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277 results on '"Zu, Chao"'

1. Hilbert-Schmidtness of the $M_{\theta,\varphi}$-type submodules

Author

Zu, Chao and Lu, Yufeng

Subjects
Mathematics - Functional Analysis, Mathematics - Operator Algebras, Primary 46E20 Secondary 46E22
Abstract

Let $\theta(z),\varphi(w)$ be two nonconstant inner functions and $M$ be a submodule in $H^2(\mathbb{D}^2)$. Let $C_{\theta,\varphi}$ denote the composition operator on $H^2(\mathbb{D}^2)$ defined by $C_{\theta,\varphi}f(z,w)=f(\theta(z),\varphi(w))$, and $M_{\theta,\varphi}$ denote the submodule $[C_{\theta,\varphi}M]$, that is, the smallest submodule containing $C_{\theta,\varphi}M$. Let $K^M_{\lambda,\mu}(z,w)$ and $K^{M_{\theta,\varphi}}_{\lambda,\mu}(z,w)$ be the reproducing kernel of $M$ and $M_{\theta,\varphi}$, respectively. By making full use of the positivity of certain de Branges-Rovnyak kernels, we prove that \[K^{M_{\theta,\varphi}}= K^M \circ B~ \cdot R,\] where $B=(\theta,\varphi)$, $R_{\lambda,\mu}(z,w)=\frac{1-\overline{\theta(\lambda)}\theta(z)}{1-\bar{\lambda}z} \frac{1-\overline{\varphi(\mu)}\varphi(w)}{1-\bar{\mu}w}$. This implies that $M_{\theta,\varphi}$ is a Hilbert-Schmidt submodule if and only if $M$ is. Moreover, as an application, we prove that the Hilbert-Schmidt norms of submodules $[\theta(z)-\varphi(w)]$ are uniformly bounded.

Published
2025
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2. Notes on a special order on $\mathbb{Z}^\infty$

Author

Sun, Jiawei, Zu, Chao, and Lu, Yufeng

Subjects
Mathematics - Functional Analysis
Abstract

In 1958, Helson and Lowdenslager extended the theory of analytic functions to a general class of groups with ordered duals. In this context, analytic functions on such a group $G$ are defined as the integrable functions whose Fourier coefficients lie in the positive semigroup of the dual of $G$. In this paper, we found some applications of their theory to infinite-dimensional complex analysis. Specifically, we considered a special order on $\mathbb{Z}^\infty$ and corresponding analytic continuous functions on $\mathbb{T}^\omega$, which serves as the counterpart of the disk algebra in infinitely many variables setting. By characterizing its maximal ideals, we have generalized the following theorem to the infinite-dimensional case: For a positive function $w$ that is integrable and log-integrable on $\mathbb{T}^d$, there exists an outer function $g$ such that $w=|g|^2$ if and only if the support of $\hat{\log w}$ is a subset of $\mathbb{N}^d\cap (-\mathbb{N})^d$. Furthermore, we have found the counterpart of the above function algebra in the closed right half-plane, and the representing measures of each point in the right half-plane for this algebra. As an application of the order, we provided a new proof of the infinite-dimensional Szeg\"{o}'s theorem., Comment: 15pages, 0figures

Published
2025

4. Which hyponormal block Toeplitz operators are either normal or analytic?

Author

Zhu, Senhua, Lu, Yufeng, and Zu, Chao

Subjects
Mathematics - Functional Analysis
Abstract

In this paper, we continue Curto-Hwang-Lee's work to study the connection between hyponormality and subnormality for block Toeplitz operators acting on the vector-valued Hardy space of the unit circle.Curto-Hwang-Lee's work focuses primarily on hyponormality and subnormality of block Toeplitz operators with rational symbols. By studying the "weak" commutativity, we extend Curto-Hwang-Lee's result to block Toeplitz operators with symbols of bounded type., Comment: arXiv admin note: text overlap with arXiv:1201.5976 by other authors

Published
2023

7. Numerical study of the self‐priming process of a prototype pump based on coupled calculations of circulatory system

Author

Yu‐Liang Zhang, Jin‐Fu Li, Yan‐Juan Zhao, Shao‐Han Zheng, and Zu‐Chao Zhu

Subjects
acceleration‐constant speed, circulatory system, self‐priming height, self‐priming process, self‐priming pump, Technology, Science
Abstract

Abstract To understand the self‐priming characteristics of a self‐priming pump, a closed‐loop piping system that includes the self‐priming pump, valve, tank, and piping system is established. The acceleration–constant speed operation processes of the impeller are controlled through a user‐defined function that ensures that the computational model and startup conditions are consistent with the real situation. Based on numerical calculations of the self‐priming process with two different self‐priming heights, the gas–liquid distributions during the self‐priming startup process are obtained. The results show that the self‐priming startup process can be divided into three stages: rapid inhalation, oscillating exhaust, and accelerated exhaust. Under the two self‐priming heights, the time required for the rapid inhalation and accelerated exhaust stages is basically the same. Thus, the difference in self‐priming time is mainly concentrated in the oscillating exhaust stage. The rate at which the liquid level rises in the vertical pipe is not proportional to the self‐priming height, and the difference in the self‐priming time is not proportional to the change in the self‐priming height.

Published
2024
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9. The role of gut microbiota in acute pancreatitis: new perspectives in pathogenesis and therapeutic approaches

Author

Zu-Chao Du, Guan-Qun Li, Yan Luo, Xue-Wei Bai, and Bei Sun

Subjects
Diseases of the digestive system. Gastroenterology, RC799-869
Abstract

Acute pancreatitis (AP) is one of the most common acute abdomen diseases with increasing incidence and substantial healthcare burden. Gut microbiota disturbance, mucosal barrier failure, and bacterial translocation are identified as the dominant cause of infected pancreatic necrosis and high mortality. With the advance of high-throughput sequencing, imbalance between beneficial and facultative pathogenic microorganisms with their metabolic activities in the development of AP has been increasingly recognized, whereas it remains unclear whether dysbacteriosis is the dominant cause of aggravating AP, or merely reflecting different epidemiological or environmental factors at the individual level. This review discussed the alterations of the gut microbiota and their metabolites during AP with detailed molecular mechanisms. Importantly, it highlights microbiome-based medical therapies which influence gut barrier function and immune homeostasis to mitigate inflammatory responses in AP. Our review will provide a novel roadmap of gastrointestinal microecology in AP progression, and contribute to the future development of microbiome-based diagnostic and therapeutic strategies in clinical practice.

Published
2024
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10. Optimal design of impeller for self-priming pump based on orthogonal method

Author

Yu-Liang Zhang, Kai-Yuan Zhang, and Zu-Chao Zhu

Subjects
Medicine, Science
Abstract

Abstract In order to improve the efficiency of the self-priming pump in the outdoor emergency rescue mobile pump truck, this paper took the key energy conversion component-impeller as the target and used the orthogonal experimental design method to optimize its hydraulic performance. Firstly the numerical calculations were compared with the experimental results to confirm the reliability of the calculation method. Then, L 9 (34) orthogonal design was applied to investigate the influence of the impeller diameter, the blade outlet width, the blade wrap angle and the number of blades on the hydraulic performance of the self-priming pump. Through range analysis, the order of influence of each influencing factor on the head and efficiency of the self-priming pump was determined, and finally obtained the optimal parameter combination scheme. The results show that the optimized self-priming pump exceeds the head of the prototype pump at all flow conditions, and the efficiency curve at high flow conditions is significantly improved and has a wide high efficiency zone.

Published
2023
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12. Numerical calculation of forward and reverse flow in Tesla valves with different longitudinal width-to-narrow ratios

Author

Yu-Liang Zhang, Jiang-Bo Tong, and Zu-Chao Zhu

Subjects
Medicine, Science
Abstract

Abstract To study the effect of the width-to-narrow ratio on the forward and reverse flow characteristics of the Tesla valve, five different models of the Tesla valve with different width-to-narrow ratios are established in this paper. The numerical calculations of forward and reverse flow under different working conditions are carried out by the CFD method in the laminar flow regime, and the reliability of the numerical calculation method is verified by comparing it with the experimental results. The results show that: in forward flow, the main flow-through channel is not related to the width-to-narrow ratio, the flow rate of the straight channel increases with the increase of the width-to-narrow ratio, and the static pressure in the diversion section is in the shape of “∞”; while in reverse flow, the main flow-through channel is weakly related to the width-to-narrow ratio, the flow rate of the arc channel is not increased with the increase of the width-to-narrow ratio, and the static pressure in the diversion section is in the shape of “bench”. As the width-to-narrow ratio decreases, the pressure drop during forward and reverse flow becomes more significant.

Published
2023
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16. Influence Factors of Under-Deposit Corrosion and Corrosion Prevention in Oil Wells

Author

XU Jiang-feng, HAO Jian, LI Li, LI Zheng-hui, LI Lin, YING Hu-hu, MENG Zu-chao

Subjects
electrochemical corrosion, local corrosion, wire beam electrode, mechanism, corrosion inhibitor, Materials of engineering and construction. Mechanics of materials, TA401-492, Technology
Abstract

In order to ensure the safe production of the oil field,scanning electron microscopy (SEM) and X-ray diffraction (XRD),combined with wire beam electrodes,were used to observe the corrosion morphology and analyze the corrosion products under the scale in accordance with the actual operating conditions of an oil field in northern Shaanxi.The influence mechanism of Cl-,CO2 and O2 on corrosion under scale was explored by polarization curve and electrochemical impedance spectroscopy,and the corrosion inhibition performance of corrosion inhibitors on corrosion under scale was clarified.Results showed that Cl-,CO2 and O2 could easily penetrate the scale layer and reach the surface of the metal substrate to form corrosion cells,which increased the corrosion tendency.The corrosion inhibitor CH-1 had a small adsorption capacity on the scale sample surface,and had a strong anodic inhibition effect on the corrosion under scale.It could achieve the corrosion inhibition effect through negative catalytic effect,and had good corrosion inhibition performance under scale.

Published
2023
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18. Root Exudates from Areca catechu L. Intercropping System Promote Nutrient Uptake and Sustainable Production of Piper nigrum L.

Author

Li, Zhiyuan, Zhao, Yaqi, Zu, Chao, Li, Zhigang, Zheng, Weiquan, Yu, Huan, Gao, Shengfeng, Liu, Shichao, Zhang, Baogui, Wang, Xinxin, Wang, Can, and Yang, Jianfeng

Abstract

Piper nigrum–Areca catechu intercropping mitigates soil problems related to continuous P. nigrum cropping, but the exact reason for this is not clear. In this study, the intercropping system increased P. nigrum's single plant weight by 27.0–55.5% and unit yield per hectare by 5.1–33.5% in 2019–2022. Intercropping altered the metabolic profiles of root exudates from both species, with increases in flavonoids (epicatechin and 4′,5,6,7-Tetramethoxyflavone), alkaloids (litebamine), and amino acids (proline betaine, L-homocysteic acid and L-homocysteic acid). Intercropping further increased the abundance of dominant soil bacteria, including GAL15 (354.9%) and Bacteroidota (70.4%) in the P. nigrum rhizosphere, and Firmicutes (141.8%) and WPS2 (75.3%) in the A. catechu rhizosphere. In the intercropping system, the abundance of soil flavonoids, including tangeritin, trifolirhizin, and hexamethylquercetagetin, which participated in improving nutrient absorption and plant growth, increased by 106.4~356.0%, 28.9~45.5%, and 45.2~127.1%, respectively, during the whole growing period. Overall, intercropping with A. catechu promoted carbon input to the P. nigrum soil via root exudates. This increased the diversity of P. nigrum rhizosphere beneficial bacterial communities, as well as the amounts of nutrients and plant growth-promoting secondary metabolites. Together, these effects improved nutrient uptake and utilization, thereby driving the sustainable production of P. nigrum, and ultimately achieving higher yields. [ABSTRACT FROM AUTHOR]

Published
2025
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22. Impact of COVID-19 pandemic on acute pancreatitis presentations, management, and in-hospital outcomes: a single-center, retrospective observational study from the northeast of China

Author

Zu-Chao Du, Jian Zhang, Xin-Jian Li, Zhan-Tian Zhang, Kai-Song Bai, Zi-Min Wang, Yan Xu, Xue-Wei Bai, and Bei Sun

Subjects
Diseases of the digestive system. Gastroenterology, RC799-869
Abstract

Background: Since initially detected in late December 2019, the novel coronavirus disease 2019 (COVID-19) outbreak rapidly swept the world, which has profoundly affected healthcare system and clinical practice in the management of gastrointestinal diseases. Objectives: We aimed to evaluate the impact of COVID-19 pandemic on the pattern of hospital admissions and healthcare services for acute pancreatitis (AP). Design: We conducted a retrospective observational cohort study using the anonymized electronic medical records. Methods: This single-center, retrospective observational study from a regional medical center in the northeast of China included all consecutively admitted patients with AP from 23 January to 10 June 2020 (during the COVID-19 outbreak in Harbin), compared with the equivalent period of the previous year, in terms of demographics, clinical characteristics, and in-hospital outcomes. Results: In this article, we observed a reduction in AP admissions after the beginning of COVID-19 outbreak. With the prolonged time from symptom onset to hospitalization [32.0 (22.0–72.0) versus 18.0 (12.0–24.0) h; p

Published
2022
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27. Numerical study of the self‐priming process of a prototype pump based on coupled calculations of circulatory system.

Author

Zhang, Yu‐Liang, Li, Jin‐Fu, Zhao, Yan‐Juan, Zheng, Shao‐Han, and Zhu, Zu‐Chao

Subjects
CARDIOVASCULAR system, CLOSED loop systems, NUMERICAL calculations, PROTOTYPES
Abstract

To understand the self‐priming characteristics of a self‐priming pump, a closed‐loop piping system that includes the self‐priming pump, valve, tank, and piping system is established. The acceleration–constant speed operation processes of the impeller are controlled through a user‐defined function that ensures that the computational model and startup conditions are consistent with the real situation. Based on numerical calculations of the self‐priming process with two different self‐priming heights, the gas–liquid distributions during the self‐priming startup process are obtained. The results show that the self‐priming startup process can be divided into three stages: rapid inhalation, oscillating exhaust, and accelerated exhaust. Under the two self‐priming heights, the time required for the rapid inhalation and accelerated exhaust stages is basically the same. Thus, the difference in self‐priming time is mainly concentrated in the oscillating exhaust stage. The rate at which the liquid level rises in the vertical pipe is not proportional to the self‐priming height, and the difference in the self‐priming time is not proportional to the change in the self‐priming height. [ABSTRACT FROM AUTHOR]

Published
2024
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31. Carbon Nanomaterials: A New Sustainable Solution to Reduce the Emerging Environmental Pollution of Turbomachinery Noise and Vibration

Author

Xiao Qi Jia, Song Yu Li, Hong Jiang Miu, Tuo Yang, Kun Rao, Dong Yang Wu, Bao Ling Cui, Jun Lang Ou, and Zu Chao Zhu

Subjects
carbon nanomaterials, emerging environmental pollution, vibration and noise reduction, sustainability, turbomachinery, Chemistry, QD1-999
Abstract

The vibration and noise that resulted from turbomachinery, such as fans, compressors, and centrifugal pumps, are known to bring considerable disturbance and pollution to the machine itself, the environment, and the operators. Hence, how to cope with the vibration and noise has become a recent research focus. With the advancement of materials science, more and more new nanomaterials have been applied in the field of noise and vibration reduction. To be specific, carbon-based nanomaterials, such as carbon fibers, carbon nanotubes, and graphenes, have achieved outstanding results. Carbon nanocomposites, such as carbon nanofibers, carbon nanotubes, and graphenes, are characterized by their low densities, high strengths, and high elastic moduli, all of which made carbon nanocomposites the most promising vibration and noise-reduction composites, thanks to their damping properties, compatibilities, noise and vibration absorption qualities, and wide wave-absorbing frequency bands. In light of this, this paper summarizes the progresses and application prospects of such carbon nanocomposites as carbon nanofibers, carbon nanotubes, and graphenes in the field of turbomachinery vibration and noise reduction.

Published
2020
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35. Non-inertial stopping characteristics of a prototype pump

Author

Yu-Liang Zhang, Zu-Chao Zhu, Wen-Guang Li, and Xiao-Qi Jia

Subjects
Mechanical engineering and machinery, TJ1-1570
Abstract

The characteristics of centrifugal pump in non-inertial stopping period have not been studied better by far. In this article, the variation characteristics of transient performance of a prototype pump are clarified experimentally in five non-inertial stopping scenarios and three typical steady-flow rates. The effects of stopping time on the transient performance during stopping periods are explored. Meanwhile, three non-dimensional parameters are employed to analyze the transient behavior as well. The results show that the shorter the stopping time is, the more obvious the decline delay phenomenon in rotational speed is at the end of non-inertial stopping. There is an obvious decline delay phenomenon in flow rate at the beginning of stopping. With increasing steady flow rate before stopping, both head and flow rate decline faster. Despite the difference in stopping time, the static pressures at the pump outlet demonstrate a similar variation feature, while those at the pump inlet exhibit different characteristics. The head damping is the fastest and then the shaft power and the flow rate are followed. The non-dimensional instantaneous flow rate, head, and shaft power have a similar evolution characteristic overall. The affinity law for centrifugal pumps can be adopted to predict the transient performance under the condition of large steady flow rate and in the superslow stopping scenario.

Published
2019
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42. Identification of lncRNA and mRNA regulatory networks associated with gastric cancer progression

Author

Sun, Ke-kang, Zu, Chao, Wu, Xiao-yang, Wang, Qing-hua, Hua, Peng, Zhang, Yi-fang, Shen, Xiao-jun, and Wu, Yong-you

Subjects
Cancer Research, Oncology
Abstract

Gastric cancer is a tumor type characterized by lymph node metastasis and the invasion of local tissues. There is thus a critical need to clarify the molecular mechanisms governing gastric cancer onset and progression to guide the treatment of this disease. Long non-coding RNAs and mRNA expression profiles associated with early and local advanced gastric cancer were examined through microarray analyses, with GO and KEGG analyses being employed as a means of exploring the functional roles of those long non-coding RNAs and mRNAs that were differentially expressed in gastric cancer. In total, 1005 and 1831 lncRNAs and mRNAs, respectively, were found to be differentially expressed between early and local advanced gastric cancer. GO and KEGG analyses revealed several pathways and processes that were dysregulated, including the RNA transport, ECM-receptor interaction, and mRNA splicing pathways. In co-expression networks, E2F1, E2F4, and STAT2 were identified as key transcriptional regulators of these processes. Moreover, thrombospondin-2 was confirmed as being expressed at high levels in more advanced gastric cancer by both the GEO and TCGA databases. RNA-sequencing analyses of SGC-790 cells transfected to express thrombospondin-2 further revealed this gene to enhance NF-kB and TNF pathway signaling activity. These results offer insight into gastric cancer-related regulatory networks and suggest thrombospondin-2 to be an important oncogene that drives the progression of this deadly cancer type.

Published
2023
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43. Unsteady flow characteristics of an AFP based on energy loss and vortex identification under rotating stall condition.

Author

Jia, Xiao Qi, Lv, Hao, and Zhu, Zu Chao

Abstract

Rotating stall, as a typical unsteady flow phenomenon in the axial flow pump (AFP), might easily result in a sharp decline in the performance of the AFP, thereby affecting the safe and stable operation of the pump. To better understand the loss mechanism of flow in the AFP, this paper numerically computes the unsteady flow of an AFP with guide vanes under a variety of working conditions. Unstable flow characteristics such as flow separation, typical vortex structure and flow loss of the pump under varied working conditions are analyzed using energy loss and vortex identification methods. The analysis of boundary vorticity flow (BVF) of the pump flow field shows that unstable flow can be observed in the BVF positive peak area on the blade surface, affecting the work of the impeller. Meanwhile, there is also unsteady flow from the trailing edge of the blade to the pressure surface of the adjacent blade near the impeller hub. It is gradually enlarged to block the impeller channel as the stall aggravates, causing the formation of a 'saddle zone' in the AFP. The guide vane and the impeller are core areas of energy loss within the AFP. On this basis, large numbers of vortex inside the impeller and the impact of unstable flow on the blades are the main contributors to the energy loss of the impeller. [ABSTRACT FROM AUTHOR]

Published
2023
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47. Demand for Education in the Urbanization Process: Prediction and Analysis

Author

Li, Zu-chao and Xu, Wen

Abstract

According to records from 2002, there will be a continuous increase in the number of classes, full-time teachers and teaching staff in urban primary and junior secondary schools during the period 2005-2020. At the same time, the demand for classes and teachers of non-compulsory education will decrease yearly. It is estimated that the budgetary funds for urban primary, junior secondary, senior secondary education and even higher education will increase by 8%, 8.7%, 15.2% and 9%, respectively each year.

Published
2006
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49. Anesthesia Effect of Remifentanil Combined with Propofol in Laparoscopic Cholecystectomy and Its Impact on Postoperative Cognitive Recovery

Author

Wei Jiang, Jun Wang, Xin-xin Ni, and Zu-chao Huang

Subjects
Complementary and alternative medicine, Article Subject
Abstract

Objective. To investigate the anesthesia effect of remifentanil combined with propofol for laparoscopic cholecystectomy and its impact on postoperative cognitive recovery. Methods. A total of 120 patients who underwent laparoscopic cholecystectomy in our hospital from February 2019 to June 2021 were recruited and assigned into either control group or experimental group at a ratio of 1 : 1 via the random number table method. The patients in the control group were anesthetized with fentanyl combined with propofol, and the patients in the experimental group were anesthetized with remifentanil combined with propofol. The clinical basic indicators (extubation time, recovery time, breathing recovery time, and orientation recovery time), and observer’s assessment of awareness/sedation (OAA/S) scores and complications were compared between the two groups. Results. There was no significant difference in extubation time between the two groups ( P > 0.05 ). The postoperative wake-up time, respiratory recovery time, and orientation recovery time of the experimental group were significantly better than those of the control group ( P < 0.05 ). The OAA/S scores of the patients in the experimental group were significantly higher than those in the control group immediately after surgery, 1 h after surgery, and 3 h after surgery ( P < 0.05 ). There was no significant difference in the OAA/S scores between the two groups on the 1st day after operation ( P > 0.05 ). The incidence of complications in the experimental group was significantly lower than that in the control group ( P < 0.05 ). Conclusion. Remifentanil + propofol for laparoscopic cholecystectomy patients has a significant anesthesia effect. This strategy effectively shortens the extubation, awakening, respiratory recovery, orientation recovery time of patients, and OAA/S score, suggest a minor impact on the postoperative cognitive function and state of consciousness. It has a high safety profile and thus is worthy of clinical application.

Published
2022

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