed that the Pe was the main factor affecting the spring maize yield. Overall, the spring maize fertility period in various regions of Inner Mongolia was extremely uneven in terms of the hydrothermal conditions. This study provides a basis for the regional spatial spring maize layout and the sustainable use of water and heat resources in the region. [ABSTRACT FROM AUTHOR]

Published

2025

4. Four New or Newly Recorded Species from Freshwater Habitats in Jiangxi Province, China.

Author

Xu, Chen-Yu, Song, Hai-Yan, Zhou, Jian-Ping, Zhai, Zhi-Jun, Cui, Chao-Yu, and Hu, Dian-Ming

Subjects

RNA polymerase II, FRESHWATER organisms, FRESHWATER habitats, FRESH water, SPECIES, MORPHOLOGY

Abstract

Freshwater fungi consist of a highly diverse group of organisms in freshwater habitats worldwide. During a survey of fungal diversity in freshwater habitats across different regions of Jiangxi Province, China, four freshwater fungi were collected. To study their phylogenetic relationships, the internal transcribed spacer (ITS1-5.8S-ITS2), large subunit (28S, LSU), small subunit (18S, SSU), and RNA polymerase II subunit (RPB2) genes were selected for phylogenetic analyses. Based on morphology coupled with phylogenetic analysis, these strains were confirmed to belong to Phaeoisaria, Pleurothecium, and Pseudodactylaria. Among them, three fungi were confirmed as the new species, namely, Pleurothecium lignicola (Pleurotheciaceae), Pseudodactylaria jiangxiensis (Pseudodactylariaceae), and Ps. lignicola (Pseudodactylariaceae). One species was identified as Phaeoisaria filiformis (Pleurotheciaceae), a new record of this species in China. All species were compared with other similar species, and detailed descriptions, illustrations, and phylogenetic data were provided. [ABSTRACT FROM AUTHOR]

Published

2025

5. Mechanical Properties and Reaction Kinetics of Alkali-Activated Metakaolin.

Author

Cui, Chao, Dang, Yingze, Luo, Chenguang, Wang, Lan, and Peng, Hui

Subjects

*CHEMICAL kinetics, *INORGANIC polymers, *POLYMERS, *HYDRATION, *CALORIMETRY, *ALUMINUM

Abstract

In this study, the influence of the physicochemical properties and proportioning conditions of metakaolin on the mechanical properties of the synthesized metakaolin geopolymers was comprehensively evaluated, and the issue of the reaction control mechanism for the formation of mechanical properties during the synthesis of geopolymers was addressed. The reaction mechanism was analyzed by SEM and FTIR, and the kinetic analysis of the geopolymerization process was carried out using isothermal calorimetry combined with the Jander model. The test results show that the physicochemical properties of the metakaolin and the proportioning conditions together affect the mechanical properties of the geopolymer, with the correlation between the active aluminum content of the metakaolin and the strength of the geopolymer reaching over 0.87. The early stages of the geopolymerization reaction are all controlled by nucleation–growth mechanisms (N < 1), and the variability in control mechanisms is mainly found in the later stages of the geopolymerization reaction. The low reactivity and slow exothermic hydration of metakaolin are more inclined to the nucleation-growth mechanism responsible for the hydration process due to the large amount of encapsulation. [ABSTRACT FROM AUTHOR]

Published

2024

6. Exploring the Role of TaPLC1-2B in Heat Tolerance at Seedling and Adult Stages of Wheat through Transcriptome Analysis.

Author

Li, Chenyang, Zhao, Ahui, Yu, Yan, Cui, Chao, Zeng, Quan, Shen, Wei, Zhao, Yang, Wang, Fei, Dong, Jian, Gao, Xiang, and Yang, Mingming

Subjects

MITOGEN-activated protein kinases, WHEAT, CIRCADIAN rhythms, TRANSCRIPTOMES, SEEDLINGS, GENE families, ATP-binding cassette transporters

Abstract

Heat stress is a major abiotic stress that can cause serious losses of a crop. Our previous work identified a gene involved in heat stress tolerance in wheat, TaPLC1-2B. To further investigate its mechanisms, in the present study, TaPLC1-2B RNAi-silenced transgenic wheat and the wild type were comparatively analyzed at both the seedling and adult stages, with or without heat stress, using transcriptome sequencing. A total of 15,549 differentially expressed genes (DEGs) were identified at the adult stage and 20,535 DEGs were detected at the seedling stage. After heat stress, an enrichment of pathways such as phytohormones and mitogen-activated protein kinase signaling was mainly found in the seedling stage, and pathways related to metabolism, glycerophospholipid metabolism, circadian rhythms, and ABC transporter were enriched in the adult stage. Auxin and abscisic acid were downregulated in the seedling stage and vice versa in the adult stage; and the MYB, WRKY, and no apical meristem gene families were downregulated in the seedling stage in response to heat stress and upregulated in the adult stage in response to heat stress. This study deepens our understanding of the mechanisms of TaPLC1-2B in regard to heat stress in wheat at the seedling and adult stages. [ABSTRACT FROM AUTHOR]

Published

2023

7. Sulfadiazine Elimination from Wastewater Effluents under Ozone-Based Catalysis Processes.

Author

Li, Ruixue, Zhang, Yanqiong, Lu, Fengru, Li, Feng, Xu, Lijie, Gan, Lu, Cui, Chao, Li, Xuesong, Jin, Qiutong, Chu, Wei, Yan, Muting, and Gong, Han

Subjects

SULFADIAZINE, CATALYSIS, SEWAGE, OZONE generators, WASTEWATER treatment, HYDROXYL group, LAND degradation

Abstract

The presence of antibiotic sulfadiazine (SFD) poses threats to the ecosystem and human health, and traditional wastewater treatment processes are not ideal for sulfadiazine removal. Therefore, it is urgent to develop treatment processes with high efficiency targeting sulfadiazine. This study investigated the degradation and mineralization mechanisms of SFD by ozone-based catalysis processes including ozone/persulfate (PS) and ozone/peroxymonosulfate (PMS). The degradation, mineralization and byproducts of SFD were monitored by HPLC, TOC and LC/MS, respectively. SFD was efficiently removed by two ozone-based catalysis processes. Ozone/PMS showed high efficiency for SFD removal of 97.5% after treatment for 1 min and TOC reduction of 29.4% after treatment for 20 min from wastewater effluents. SFD degradation was affected by pH, oxidant dosage, SFD concentration and anions. In the two ozone-based catalysis processes, hydroxyl radicals (OH•) and sulfate radicals (SO4•−) contributed to the degradation of SFD. The degradation pathways of SFD under the two processes included hydroxylation, the opening of the pyrimidine ring and SO2 extrusion. The results of this study demonstrate that the two ozone-based catalysis processes have good potential for the elimination of antibiotics from water/wastewater effluents. [ABSTRACT FROM AUTHOR]

Published

2023

8. Transcriptome Analysis of Early Senescence in the Post-Anthesis Flag Leaf of Wheat (Triticum aestivum L.).

Author

Lei, Ling, Wu, Dan, Cui, Chao, Gao, Xiang, Yao, Yanjie, Dong, Jian, Xu, Liangsheng, and Yang, Mingming

Subjects

ABSCISIC acid, COMMODITY futures, TRANSCRIPTOMES, RNA sequencing, HIERARCHICAL clustering (Cluster analysis), AUXIN

Abstract

Flag leaf senescence is an important determinant of wheat yield, as leaf senescence occurs in a coordinated manner during grain filling. However, the biological process of early senescence of flag leaves post-anthesis is not clear. In this study, early senescence in wheat was investigated using a high-throughput RNA sequencing technique. A total of 4887 differentially expressed genes (DEGs) were identified, and any showing drastic expression changes were then linked to particular biological processes. A hierarchical cluster analysis implied potential relationships between NAC genes and post-anthesis senescence in the flag leaf. In addition, a large set of genes associated with the synthesis; transport; and signaling of multiple phytohormones (JA, ABA, IAA, ET, SA, BR, and CTK) were expressed differentially, and many DEGs related to ABA and IAA were identified. Our results provide insight into the molecular processes taking place during the early senescence of flag leaves, which may provide useful information in improving wheat yield in the future. [ABSTRACT FROM AUTHOR]

Published

2022

9. Influence of Wurtzite ZnO Morphology on Piezophototronic Effect in Photocatalysis.

Author

Su, Xiaowen, Zhao, Xiaolei, Cui, Chao, Xi, Ning, Zhang, Xiao Li, Liu, Hong, Yu, Xiaowen, and Sang, Yuanhua

Subjects

ZINC oxide, WURTZITE, PHOTOCATALYSIS, PHOTOCATALYSTS, RHODAMINE B, CHARGE carriers

Abstract

A piezoelectric field promotes the photocatalytic activity of a photocatalyst by helping separating photo-generated charge carriers. Wurtzite phase ZnO is a typical photocatalyst with a piezoelectric property, thus self-assisted photocatalysis with ZnO based on the piezophototronic effect can be achieved. ZnO nanorods or nanowires with a clear c-axis have been well studied, while other morphologies have not been fully discussed. In this work, we prepared wurtzite phase ZnO with four different morphologies. By comparing their photocatalytic activity for degradation of Rhodamine B under the same mechanical energy source provided by ultrasound, the effect of morphology and exposed facets on photo-induced charge separation were highlighted. The ZnO nanowire photocatalyst delivered an impressive improvement in photocatalytic efficiency when ultrasound driven, suggesting that the morphology-related piezophototronic effect had a positive effect on separation of photo-generated charge carriers, and more exposed active facets benefitted the utilization of charge carriers. [ABSTRACT FROM AUTHOR]

Published

2022

10. Analysis of the Genetic Diversity and Family Structure of the Licha Black Pig Population on Jiaodong Peninsula, Shandong Province, China.

Author

Wang, Yuan, Dong, Ruilan, Li, Xiao, Cui, Chao, and Yu, Guanghui

Subjects

GENETIC variation, INBREEDING, BLACK people, FAMILIES, ANIMAL diversity, GENETIC polymorphisms

Abstract

In recent years, the genetic status of some indigenous pig breeds, such as Liangshan pigs [[6]], Laiwu pigs [[7]], Ningxiang pigs [[8]], and Jiangquhai pigs [[9]], has been studied. Keywords: Licha black pig; single nucleotide polymorphism; genetic diversity; population structure; inbreeding coefficient EN Licha black pig single nucleotide polymorphism genetic diversity population structure inbreeding coefficient N.PAG N.PAG 10 04/26/22 20220415 NES 220415 1. Compared with other local breeds in China, the inbreeding coefficient of the Licha black pig population was higher than that of the Liangshan pig population [[6]], but lower than that of the Laiwu, Ningxiang, and Wannan black pig populations [[7], [28]]. In this study, we selected a 50 K SNP chip to analyze the genetic diversity, genetic relationships, population structure, and inbreeding coefficient in this Licha black pig population. [Extracted from the article]

Published

2022

11. Resin Transfer Moldable Fluorinated Phenylethynyl-Terminated Imide Oligomers with High T g : Structure–Melt Stability Relationship.

Author

Hong, Weijie, Yuan, Lili, Ma, Yanping, Cui, Chao, Zhang, Haoyang, Yang, Shiyong, Sun, Wen-Hua, and Lionetto, Francesca

Subjects

POLYIMIDES, TRANSFER molding, GLASS transition temperature, OLIGOMERS, NUCLEAR magnetic resonance, DIFFERENTIAL scanning calorimetry, GUMS & resins, MELTING

Abstract

Phenylethynyl-terminated aromatic polyimides meet requirements of resin transfer molding (RTM) and exhibits high glass transition temperature (Tg) were prepared. Moreover, the relationship between the polyimide backbones structure and their melting stability was investigated. The phenylethynyl-terminated polyimides were based on 4,4′-(hexafluorosiopropylidene)-diphthalic anhydride (6FDA) and different diamines of 3,4′-oxydianiline (3,4′-ODA), m-phenylenediamine (m-PDA) and 2,2′-bis(trifluoromethyl)benzidine (TFDB) were prepared. These oligoimides exhibit excellent melting flowability with wide processing temperature window and low minimum melt viscosities (<1 Pa·s). Two of the oligoimides display good melting stability at 280–290 °C, which meet the requirements of resin transfer molding (RTM) process. After thermally cured, all resins show high glass transition temperatures (Tgs, 363–391 °C) and good tensile strength (51–66 MPa). The cure kinetics studied by the differential scanning calorimetry (DSC), 13C nuclear magnetic resonance (13C NMR) characterization and density functional theory (DFT) definitely confirmed that the electron-withdrawing ability of oligoimide backbone can tremendously affect the curing reactivity of terminated phenylethynyl groups. The replacement of 3,4′-ODA units by m-PDA or TFDB units increase the electron-withdrawing ability of the backbone, which increase the curing rate of terminated phenylethynyl groups at processing temperatures, hence results in the worse melting stability. [ABSTRACT FROM AUTHOR]

Published

2021

12. Quantify Coal Macrolithotypes of a Whole Coal Seam: A Method Combing Multiple Geophysical Logging and Principal Component Analysis.

Author

Cui, Chao, Chang, Suoliang, Yao, Yanbin, and Cao, Lutong

Subjects

*DATA logging, *PRINCIPAL components analysis, *COAL, *COALBED methane, *HYDRAULIC fracturing, LOGGING equipment

Abstract

Coal macrolithotypes control the reservoir heterogeneity, which plays a significant role in the exploration and development of coalbed methane. Traditional methods for coal macrolithotype evaluation often rely on core observation, but these techniques are non-economical and insufficient. The geophysical logging data are easily available for coalbed methane exploration; thus, it is necessary to find a relationship between core observation results and wireline logging data, and then to provide a new method to quantify coal macrolithotypes of a whole coal seam. In this study, we propose a L-Index model by combing the multiple geophysical logging data with principal component analysis, and we use the L-Index model to quantitatively evaluate the vertical and regional distributions of the macrolithotypes of No. 3 coal seam in Zhengzhuang field, southern Qinshui basin. Moreover, we also proposed a S-Index model to quantitatively evaluate the general brightness of a whole coal seam: the increase of the S-Index from 1 to 3.7, indicates decreasing brightness, i.e., from bright coal to dull coal. Finally, we discussed the relationship between S-Index and the hydro-fracturing effect. It was found that the coal seam with low S-Index values can easily form long extending fractures during hydraulic fracturing. Therefore, the lower S-Index values indicate much more favorable gas production potential in the Zhengzhuang field. This study provides a new methodology to evaluate coal macrolithotypes by using geophysical logging data. [ABSTRACT FROM AUTHOR]

Published

2021