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1,338 results on '"Zeng Xing"'

1. Ultra-low threshold chaos in cavity magnomechanics

Author

Peng, Jiao, Liu, Zeng-Xing, Yu, Ya-Fei, and Xiong, Hao

Subjects
Nonlinear Sciences - Chaotic Dynamics, Physics - Optics
Abstract

Cavity magnomechanics using mechanical degrees of freedom in ferromagnetic crystals provides a powerful platform for observing many interesting classical and quantum nonlinear phenomena in the emerging field of magnon spintronics. However, to date, the generation and control of chaotic motion in a cavity magnomechanical system remain an outstanding challenge due to the inherently weak nonlinear interaction of magnons. Here, we present an efficient mechanism for achieving magnomechanical chaos, in which the magnomechanical system is coherently driven by a two-tone microwave field consisting of a pump field and a probe field. Numerical simulations show that the relative phase of the two input fields plays an important role in controlling the appearance of chaotic motion and, more importantly, the threshold power of chaos is reduced by 6 orders of magnitude from watts to microwatts. In addition to providing insight into magnonics nonlinearity, cavity magnomechanical chaos will always be of interest because of its significance both in fundamental physics and potential applications ranging from ultra-low threshold chaotic motion to chaos-based secret information processing.

Published
2024

2. A Video Coding Method Based on Neural Network for CLIC2024

Author

Li, Zhengang, Zhang, Jingchi, Wang, Yonghua, Zeng, Xing, Zhang, Zhen, Long, Yunlin, Jia, Menghu, and Wang, Ning

Subjects
Electrical Engineering and Systems Science - Image and Video Processing
Abstract

This paper presents a video coding scheme that combines traditional optimization methods with deep learning methods based on the Enhanced Compression Model (ECM). In this paper, the traditional optimization methods adaptively adjust the quantization parameter (QP). The key frame QP offset is set according to the video content characteristics, and the coding tree unit (CTU) level QP of all frames is also adjusted according to the spatial-temporal perception information. Block importance mapping technology (BIM) is also introduced, which adjusts the QP according to the block importance. Meanwhile, the deep learning methods propose a convolutional neural network-based loop filter (CNNLF), which is turned on/off based on the rate-distortion optimization at the CTU and frame level. Besides, intra-prediction using neural networks (NN-intra) is proposed to further improve compression quality, where 8 neural networks are used for predicting blocks of different sizes. The experimental results show that compared with ECM-3.0, the proposed traditional methods and adding deep learning methods improve the PSNR by 0.54 dB and 1 dB at 0.05Mbps, respectively; 0.38 dB and 0.71dB at 0.5 Mbps, respectively, which proves the superiority of our method.

Published
2024

3. Dissipative coupling induced UWB magnonic frequency combs generation

Author

Liu, Zeng-Xing

Subjects
Quantum Physics
Abstract

Magnonic frequency combs have recently attracted particular attention due to their potential impact on spin-wave science. Here, we demonstrate theoretically the generation of ultra-wideband (UWB) magnonic frequency combs induced by dissipative coupling in an open cavity magnomechanical system. A broadband comb with gigahertz repetition rates is obtained in the magnonic spectrum and a typical non-perturbation frequency-comb structure is also observed. The total width of the magnonic comb in the robust plateau region can be up to 400 comb lines, which is much broader and flatter than the reported in the previous works. Furthermore, when the dissipative coupling strength is further increased, the chaotic motion is predicted in the magnonic spectrum. Our results provide an in-depth understanding of nonlinear magnomechanic dynamics in open quantum systems and fundamentally broadens the research range of magnon in new spectral regimes., Comment: 5

Published
2024

4. Determination of Dieldrin and Polychlorinated Biphenyls in Seawater by Solid Phase Extraction and Capillary Gas Chromatography

Author

LIU Jing, WANG Li, ZENG Xing-yu, ZHANG Yan-ping, and WANG Xu-liang

Subjects
seawater, dieldrin, polychlorinated biphenyls, solid phase extraction, gas chromatography, Geology, QE1-996.5, Ecology, QH540-549.5
Abstract

Dieldrin and polychlorinated biphenyls (PCBs) are toxic, organic pollutants that break down extremely slowly in the marine environment. Therefore, it is of valuable significance to establish a rapid, sensitive and accurate detection method for dieldrin and PCBs in seawater. A method has been developed for determining dieldrin and seven PCBs in seawater by Cleanert PS solid-phase extraction and capillary Gas Chromatography with an Electron Capture Detector (GC-μECD). Determination parameters, such as extracting flow rate, eluent, seawater salinity and pH and their effects for extraction efficiency are discussed. By the new method, dieldrin and seven PCBs were extracted from seawater under a flow rate of 5.0 mL/min, eluted by 5.0 mL acetone. The eluate was evaporated, and the solvent was set to 1.0 mL with hexane. The target compounds were determined by GC-μECD. The average recoveries of the method ranged from 82.1% to 123.9% with relative standard deviation (RSD) of 0.9%-4.4%. This method has a better precision compared with the RSD index (1.7%-7.7%) in the specification for marine monitoring (GB 17378.4—2007). The detection limit of dieldrin (0.0088 μg/L) is below the documentary detection limit (0.05 μg/L). Meanwhile, the detection limits of 7 kinds of PCBs range from 0.0012 to 0.0067 μg/L which are below their documentary detection limits (0.147-0.289 μg/L). The established method was qualified for rapid determination of dieldrin and PCBs in seawater samples with a good practical value.

Published
2014

9. CSI Sensing from Heterogeneous User Feedbacks: A Constrained Phase Retrieval Approach

Author

Li, Lei, Zeng, Xing, Liu, Ya-Feng, Xu, Yanqing, and Chang, Tsung-Hui

Subjects
Computer Science - Information Theory, Electrical Engineering and Systems Science - Signal Processing
Abstract

This paper investigates the downlink channel state information (CSI) sensing in 5G heterogeneous networks composed of user equipments (UEs) with different feedback capabilities. We aim to enhance the CSI accuracy of UEs only affording the low-resolution Type-I codebook. While existing works have demonstrated that the task can be accomplished by solving a phase retrieval (PR) formulation based on the feedback of precoding matrix indicator (PMI) and channel quality indicator (CQI), they need many feedback rounds. In this paper, we propose a novel CSI sensing scheme that can significantly reduce the feedback overhead. Our scheme involves a novel parameter dimension reduction design by exploiting the spatial consistency of wireless channels among nearby UEs, and a constrained PR (CPR) formulation that characterizes the feasible region of CSI by the PMI information. To address the computational challenge due to the non-convexity and the large number of constraints of CPR, we develop a two-stage algorithm that firstly identifies and removes inactive constraints, followed by a fast first-order algorithm. The study is further extended to multi-carrier systems. Extensive tests over DeepMIMO and QuaDriGa datasets showcase that our designs greatly outperform existing methods and achieve the high-resolution Type-II codebook performance with a few rounds of feedback., Comment: This work has been submitted to the IEEE for possible publication

Published
2022

13. Prognostic Significance of Grade Discrepancy Between Primary Tumor and Venous Thrombus in Nonmetastatic Clear-cell Renal Cell Carcinoma: Analysis of the REMEMBER Registry and Implications for Adjuvant Therapy

Author

Wu, Zhenjie, Chen, Hui, Chen, Qi, Ge, Silun, Yu, Nengwang, Campi, Riccardo, Gómez Rivas, Juan, Autorino, Riccardo, Rouprêt, Morgan, Psutka, Sarah P., Mehrazin, Reza, Porpiglia, Francesco, Bensalah, Karim, Black, Peter C., Mir, Maria C., Minervini, Andrea, Djaladat, Hooman, Margulis, Vitaly, Bertolo, Riccardo, Caliò, Anna, Carbonara, Umberto, Amparore, Daniele, Borregales, Leonardo D., Ciccarese, Chiara, Diana, Pietro, Erdem, Selcuk, Marandino, Laura, Marchioni, Michele, Muselaers, Constantijn H.J., Palumbo, Carlotta, Pavan, Nicola, Pecoraro, Angela, Roussel, Eduard, Warren, Hannah, Pandolfo, Savio Domenico, Chen, Rui, Zhou, Wenquan, Zhai, Wei, He, Miaoxia, Li, Yaoming, Han, Bo, Wan, Jie, Zeng, Xing, Yan, Junan, Fu, Yao, Ji, Changwei, Fan, Xiang, Zhang, Guangyuan, Zhao, Cheng, Jing, Taile, Wang, Anbang, Feng, Chenchen, Zhao, Hongwei, Sun, Di, Wang, Liang, Tai, Sheng, Zhang, Cheng, Chen, Shaohao, Liu, Yixun, Xu, Zhipeng, Wang, Haifeng, Gao, Jinli, Wang, Fubo, Cheng, Jiwen, Miao, He, Rao, Qiu, Wang, Jianning, Xu, Ning, Wang, Gongxian, Liang, Chaozhao, Liu, Zhiyu, Xia, Dan, Jiang, Jun, Zu, Xiongbing, Chen, Ming, Guo, Hongqian, Qin, Weijun, Wang, Zhe, Xue, Wei, Shi, Benkang, Zhou, Xiaojun, Wang, Shaogang, Zheng, Junhua, Ge, Jingping, Feng, Xiang, Li, Minming, Chen, Cheng, Qu, Le, and Wang, Linhui

Published
2024
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14. Magnon laser based on Brillouin light scattering

Author

Liu, Zeng-Xing and Xiong, Hao

Subjects
Physics - Optics, Quantum Physics
Abstract

An analogous laser action of magnons would be a subject of interest and is crucial for the study of nonlinear magnons spintronics. Here, we demonstrate the magnon laser behavior based on Brillouin light scattering in a ferrimagnetic insulator sphere which supports optical whispering gallery modes and magnon resonances. We show that the excited magnon plays what has traditionally been the role of the Stokes wave and is coherently amplified during the Brillouin scattering process, making magnon laser possible. Furthermore, the stimulating excited magnon number increasing exponentially with the input light power can be manipulated by adjusting the external magnetic field. In addition to providing insight into magneto-optical interaction, the study of magnon laser action will help to develop novel technologies for handling spin-wave excitations and could affect scientific fields beyond magnonics. Potential applications range from preparing coherent magnon sources to operating onchip functional magnetic devices.

Published
2020
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16. Generation and functional characterization of the anti-transferrin receptor single-chain antibody-GAL4 (TfRscFv-GAL4) fusion protein

Author

Ye Qing, Hu Heyu, Wang Zhihua, Lu Tong, Hu Zhiquan, Zeng Xing, Zhang Shu, Liu Jing, Lei Ping, Wang Cong-Yi, Ye Zhangqun, and Shen Guanxin

Subjects
Biotechnology, TP248.13-248.65
Abstract

Abstract Background The development of vectors for cell-specific gene delivery is a major goal of gene therapeutic strategies. Transferrin receptor (TfR) is an endocytic receptor and identified as tumor relative specific due to its overexpression on most tumor cells or tissues, and TfR binds and intakes of transferrin-iron complex. We have previously generated an anti-TfR single-chain variable fragments of immunoglobulin (scFv) which were cloned from hybridoma cell line producing antibody against TfR linked with a 20 aa-long linker sequence (G4S)4. In the present study, the anti-TfR single-chain antibody (TfRscFv) was fused to DNA-binding domain of the yeast transcription factor GAL4. The recombinant fusion protein, designated as TfRscFv-GAL4, is expected to mediate the entry of DNA-protein complex into targeted tumor cells. Results Fusion protein TfRscFv-GAL4 was expressed in an E. coli bacterial expression system and was recovered from inclusion bodies with subsequent purification by metal-chelate chromatography. The resulting proteins were predominantly monomeric and, upon refolding, became a soluble biologically active bifunctional protein. In biological assays, the antigen-binding activity of the re-natured protein, TfRscFv-GAL4, was confirmed by specific binding to different cancer cells and tumor tissues. The cell binding rates, as indicated by flow cytometry (FCM) analysis, ranged from 54.11% to 8.23% in seven different human carcinoma cell lines. It showed similar affinity and binding potency as those of parent full-length mouse anti-TfR antibody. The positive binding rates to tumor tissues by tissue microarrays (TMA) assays were 75.32% and 63.25%, but it showed weakly binding with hepatic tissue in 5 cases, and normal tissues such as heart, spleen, adrenal cortex blood vessel and stomach. In addition, the re-natured fusion protein TfRscFv-GAL4 was used in an ELISA with rabbit anti-GAL4 antibody. The GAL4-DNA functional assay through the GAL4 complementary conjugation with the GAL4rec-GFP-pGes plasmid to verify the GLA4 activity and GAL4rec-recognized specificity functions. It also shows the complex, TfRscFv-GAL4-GAL4rec-GFP-pGes, could be taken into endochylema to express the green fluorescent protein (GFP) with 8 to 10-fold transfection efficiency. Conclusions Results of our study demonstrated that the biofunctianality of genetically engineered fusion protein, TfRscFv-GAL4, was retained, as the fusion protein could both carry the plasmid of GAL4rec-pGes and bind TfR on tumour cells. This product was able to transfect target cells effectively in an immuno-specific manner, resulting in transient gene expression. This protein that can be applied as an effective therapeutic and diagnostic delivery to the tumor using endogenous membrane transport system with potential widespread utility.

Published
2012
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18. Magnon Blockade in a Hybrid Ferromagnet-Superconductor Quantum System

Author

Liu, Zeng-Xing, Xiong, Hao, and Wu, Ying

Subjects
Quantum Physics, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

The implementation of a single magnon level quantum manipulation is one of the fundamental targets in quantum magnetism with a significant practical relevance for precision metrology, quantum information processing, and quantum simulation. Here, we demonstrate theoretically the feasibility of using a hybrid ferromagnet-superconductor quantum system to prepare a single magnon source based on magnon blockade effects. By numerically solving the quantum master equation, we show that the second-order correlation function of the magnon mode depends crucially on the relation between the qubit-magnon coupling strength and the driving detuning, and simultaneously signatures of the magnon blockade appear only under quite stringent conditions of a cryogenic temperature. In addition to providing perception into the quantum phenomena of magnon, the study of magnon blockade effects will help to develop novel technologies for exploring the undiscovered magnon traits at the quantum level and may find applications in designing single magnon emitters.

Published
2019
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22. Phase-mediated magnon chaos-order transition in cavity optomagnonics

Author

Liu, Zeng-Xing, You, Cai, Wang, Bao, Xiong, Hao, and Wu, Ying

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Magnon as a quantized spin wave has attracted extensive attentions in various fields of physics, such as magnon spintronics, microwave photonics, and cavity quantum electrodynamics. Here, we explore theoretically magnon chaos-order transition in cavity optomagnonics, which is still remains largely unexplored in this emerging field. We find that the evolution of the magnon experiences the transition from order to period-doubling bifurcation and finally enter chaos by adjusting the microwave driving power. Different from the normal chaos, the magnon chaos-order transition proposed here is phase-mediated. Beyond their fundamental scientific significance, our results will contribute to the comprehending of nonlinear phenomena and chaos in optomagnonical system, and may find applications in chaos-based secure communication.

Published
2018
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23. Magnon-induced high-order sideband generation

Author

Liu, Zeng-Xing, Wang, Bao, Xiong, Hao, and Wu, Ying

Subjects
Physics - Optics
Abstract

Magnon Kerr nonlinearity plays crucial roles in the study of cavity optomagnonics system and may bring many novel physical phenomena and important applications. In this work, we report the investigation of high- order sideband generation induced by magnon Kerr nonlinearity in a cavity-magnon system, which is critically lacking in this emerging research field. We uncover that the driving field plays a significant role in controlling the generation and amplification of the higher-order sidebands and the sideband spacing can be adjusted by regulating the beat frequency between the pump laser and the probe laser, which is extremely eventful for the spacing modulation of the sideband spectrum. Based on the recent experimental progress, our results deepen our cognition into optomagnonics nonlinearity and may find interesting applications in optical frequency metrology and optical communications., Comment: 5 pages, 4 figures

Published
2018
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24. Generation and amplification of high-order sideband induced by two-level atoms in a hybrid optomechanical system

Author

Liu, Zeng-Xing, Xiong, Hao, and Wu, Ying

Subjects
Physics - Optics
Abstract

It is quite important to enhance and control the optomechanically induced high-order sideband generation to achieve low-power optical comb and high-sensitivity sensing with an integratable structure. Here we present and analyze a proposal for enhancement and manipulation of optical nonlinearity and high-order sideband generation in a hybrid atom-cavity optomechanical system that is coherently driven by a bichromatic input field consisting of a control field and a probe field and works beyond the perturbative regime. Our numerical analysis with experimentally achievable parameters confirms that robust high-order sideband generation and typical spectral structures with non-perturbative features can be created even under weak driven fields. The dependence of the high-order sideband generation on the atomic parameters are also discussed in detail, including the decay rate of the atoms and the coupling parameter between the atoms and the cavity field. We show that the cutoff order as well as the amplitude of the higher order sidebands can be well tuned by the atomic coupling strength and the atomic decay rate. The proposed mechanism of enhancing optical nonlinearity is quite general and can be adopted to optomechanical systems with different types of cavity.

Published
2017
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31. Highly sensitive optical sensor for precision measurement of electrical charges based on optomechanically induced difference-sideband generation

Author

Xiong, Hao, Liu, Zeng-Xing, and Wu, Ying

Subjects
Physics - Instrumentation and Detectors, Physics - Optics
Abstract

Difference-sideband generation in an optomechanical system coupled to a charged object is investigated beyond the conventional linearized description of optomechanical interactions. An exponential decay law for difference-sideband generation in the presence of electric interaction is identified which exhibits more sensitivity to electrical charges than the conventional linearized effects. Using exact the same parameters with previous work based on the linearized dynamics of the optomechanical interactions, we show that optomechanically induced difference-sideband generation may enable an all-optical sensor for precision measurement of electrical charges with higher precision and lower power. The proposed mechanism is especially suited for on-chip optomechanical devices, where nonlinear optomechanical interaction in the weak coupling regime is within current experimental reach.

Published
2017
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32. Comparing Aggregators for Relational Probabilistic Models

Author

Kazemi, Seyed Mehran, Fatemi, Bahare, Kim, Alexandra, Peng, Zilun, Tora, Moumita Roy, Zeng, Xing, Dirks, Matthew, and Poole, David

Subjects
Statistics - Machine Learning, Computer Science - Learning
Abstract

Relational probabilistic models have the challenge of aggregation, where one variable depends on a population of other variables. Consider the problem of predicting gender from movie ratings; this is challenging because the number of movies per user and users per movie can vary greatly. Surprisingly, aggregation is not well understood. In this paper, we show that existing relational models (implicitly or explicitly) either use simple numerical aggregators that lose great amounts of information, or correspond to naive Bayes, logistic regression, or noisy-OR that suffer from overconfidence. We propose new simple aggregators and simple modifications of existing models that empirically outperform the existing ones. The intuition we provide on different (existing or new) models and their shortcomings plus our empirical findings promise to form the foundation for future representations., Comment: 8 pages, Accepted at Statistical Relational AI (StarAI) workshop 2017

Published
2017

33. CLSTN3B promotes lipid droplet maturation and lipid storage in mouse adipocytes.

Author

Zhang, Chuanhai, Ye, Mengchen, Melikov, Kamran, Yang, Dengbao, Vale, Goncalo Dias do, McDonald, Jeffrey, Eckert, Kaitlyn, Lin, Mei-Jung, and Zeng, Xing

Subjects
ENDOPLASMIC reticulum, FAT cells, METABOLIC disorders, ENERGY storage, ORGANELLES
Abstract

Interorganelle contacts facilitate material exchanges and sustain the structural and functional integrity of organelles. Lipid droplets (LDs) of adipocytes are responsible for energy storage and mobilization responding to body needs. LD biogenesis defects compromise the lipid-storing capacity of adipocytes, resulting in ectopic lipid deposition and metabolic disorders, yet how the uniquely large LDs in adipocytes attain structural and functional maturation is incompletely understood. Here we show that the mammalian adipocyte-specific protein CLSTN3B is crucial for adipocyte LD maturation. CLSTN3B employs an arginine-rich segment to promote extensive contact and hemifusion-like structure formation between the endoplasmic reticulum (ER) and LD, allowing ER-to-LD phospholipid diffusion during LD expansion. CLSTN3B ablation results in reduced LD surface phospholipid density, increased turnover of LD-surface proteins, and impaired LD functions. Our results establish the central role of CLSTN3B in the adipocyte-specific LD maturation pathway that enhances lipid storage and maintenance of metabolic health under caloric overload in mice of both sexes. Proper lipid storage in adipocytes is critical for preventing ectopic lipid deposition and maintaining metabolic health. Here, the authors show the important role of the adipocyte-specific gene clstn3b in promoting lipid droplet maturation and enhancing the lipid storage capacity of adipocytes. [ABSTRACT FROM AUTHOR]

Published
2024
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35. Enhanced Message Authentication Encryption Scheme Based on Physical- Layer Key Generation in Resource-Limited Internet of Things.

Author

Zeng Xing, Bo Zhao, Bo Xu, Guangliang Ren, and Zhiqiang Liu

Subjects
ADVANCED Encryption Standard, MESSAGE authentication codes, INTERNET of things, ALGORITHMS
Abstract

The Internet of Things (IoT) is facing growing security challenges due to its vulnerability. It is imperative to address the security issues using lightweight and efficient encryption schemes in resource-limited IoT. In this paper, we propose an enhanced message authentication encryption (MAE) scheme based on physical-layer key generation (PKG), which uses the random nature of wireless channels to generate and negotiate keys, and simultaneously encrypts the messages and authenticates the source. The proposed enhanced MAE scheme can greatly improve the security performance via dynamic keyed primitives construction while consuming very few resources. The enhanced MAE scheme is an efficient and lightweight secure communication solution, which is very suitable for resource-limited IoT. Theoretical analysis and simulations are carried out to confirm the security of the enhanced MAE scheme and evaluate its performance. A one-bit flipping in the session key or plain texts will result in a 50%-bit change in the ciphertext or message authentication code. The numerical results demonstrate the good performance of the proposed scheme in terms of diffusion and confusion. With respect to the typical advanced encryption standard (AES)- based scheme, the performance of the proposed scheme improves by 80.5% in terms of algorithm execution efficiency. [ABSTRACT FROM AUTHOR]

Published
2024
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36. Research on the Comprehensive Performance Evaluation of Large-Scale Event_Cases of China Chengdu International Intangible Cultural Heritage Festival

Author

Zeng, Xing, Kacprzyk, Janusz, Series Editor, Pal, Nikhil R., Advisory Editor, Bello Perez, Rafael, Advisory Editor, Corchado, Emilio S., Advisory Editor, Hagras, Hani, Advisory Editor, Kóczy, László T., Advisory Editor, Kreinovich, Vladik, Advisory Editor, Lin, Chin-Teng, Advisory Editor, Lu, Jie, Advisory Editor, Melin, Patricia, Advisory Editor, Nedjah, Nadia, Advisory Editor, Nguyen, Ngoc Thanh, Advisory Editor, Wang, Jun, Advisory Editor, Tavana, Madjid, editor, and Alhajj, Reda, editor

Published
2021
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39. Diversified Development Path of Cultural Exhibition Industry: Perspective of Service Value Chain

Author

Zeng, Xing, Huo, Ningqiang, Kacprzyk, Janusz, Series Editor, Pal, Nikhil R., Advisory Editor, Bello Perez, Rafael, Advisory Editor, Corchado, Emilio S., Advisory Editor, Hagras, Hani, Advisory Editor, Kóczy, László T., Advisory Editor, Kreinovich, Vladik, Advisory Editor, Lin, Chin-Teng, Advisory Editor, Lu, Jie, Advisory Editor, Melin, Patricia, Advisory Editor, Nedjah, Nadia, Advisory Editor, Nguyen, Ngoc Thanh, Advisory Editor, Wang, Jun, Advisory Editor, Xhafa, Fatos, editor, Patnaik, Srikanta, editor, and Tavana, Madjid, editor

Published
2020
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45. A Coupling Model of Gas–Water Two-Phase Productivity for Multilateral Horizontal Wells in a Multilayer Gas Reservoir.

Author

He, Jun, Zhang, Yufeng, Luo, Erhui, Xu, Anzhu, Chen, Yefei, Liu, Yunyang, Zeng, Xing, and Jiang, Luyang

Subjects
GAS reservoirs, GAS wells, WATERSHEDS, CONFORMAL mapping, POTENTIAL functions, HORIZONTAL wells
Abstract

A series of complex horizontal wells have been implemented in challenging gas reservoirs. Multilateral horizontal well technology can be used in multilayer gas reservoirs, facilitating the expansion of the gas drainage area and enhancing productivity. Accurate productivity calculations for multilateral wells in multilayer reservoirs are essential for effective reservoir development. However, there have been few studies in this area. This paper introduces a coupling model for calculating the gas–water two-phase productivity of multilateral wells in multilayer reservoirs, based on the principles of conformal transformation and superposition of potential functions. The accuracy of the model is validated by obtaining the distribution of flow along the horizontal wellbore through numerical simulation cases. The results from the field case and sensitivity analysis indicate that the pressure difference increases nonlinearly from the toe to the heel, and the productivity of multilateral wells decreases as the gas–water ratio increases. The method proposed in this paper is applicable for calculating the productivity of multilateral wells in multilayer reservoirs. [ABSTRACT FROM AUTHOR]

Published
2024
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46. Calculation Method of Three-Phase Productivity of Horizontal Well in Water-Bearing Condensate Gas Reservoir.

Author

Zhang, Yufeng, Chen, Yefei, Xu, Anzhu, He, Jun, Luo, Erhui, Liu, Yunyang, Zeng, Xing, and Jiang, Luyang

Subjects
HORIZONTAL wells, GAS condensate reservoirs, MULTIPHASE flow, GAS wells, NONLINEAR equations, ENGINEERING mathematics
Abstract

Condensate gas reservoirs are a special kind of reservoir because of the presence of multiphase flow in their production. The accurate calculation of the multiphase flow productivity in horizontal wells is of great significance for reservoir development. In this study, the total pseudopressure and the equivalent total flow are defined to solve the multiphase nonlinear problem in the oil–gas–water three-phase control flow equation, and to establish a three-phase productivity equation considering the non-Darcy effect. It provides a solution for the three-phase productivity calculation of horizontal wells in water-bearing condensate gas reservoirs. The example verification and error analysis of three horizontal wells, except for the gas production error of Well Y3 and the average error of the production data of other gas wells, is below 4%. The fitting effect of Well Y2 is better than that of the other two horizontal wells, and the average error of the oil, gas, and water phases is below 3%. This method provides a practical and simple engineering tool for the analysis of the productivity of condensate gas reservoirs considering multiphase flow. [ABSTRACT FROM AUTHOR]

Published
2024
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48. Development and validation of a prognostic model predicting the prognosis of surgically treated non-clear cell renal cell carcinoma patients with tumor thrombus

Author

Miao, He, primary, Zhou, Ye, additional, Chen, Hui, additional, Zhou, Yulin, additional, Lei, Chang, additional, Ge, Silun, additional, Gu, Yufeng, additional, Pan, Xin, additional, Zeng, Xing, additional, Zhao, Cheng, additional, Wang, Shaogang, additional, Ge, Jingping, additional, Wang, Linhui, additional, Zhou, Wenquan, additional, and Qu, Le, additional

Published
2024
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