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1. Temperature field analysis in tunnel construction ventilation with emphasis on duct leakage and thermal conductivity

Author

Lintao Fan, Liangliang Tao, Shuqi Duan, Mingrui Luo, Chuan He, Yanhua Zeng, Yongliang Chen, Yin Song, and Zhanfeng Qi

Subjects
High temperature, Construction ventilation, Finite difference, Air leakage rate, Insulated ventilation duct, Engineering (General). Civil engineering (General), TA1-2040
Abstract

Mechanical ventilation is the primary measure for cooling during construction of high geo-temperature tunnel. Based on heat transfer theory and characteristics of press-in ventilation, a comprehensive calculation model considering the influence of construction process is proposed, and the reliability of the model is verified by on-site test. The effects of duct leakage rate and thermal conductivity of different excavation length on temperature field distribution during construction ventilation were analyzed based on the prediction model. The following conclusions are drawn: As the excavation length increases, the duct outlet temperature first increases and then decreases. The duct outlet temperature is mainly affected by geo-temperature and boundary control temperature of working face, the air leakage rate and excavation length are not the main factors. The highest temperature in the duct is about 40 °C. The distance between the position of highest temperature and working face increases with the increase of excavation length and decreases with the increase of air leakage rate. With the increase of excavation length, the impact of thermal conductivity on outlet temperature of duct is first enhanced and then stabilized under the same excavation length. The heat-insulated duct can effectively reduce the outlet air temperature and prolong the service life of the duct, while minimizing the air leakage of the duct.

Published
2024
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2. Effects of non-sinusoidal pitching motion on the propulsion performance of an oscillating foil.

Author

Zhanfeng Qi, Jingsheng Zhai, Guofu Li, and Jiazhong Peng

Subjects
Medicine, Science
Abstract

Numerical simulations have been used in this paper to study the propulsion device of a wave glider based on an oscillating hydrofoil, in which the profile of the pitching and heaving motion have been prescribed for the sake of simplicity. A grid model for a two-dimensional NACA0012 hydrofoil was built by using the dynamic and moving mesh technology of the Computational Fluid Dynamics (CFD) software FLUENT and the corresponding mathematical model has also been established. First, for the sinusoidal pitching, the effects of the pitching amplitude and the reduced frequency were investigated. As the reduced frequency increased, both the mean output power coefficient and the optimal pitching amplitude increased. Then non-sinusoidal pitching was studied, with a gradual change from a sinusoid to a square wave as the value of β was increased from 1. It was found that when the pitching amplitude was small, the trapezoidal pitching profile could indeed improve the mean output power coefficient of the flapping foil. However, when the pitching amplitude was larger than the optimal value, the non-sinusoidal pitching motion negatively contributed to the propulsion performance. Finally, the overall results suggested that a trapezoidal-like pitching profile was effective for the oscillating foil of a wave glider when the pitching amplitude was less than the optimal value.

Published
2019
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3. Propulsion Performance of the Full-Active Flapping Foil in Time-Varying Freestream

Author

Zhanfeng Qi, Lishuang Jia, Yufeng Qin, Jian Shi, and Jingsheng Zhai

Subjects
full-active flapping foil, time-varying freestream, propulsion performance, hydrodynamic character, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999
Abstract

A numerical investigation of the propulsion performance and hydrodynamic characters of the full-active flapping foil under time-varying freestream is conducted. The finite volume method is used to calculate the unsteady Reynolds averaged Navier–Stokes by commercial Computational Fluid Dynamics (CFD) software Fluent. A mesh of two-dimensional (2D) NACA0012 foil with the Reynolds number Re = 42,000 is used in all simulations. We first investigate the propulsion performance of the flapping foil in the parameter space of reduced frequency and pitching amplitude at a uniform flow velocity. We define the time-varying freestream as a superposition of steady flow and sinusoidal pulsating flow. Then, we study the influence of time-varying flow velocity on the propulsion performance of flapping foil and note that the influence of the time-varying flow is time dependent. For one period, we find that the oscillating amplitude and the oscillating frequency coefficient of the time-varying flow have a significant influence on the propulsion performance of the flapping foil. The influence of the time-varying flow is related to the motion parameters (reduced frequency and pitching amplitude) of the flapping foil. The larger the motion parameters, the more significant the impact of propulsion performance of the flapping foil. For multiple periods, we note that the time-varying freestream has little effect on the propulsion performance of the full-active flapping foil at different pitching amplitudes and reduced frequency. In summary, we conclude that the time-varying incoming flow has little effect on the flapping propulsion performance for multiple periods. We can simplify the time-varying flow to a steady flow field to a certain extent for numerical simulation.

Published
2020
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4. The Effect of Mass Ratio and Damping Coefficient on the Propulsion Performance of the Semi-Active Flapping Foil of the Wave Glider

Author

Zhanfeng Qi, Min Jiang, Lishuang Jia, Bo Zou, and Jingsheng Zhai

Subjects
wave glider, semi-active flapping foil, propulsive performance, mass ratio, damping coefficient, Naval architecture. Shipbuilding. Marine engineering, VM1-989, Oceanography, GC1-1581
Abstract

A numerical investigation on the propulsion performance of the semi-active flapping foil of the wave glider with different mass ratio and damping coefficient is investigated. The commercial CFD software Fluent is used to solve the URANS equations around the flapping foil by the Finite Volume Method. A mesh of 2D NACA0012 foil with the Reynolds number Re = 42,000 is used in all simulations. We first analyze the effect of the mass ratio on the mean output power coefficient and propulsion efficiency and note that with the variation of the mass ratio, the propulsion efficiency decreases slightly. Besides, we find that the mass ratio has a noticeable influence on the mean output power coefficient, and the influence is determined by the reduced frequency. For high reduced frequency, with the increase of the mass ratio, the propulsion performance of the flapping foil decreases monotonously. For low reduced frequency, the mean output power increases slightly. For critically reduced frequency, the mean output power coefficient of the foil firstly increases and then decreases via the mass ratio increase. Then, we examine the influence of the damping coefficient on the propulsion performance of the flapping foil and find that the damping coefficient has a severe adverse effect on the output power and propulsion efficiency. We conclude that the influence of the damping coefficient should be considered first when we design the propulsion device of the semi-active flapping foil. Meanwhile, we should also consider the sea conditions to choose the mass ratio to optimize the flapping foil.

Published
2020
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5. Numerical Investigation of the Semi-Active Flapping Foil of the Wave Glider

Author

Zhanfeng Qi, Bo Zou, Huiqiang Lu, Jian Shi, Guofu Li, Yufeng Qin, and Jingsheng Zhai

Subjects
wave glider, semi-active flapping foil, propulsive performance, critical pitching amplitude, Naval architecture. Shipbuilding. Marine engineering, VM1-989, Oceanography, GC1-1581
Abstract

A numerical investigation is conducted to study the propulsive performance of the semi-active flapping foil of the wave glider, where the heaving smotion is fully prescribed, and the pitching motion is determined by the hydrodynamic force and torsion spring. A mesh for two-dimensional NACA0012 foil with the Reynolds number Re = 42000 is produced, and a dynamic mesh and sliding interface are used in the computation. The influences of reduced frequency, spring stiffness, and critical pitching amplitude on the hydrodynamic characteristics of semi-active flapping foil are systematically investigated. We find that there is a critical reduced frequency: When the reduced frequency is lower than the critical value, the propulsive performance of flapping foil can be improved exponentially, and when the reduced frequency is higher than the critical value, the semi-active flapping foil cannot provide an effective thrust. For a greater reduced frequency, there is an optimal spring stiffness value, which corresponds to the maximum value of the output power coefficient. For a lower reduced frequency, the mean value of the output power coefficient monotonically decreases as the spring stiffness increases. We also notice that the propulsive efficiency of flapping foil monotonically decreases as the spring stiffness increases. Finally, we find that the appropriate critical pitching amplitude can improve the propulsive performance of semi-active flapping foil, especially for greater heaving amplitudes.

Published
2019
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6. Integrating Multiple-Try DREAM(ZS) to Model-Based Bayesian Geoacoustic Inversion Applied to Seabed Backscattering Strength Measurements

Author

Bo Zou, Zhanfeng Qi, Guangchao Hou, Zhaoxing Li, Xiaochen Yu, and Jingsheng Zhai

Subjects
geoacoustic model, mt-dream(zs), bayesian inversion, backscattering strength, Naval architecture. Shipbuilding. Marine engineering, VM1-989, Oceanography, GC1-1581
Abstract

The key to model-based Bayesian geoacoustic inversion is to solve the posterior probability distributions (PPDs) of parameters. In order to obtain PPDs more efficiently and accurately, the state-of-the-art Markov chain Monte Carlo (MCMC) method, multiple-try differential evolution adaptive Metropolis(ZS) (MT-DREAM(ZS)), is integrated to the inverse problem because of its excellent ability to fully explore the posterior space of parameters. The effective density fluid model (EDFM), which is derived from Biot−Stoll theory to approximate the poroelastic model, and the published field measurements of backscattering strength are adopted to implement the inversion. The results show that part of the parameters can be estimated close to the measured values, and the PPDs obtained by dual-frequency inversion are more concentrated than those of single-frequency inversion because of the use of more measured backscattering strength data. Otherwise, the comparison between the predicted backscattering strength of dual-frequency inversion results and Jackson’s prediction shows that the solutions of the inverse problem are not unique and may have multiple optimal values. Indeed, the difference between the two predictions is essentially the difference in the estimation of the contribution of volume scattering to the total scattering. Nevertheless, both results are reasonable due to the lack of measurement of volume scattering parameters, and the inversion results given by the posterior probabilities based on the limited measurements and the adopted model are still considered to be reliable.

Published
2019
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7. A Comparison of Three Sediment Acoustic Models Using Bayesian Inversion and Model Selection Techniques

Author

Bo Zou, Jingsheng Zhai, Zhanfeng Qi, and Zhaoxing Li

Subjects
geoacoustic models, Bayesian inversion, backscattering strength, sandy sediments, Bayes factor, Science
Abstract

Many geoacoustic models are used to establish the relationship between the physical and acoustic properties of sediments. In this work, Bayesian inversion and model selection techniques are applied to compare combinations of three geoacoustic models and corresponding scattering models—the fluid model with the effective density fluid model (EDFM), the grain-shearing elastic model with the viscosity grain-shearing (VGS(λ)) model, and the poroelastic model with the corrected and reparametrized extended Biot–Stoll (CREB) model. First, the resolution and correlation of parameters for the three models are compared based on estimates of the posterior probability distributions (PPDs), which are obtained by Bayesian inversion using the backscattering strength data. Then, model comparison and selection techniques are utilized to assess the matching degree of model predictions and measurements qualitatively and to ascertain the Bayes factors in favor of each quantitatively. These studies indicate that the fluid and poroelastic models outperform the grain-shearing elastic model, in terms of both parameter resolution and the ability to produce predictions in agreement with measurements for sandy sediments. The poroelastic model is considered to be the best, as the inversion based on it can provide more highly resolved information of sandy sediments. Finally, the attempt to implement geoacoustic inversion with different models provides a relatively feasible remote sensing scheme for various types of sediments under unknown conditions, which needs further validation.

Published
2019
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8. Study of Flexural Response in Strain Hardening Cementitious Composites Based on Proposed Parametric Model

Author

Zhanfeng Qi, Zhiyi Huang, Hui Li, and Wenhua Chen

Subjects
strain hardening cementitious composites, linear constitutive model, moment-curvature response, shear deflection, Technology, Electrical engineering. Electronics. Nuclear engineering, TK1-9971, Engineering (General). Civil engineering (General), TA1-2040, Microscopy, QH201-278.5, Descriptive and experimental mechanics, QC120-168.85
Abstract

Strain hardening cementitious composites (SHCCs) are widely used in projects due to their excellent deformation resistance and large energy absorption capacity. However, determining tensile strain capacity is still a challenge for engineers. The current popular approach is to use inverse methods to predict the tensile behavior of SHCCs, such as the UM method (Qian and Li) and the JCI (Japan Concrete Institute) method. The key to these two approaches is to acquire the exact relationship between the bending and the uniaxial response. In this paper, a reasonable linear constitutive model of the SHCCs is modified. Initially, the moment-curvature diagrams are discussed by material parameters. The results reveal that the moment-curvature response is quite sensitive to the variations in the parameter of transition strain α, post-cracking tensile stiffness η, and strain softening stiffness μ, however, for the compressive parameters, the moment-curvature responses influence on flexural behavior is insignificant. Moreover, the load-deflection curve in the mid-span of SHCC, based on the consideration of shear effect, is simulated under a four-point bending test (FPBT). The results show a remarkable consistency with the experimental data when compared to the previous simulations. It is expected that this modified method can enhance an accurate program in order to obtain the tensile capacity.

Published
2018
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11. Characterization of Porous LaCoO 3 Prepared from Wood Powder Template and Its Catalysis for Diesel Particulate Matter

Author

Xiurong Guo, Shaochi Yang, Yinghui Wang, Danfeng Du, Zhanfeng Qi, Chaowei Sun, and Xiaoyuan Gao

Abstract

In this paper, LaCoO3 porous perovskite was synthesized using wood powder template combined with sol-gel process, while LaCoO3 prepared by traditional sol-gel method was used as a comparison. The catalysts prepared by different methods were characterized by X-ray diffraction (XRD), fourier-transform infrared spectroscopy (FT-IR), scanning electron microscope (SEM), N2 adsorption-desorption, and the particulate matter (PM) trapping and catalytic oxidation tests were carried out by engine bench test and thermogravimetric analyzer (TGA). The results showed that the porous LaCoO3 successfully replicated the structural features of wood powder from macroscopic to tracheid, forming a porous structure. Porous LaCoO3 exhibits better catalytic activity than powdered LaCoO3 with similar specific surface area, this can be attributed to the porous structure of LaCoO3, which increases the contact area and the number of contact points between PM and catalyst.

Published
2022

12. Preparation of biomorphic porous La0.8Ce0.2Fe0.3Co0.7O3 perovskite‐type catalysts for automobile exhaust purification.

Author

Xiurong, Guo, Yinghui, Wang, Haonan, Zhang, Du, Danfeng, and Zhanfeng, Qi

Subjects
CATALYTIC converters for automobiles, PORE size distribution, SCANNING electron microscopes, AUTOMOBILES, WOOD, CATALYSTS
Abstract

Biomorphic porous La0.8Ce0.2Fe0.3Co0.7O3 perovskite‐type catalysts are synthesized through a facile bio‐templating method taking wood fiber as template for achieving the four‐way purification of PM, NOx, CO, and HC emitted by automobile exhausts. The catalyst samples were characterized by X‐ray diffractometer, Fourier‐transform infrared spectroscopy, scanning electron microscope and Brunauer–Emmett–Teller analysis. The results showed that catalyst sample calcined at 700°C obtained high purity, high surface area (4.01 m2/g), wide pore size distribution and retained the initial wood fiber structure, which was suitable for purifying automobile exhausts. In addition, the performances for four‐way purification under the simulated exhaust were analyzed by simulation test bench. The highest purification efficiency of PM, NOx, HC, and CO can reach 92%, 92%, 98%, and 76%, separately. Moreover, four‐way purification mechanism was deduced according to the theoretical research of Mars‐van krevelen on the redox reaction mechanism and experimental result. [ABSTRACT FROM AUTHOR]

Published
2023
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13. MASR: A novel monitoring method coupled with interpretation platform for near-term management in thermal stratified reservoirs

Author

Bowen Sun, Qingzhi Zong, Yuanning Zhang, Haoqing Wang, Chen Ding, Zhanfeng Qi, Zhu Bao, Xiaobo Liu, Yinzhu Liu, and Xueping Gao

Subjects
History, Environmental Engineering, Polymers and Plastics, Water Quality, General Medicine, Management, Monitoring, Policy and Law, Business and International Management, Eutrophication, Waste Management and Disposal, Industrial and Manufacturing Engineering, Environmental Monitoring
Abstract

Good water quality is critical to public health and aquatic ecological security of global reservoirs. In stratified reservoirs, increasing near-term management demands foster extremely high monitoring and forecasting needs. In this study, a management assistant for stratified reservoirs (MASR) was developed, including a wave-driven monitoring platform and interpretation platform for multiple reservoir water quality variables. The wave-driven platform can adapt to the characteristics of water level changes and transmit the monitoring data through a mobile network to the reservoir manager, which are processed by the interpretation platform in real time for near-term management. After several months of application, MASR monitored 1237 groups of valid profile water quality data with an acceptable error, which showed a strong capacity for capturing the water quality dynamics in a stratified reservoir. The effective identification of thermal stratification structures and anoxic zones can help managers to design withdrawal schemes for reservoirs. Moreover, the prediction of algae state based on the back propagation (BP) neural network provided the basis for making operation plans to proactively control algae blooms. Our study provides an economical and convenient solution for stratified reservoirs to address near-term management issues.

Published
2022

14. Mesenchymal stem cells induced regulatory dendritic cells from hemopoietic progenitor cells through Notch pathway and TGF-β synergistically

Author

Han Yin, Yulei Dong, Xiaojing Li, Shaoda Ren, Dawei Wang, and Zhanfeng Qi

Subjects
0301 basic medicine, Immunology, Notch signaling pathway, CD34, Regenerative medicine, Immunophenotyping, Mice, 03 medical and health sciences, 0302 clinical medicine, Transforming Growth Factor beta, Animals, Immunology and Allergy, Progenitor cell, Cells, Cultured, Receptors, Notch, biology, Chemistry, CD117, Mesenchymal stem cell, Cell Differentiation, Mesenchymal Stem Cells, Dendritic Cells, Hematopoietic Stem Cells, Coculture Techniques, Cell biology, Haematopoiesis, 030104 developmental biology, Gene Expression Regulation, biology.protein, Cytokines, Biomarkers, Jagged-1 Protein, Signal Transduction, 030215 immunology, Transforming growth factor
Abstract

Mesenchymal stem cells (MSCs) are one of the attractive candidates in regenerative medicine of many clinical applications because of their low immunogenicity and immunomodulatory property. Our previous studies provided that mouse bone marrow-derived Sca-1+MSCs could drive the differentiation of regulatory DC (regDCs) (Scal-1+ BM-MSC-driven DC [sBM-DCs]) from hemopoietic progenitor cells (HPCs) and the Notch pathway played a critical role in maintaining the immunomodulatory property. However, the detailed mechanisms of their immunoregulatory capacity are not fully defined. In the present study, we show that BM-MSCs expressed high levels of Jagged 1 while sBM-DCs expressed high levels of Notch1. Jagged1 expressed on the surface of BM-MSCs initiated Notch signaling to maintain the immunomodulatory property of the sBM-DCs. The level of TGF-β is high in MSCs, either alone or coculture with HPCs medium. TGF-β plays a vital role in the proliferation and differentiation of sBM-DCs and inhibition of TGF-β reduce the number and increase the percentage of CD34, CD117, CD135 of generation cells. Thus, MSCs induced the regDCs from HPCs via the Notch signaling pathway and TGF-β synergistically. This study further broadens our understanding of the immunomodulatory mechanism and the potential therapeutic efficacy of MSCs.

Published
2020

16. The Effect of Mass Ratio and Damping Coefficient on the Propulsion Performance of the SemiActive Flapping foil of the Wave Glider

Author

Jingsheng Zhai, Bo Zou, Zhanfeng Qi, Lishuang Jia, and Min Jiang

Subjects
Reduced frequency, Materials science, 020101 civil engineering, Ocean Engineering, 02 engineering and technology, Propulsion, 01 natural sciences, 010305 fluids & plasmas, 0201 civil engineering, symbols.namesake, lcsh:Oceanography, lcsh:VM1-989, 0103 physical sciences, Fluent, lcsh:GC1-1581, FOIL method, Water Science and Technology, Civil and Structural Engineering, Finite volume method, wave glider, Reynolds number, lcsh:Naval architecture. Shipbuilding. Marine engineering, Mechanics, Mass ratio, Power (physics), damping coefficient, propulsive performance, symbols, mass ratio, semiactive flapping foil
Abstract

A numerical investigation on the propulsion performance of the semi-active flapping foil of the wave glider with different mass ratio and damping coefficient is investigated. The commercial CFD software Fluent is used to solve the URANS equations around the flapping foil by the Finite Volume Method. A mesh of 2D NACA0012 foil with the Reynolds number Re = 42,000 is used in all simulations. We first analyze the effect of the mass ratio on the mean output power coefficient and propulsion efficiency and note that with the variation of the mass ratio, the propulsion efficiency decreases slightly. Besides, we find that the mass ratio has a noticeable influence on the mean output power coefficient, and the influence is determined by the reduced frequency. For high reduced frequency, with the increase of the mass ratio, the propulsion performance of the flapping foil decreases monotonously. For low reduced frequency, the mean output power increases slightly. For critically reduced frequency, the mean output power coefficient of the foil firstly increases and then decreases via the mass ratio increase. Then, we examine the influence of the damping coefficient on the propulsion performance of the flapping foil and find that the damping coefficient has a severe adverse effect on the output power and propulsion efficiency. We conclude that the influence of the damping coefficient should be considered first when we design the propulsion device of the semi-active flapping foil. Meanwhile, we should also consider the sea conditions to choose the mass ratio to optimize the flapping foil.

Published
2020

17. Characteristics and discovery significance of the Upper Triassic–Lower Jurassic marine shale oil in Qiangtang Basin, China

Author

Anjiang SHEN, Xiaodong FU, Jianyong ZHANG, Xuebin WEI, Anping HU, Jian WANG, Shaoyun XIONG, Xiugen FU, Yuan XIE, Siqi LIU, Xi LI, Xin WANG, Xunyun HE, Zhanfeng QIAO, Jianfeng ZHENG, and Junmao DUAN

Subjects
marine shale oil, Bagong Formation, Upper Triassic, Quse Formation, Lower Jurassic, Biluocuo area, Petroleum refining. Petroleum products, TP690-692.5
Abstract

Mesozoic marine shale oil was found in the Qiangtang Basin by a large number of hydrocarbon geological surveys and shallow drilling sampling. Based on systematic observation and experimental analysis of outcrop and core samples, the deposition and development conditions and characteristics of marine shale are revealed, the geochemical and reservoir characteristics of marine shale are evaluated, and the layers of marine shale oil in the Mesozoic are determined. The following geological understandings are obtained. First, there are two sets of marine organic-rich shales, the Lower Jurassic Quse Formation and the Upper Triassic Bagong Formation, in the Qiangtang Basin. They are mainly composed of laminated shale with massive mudstone. The laminated organic-rich shale of the Quse Formation is located in the lower part of the stratum, with a thickness of 50–75 m, and mainly distributed in southern Qiangtang Basin and the central-west of northern Qiangtang Basin. The laminated organic-rich shale of the Bagong Formation is located in the middle of the stratum, with a thickness of 250–350 m, and distributed in both northern and southern Qiangtang Basin. Second, the two sets of laminated organic-rich shales develop foliation, and various types of micropores and microfractures. The average content of brittle minerals is 70%, implying a high fracturability. The average porosity is 5.89%, indicating good reservoir physical properties to the level of moderate–good shale oil reservoirs. Third, the organic-rich shale of the Quse Formation contains organic matters of types II1 and II2, with the average TOC of 8.34%, the average content of chloroform bitumen ‘A’ of 0.66%, the average residual hydrocarbon generation potential (S1+S2) of 29.93 mg/g, and the Ro value of 0.9%–1.3%, meeting the standard of high-quality source rock. The organic-rich shale of the Bagong Formation contains mixed organic matters, with the TOC of 0.65%–3.10% and the Ro value of 1.17%–1.59%, meeting the standard of moderate source rock. Fourth, four shallow wells (depth of 50–250 m) with oil shows have been found in the organic shales at 50–90 m in the lower part of the Bagong Formation and 30–75 m in the middle part of the Quse Formation. The crude oil contains a high content of saturated hydrocarbon. Analysis and testing of outcrop and shallow well samples confirm the presence of marine shale oil in the Bagong Formation and the Quse Formation. Good shale oil intervals in the Bagong Formation are observed in layers 18–20 in the lower part of the section, where the shales with (S0+S1) higher than 1 mg/g are 206.7 m thick, with the maximum and average (S0+S1) of 1.92 mg/g and 1.81 mg/g, respectively. Good shale oil intervals in the Quse Formation are found in layers 4–8 in the lower part of the section, where the shales with (S0+S1) higher than 1 mg/g are 58.8 m thick, with the maximum and average (S0+S1) of 6.46 mg/g and 2.23 mg/g, respectively.

Published
2023
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18. Study of Flexural Response in Strain Hardening Cementitious Composites Based on Proposed Parametric Model

Author

Zhiyi Huang, Hui Li, Wenhua Chen, and Zhanfeng Qi

Subjects
Materials science, linear constitutive model, shear deflection, Constitutive equation, 0211 other engineering and technologies, 020101 civil engineering, 02 engineering and technology, Bending, lcsh:Technology, Article, 0201 civil engineering, moment-curvature response, Flexural strength, 021105 building & construction, Ultimate tensile strength, medicine, General Materials Science, Composite material, lcsh:Microscopy, strain hardening cementitious composites, lcsh:QC120-168.85, lcsh:QH201-278.5, lcsh:T, Stiffness, Strain hardening exponent, Shear (sheet metal), lcsh:TA1-2040, lcsh:Descriptive and experimental mechanics, lcsh:Electrical engineering. Electronics. Nuclear engineering, medicine.symptom, Deformation (engineering), lcsh:Engineering (General). Civil engineering (General), lcsh:TK1-9971
Abstract

Strain hardening cementitious composites (SHCCs) are widely used in projects due to their excellent deformation resistance and large energy absorption capacity. However, determining tensile strain capacity is still a challenge for engineers. The current popular approach is to use inverse methods to predict the tensile behavior of SHCCs, such as the UM method (Qian and Li) and the JCI (Japan Concrete Institute) method. The key to these two approaches is to acquire the exact relationship between the bending and the uniaxial response. In this paper, a reasonable linear constitutive model of the SHCCs is modified. Initially, the moment-curvature diagrams are discussed by material parameters. The results reveal that the moment-curvature response is quite sensitive to the variations in the parameter of transition strain &alpha, post-cracking tensile stiffness &eta, and strain softening stiffness &mu, however, for the compressive parameters, the moment-curvature responses influence on flexural behavior is insignificant. Moreover, the load-deflection curve in the mid-span of SHCC, based on the consideration of shear effect, is simulated under a four-point bending test (FPBT). The results show a remarkable consistency with the experimental data when compared to the previous simulations. It is expected that this modified method can enhance an accurate program in order to obtain the tensile capacity.

Published
2018

19. Hydrocarbon Accumulation and Overpressure Evolution in Deep–Ultradeep Reservoirs in the Case of the Guole Area of the Tarim Basin

Author

Zhanfeng Qiao, Tianfu Zhang, Ruyue Wang, Yahao Huang, Yifan Xue, Jiajun Chen, Haonan Tian, Anjiang Shen, and Chunsong Si

Subjects
fluid inclusion, paleo-pressure evolution, paleo-fluid source, deep reservoirs, Tarim Basin, Mineralogy, QE351-399.2
Abstract

Usually, deep oil and gas accumulation is often controlled by strike–slip faults. However, in the Tarim Basin, deep Ordovician oil and gas accumulations are also found in areas far from the fault zone. The process of oil and gas accumulation in deep reservoirs far from strike–slip fault zones is still unclear at present. The source and evolution of Ordovician fluids were analyzed using inclusion geochemical methods and the U–Pb dating technique. The analysis of rare earth elements and carbon–oxygen–strontium isotopes in the reservoirs showed that the reservoirs were weakly modified by diagenetic fluid. The fluid was derived from the fluid formation during the same period as the seawater, and no oxidizing fluid invaded the reservoir. The late oil and gas reservoirs had good sealing properties. The U–Pb dating results combined with homogenization temperature data revealed that the first-stage oil was charged during the Late Caledonian Period, and the second-stage natural gas was charged during the Middle Yanshanian Period. The evolution of the paleo-pressure showed that the charging of natural gas in the Middle Yanshanian was the main reason for the formation of reservoir overpressure. The strike–slip fault zone was basically inactive in the Middle Yanshanian. During this period, the charged natural gas mainly migrated to the reservoir along the unconformity surface and the open strike–slip fault zone in the upper part of the Ordovician reservoir. The source of the fluid shows that the reservoir in the late stage had good sealing properties, and there was no intrusion of exogenous fluid. The overpressure in the reservoir is well preserved at present.

Published
2024
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20. Development, Application and Direction of Development of Urea-SCR

Author

Zhanfeng Qi, Xiuli Guo, and Shusen Li

Subjects
Pollution, General Computer Science, Waste management, 020209 energy, media_common.quotation_subject, Air pollution, Selective catalytic reduction, 02 engineering and technology, Limiting, medicine.disease_cause, behavioral disciplines and activities, Chemical reaction, chemistry.chemical_compound, 020303 mechanical engineering & transports, 0203 mechanical engineering, chemistry, 0202 electrical engineering, electronic engineering, information engineering, medicine, Urea, Environmental science, Nitrogen oxide, NOx, media_common
Abstract

Nitrogen oxide (NOx) is one of main pollution sources of air pollution, so it need to be more and more stringent emission regulations limiting pollution. Selective catalytic reduction (SCR) technology is the mainstream technology to remove NOx at euro V and euro VI stage. By analyzing chemical reaction mechanism of selective catalytic reduction (Urea-SCR) of urea, research actuality of Urea-SCR from the urea storage device, urea supply system, catalystic converter and control unit separately was pointed out. At last development trend of SCR technology based on research that we have was analyzed.

Published
2016

21. Effects of cenosphere on the mechanical properties of cement-based composites

Author

Zhanfeng Qi, Lei Zhang, Wenhua Chen, and Zhiyi Huang

Subjects
Cement, Toughness, Materials science, 0211 other engineering and technologies, 020101 civil engineering, Fracture mechanics, 02 engineering and technology, Building and Construction, 0201 civil engineering, Compressive strength, Flexural strength, Cenosphere, 021105 building & construction, Ultimate tensile strength, General Materials Science, Composite material, Civil and Structural Engineering, Shrinkage
Abstract

Cenosphere is an industrial waste residue used as lightweight aggregate in cement-based composites. In this work, we investigated the influences of cenosphere on the properties and applicability of cement-based composites. The compressive and flexural strength, bending toughness, tensile ductility, and shrinkage of the composites were measured. Meanwhile, the environmental and economic benefits of cenosphere were analyzed. Our results showed that cenosphere-added lightweight cement-based composites exhibited a density of 1477.52–1734.23 kg/m3, compressive strength of 63.94–70.69 MPa, and flexural strength of 9.50–14.71 MPa, depending on the cenosphere content. The calculated fracture energy of the matrix notably dropped with increasing cenosphere content due to the weak interface transition zone between the aggregate and cement paste. Moreover, the incorporation of cenosphere had a negative effect on the tensile strain capacity and tensile strength of composites. The high bridging stress of the fibers ensured the tensile ductility and bending properties of the cement-based composites. Due to internal curing effect of cenosphere, the shrinkage of lightweight toughness cement-based composites was effectively reduced with increasing cenosphere content. Compared with the control group, the embodied energy of the cement-based composites containing 30% cenosphere was reduced from 10.12 to 7.20 GJ/m3, while the global warming intensity was reduced by 37.85%. Therefore, developing eco-friendly cement-based composites with cenosphere is viable approach to mitigate the environmental costs of construction.

Published
2020

22. Research on the characteristics of wave observation of wave glider

Author

Zhanfeng Qi, Qin Yufeng, Zhang Shuang, Zhanhui Qi, and Guofu Li

Subjects
History, Glider, Nonlinear Sciences::Cellular Automata and Lattice Gases, Geology, Computer Science Applications, Education, Marine engineering
Abstract

Wave glider is a new class of ocean mobile observation vehicle. It is a new applied research direction that using wave glider for wave observation. Currently, wave observation is usually performed at fixed points by using wave buoys, the research on using wave glider for navigational observations is still rare, and the characteristics of wave observation using wave glider is not yet mastered. The article Research on the characteristics of wave observation of wave glider, Based on the experimental results, analyze the differences and the correlations between wave glider and wave buoy in wave height, wave period, wave number and wave direction. Analyze the existence mechanism of the difference and propose the theoretical basis for eliminating the difference or correcting the observation data of wave glider. Based on experimental data and theoretical analysis, it is proved that the wave glider is feasible to observe wave. The average correlation coefficient between the observation data of wave glider and the observation data of wave buoy is above 0.9, the results prove that there is a strong correlation between wave glider and wave buoy.

Published
2020

23. An integrated design method for functional cementitious composites (FCC)

Author

Wenhua Chen, Zhiyi Huang, Lei Zhang, and Zhanfeng Qi

Subjects
Flexibility (engineering), Integrated design, Absorption of water, Materials science, Sorptivity, business.industry, Engineered cementitious composite, 0211 other engineering and technologies, 020101 civil engineering, 02 engineering and technology, Building and Construction, engineering.material, 0201 civil engineering, 021105 building & construction, engineering, General Materials Science, Response surface methodology, Process engineering, business, Damage tolerance, Embodied energy, Civil and Structural Engineering
Abstract

The disease of the operating tunnel lining has seriously threatened traffic safety and needs to be cured urgently. Engineered Cementitious Composite (ECC), due to its excellent deformation ability and high damage tolerance, has the potential to retrofit the linings, but the quite high cost of raw material, mainly involving PVA fiber, has limited the broader application of ECC in the civil infrastructure. This paper proposed a practical design method of integrating four parts: engineering requirements, economical cost, matrix design and environmental assessment. A novel type of cementitious composites with low water absorption, moderate flexibility and light-weigh, named functional cementitious composite (FCC), was exploited to handle the common diseases of tunnel lining economically and environmentally. The results indicated that the cost-effective fiber is available to prepare the FCC, which shows great performance of cost-saving and functional properties. Besides, the functional characteristics, including low water sorptivity, light density and moderate flexibility, were optimized by response surface methodology (RSM) and subsequently the optimized results were proven by the test results. Finally, the environmental assessment emphasized an excellent material greenness of FCC with reduction of 26.9% embodied energy consumption and 26.2% carbon equivalent emission compared to the ECC (M45).

Published
2020

24. Planar Path Following Control for Wave Glider and Experimental Study

Author

Jingsheng Zhai, Zhanfeng Qi, Yufeng Qin, Jian Shi, and Bingzhen Wang

Subjects
Ecology, Computer science, Underactuation, Control theory, Control system, Path (graph theory), Glider, PID controller, Feedback linearization, Fuzzy logic, Earth-Surface Processes, Water Science and Technology
Abstract

Qi, Z.; Wang, B.; Qin, Y.; Shi, J., and Zhai, J., 2020. Planar path following control for wave glider and experimental study. In: Zheng, C.W.; Wang, Q.; Zhan, C., and Yang, S.B. (eds.), Air-Sea Interaction and Coastal Environments of the Maritime and Polar Silk Roads. Journal of Coastal Research, Special Issue No. 99, pp. 16-20. Coconut Creek (Florida), ISSN 0749-0208.This paper addresses a path following problem of Wave Glider along a predefined path in horizontal plane. The path following controller designing is challenging since Wave Glider is weak maneuvering, underactuated, inaccuracy mathematical model and large environmental disturbances. First, a planar curve path tracking error model is established in the Serret-Frenet coordinate frame. Based on the LOS guidance law and the virtual target method, a planar guidance controller for underactuated Wave Glider is presented to ensure the stability of the path following. And then, according to the classic feedback linearization PID controller and fuzzy controller, a fuzzy adaptive PID controller is developed. Fuzzy controller is used to achieve PID controller parameters online adaptive adjust, in order to improve the robustness of the control system under the influence of environmental disturbances and inaccuracy modeling parameters. Furthermore, analyzing the typical application scenarios of Wave Glider, we set two simulation path in horizontal plane named polyline path and circular path. Numerical simulation results illustrate the proposed control design is effective to deal with planar following problem of Wave Glider. Two sea trails show that the controller can achieve the path following task, however, the speed of Wave Glider is directly related to the accuracy of the path following.

Published
2020

25. Numerical Investigation of the Semi-Active Flapping Foil of the Wave Glider

Author

Guofu Li, Jingsheng Zhai, Jian Shi, Zhanfeng Qi, Bo Zou, Huiqiang Lu, and Yufeng Qin

Subjects
critical pitching amplitude, Reduced frequency, Materials science, 020209 energy, Ocean Engineering, Thrust, 02 engineering and technology, 01 natural sciences, semi-active flapping foil, 010305 fluids & plasmas, lcsh:Oceanography, lcsh:VM1-989, 0103 physical sciences, 0202 electrical engineering, electronic engineering, information engineering, lcsh:GC1-1581, FOIL method, Water Science and Technology, Civil and Structural Engineering, wave glider, lcsh:Naval architecture. Shipbuilding. Marine engineering, Mechanics, Critical value, Torsion spring, Amplitude, propulsive performance, Spring (device), Propulsive efficiency
Abstract

A numerical investigation is conducted to study the propulsive performance of the semi-active flapping foil of the wave glider, where the heaving smotion is fully prescribed, and the pitching motion is determined by the hydrodynamic force and torsion spring. A mesh for two-dimensional NACA0012 foil with the Reynolds number Re = 42000 is produced, and a dynamic mesh and sliding interface are used in the computation. The influences of reduced frequency, spring stiffness, and critical pitching amplitude on the hydrodynamic characteristics of semi-active flapping foil are systematically investigated. We find that there is a critical reduced frequency: When the reduced frequency is lower than the critical value, the propulsive performance of flapping foil can be improved exponentially, and when the reduced frequency is higher than the critical value, the semi-active flapping foil cannot provide an effective thrust. For a greater reduced frequency, there is an optimal spring stiffness value, which corresponds to the maximum value of the output power coefficient. For a lower reduced frequency, the mean value of the output power coefficient monotonically decreases as the spring stiffness increases. We also notice that the propulsive efficiency of flapping foil monotonically decreases as the spring stiffness increases. Finally, we find that the appropriate critical pitching amplitude can improve the propulsive performance of semi-active flapping foil, especially for greater heaving amplitudes.

Published
2019

26. Design and test of urea hydrolysis reactor for vehicle

Author

Xiuli Guo, Shusen Li, and Zhanfeng Qi

Subjects
Ammonia production, Ammonia, chemistry.chemical_compound, Hydrolysis, UNIQUAC, Chemistry, lcsh:TA1-2040, Inorganic chemistry, Urea, Ammonia volatilization from urea, Diesel engine, lcsh:Engineering (General). Civil engineering (General), Pyrolysis
Abstract

Ammonia production technology of urea-SCR system for vehicle is mainly used in pyrolysis. The reaction is complex, and there are some side effects. So a kind of urea hydrolysis device for vehicle is designed. Based on the in-depth analysis of ammonia production technology’s mechanism of urea hydrolysis for vehicle, the modified extended UNIQUAC equation and PHS equation of state were used to solve the thermodynamic model, and the experimental verification was carried out on the JX493ZLQ3 diesel engine. The results show that the design of urea hydrolysis reactor is in agreement with the experimental results. In the environment of urea hydrolysis, the higher the hydrolysis temperature, the faster the urea hydrolysis and the faster the production of ammonia. Under the same conditions, the hydrolysis rate of urea was the same, the higher the initial quality, the more ammonia produced. The method is suitable for the ammonia production technology of urea hydrolysis for vehicle and can be used for the formation of urea hydrolysis SCR system.

Published
2017

27. The influence of fly ash on the bending characteristics of cost-effective cementitious composites

Author

Lei Zhang, Wenhua Chen, Zhiyi Huang, and Zhanfeng Qi

Subjects
Materials science, Fly ash, Bending, Cementitious composite, Composite material
Abstract

In order to popularize the cost-effective strain hardening cementitious composites (SHCCs) in the tunnel reinforcement, SHCCs were prepared with domestic fibers in this paper. the crack propagation, load-deflection curve, and bending stiffness of SHCCs were studied by using the four points bending test, digital image correlation technology (DIC) and scanning electron microscopy (SEM). The results indicate that all the samples exhibit the characteristics of multi-cracking, and accordingly, the load-deflection curves present the strain hardening behavior. With the content of fly ash ranging from 40% to 60%, the number of cracks, captured by DIC technology, increased from 6 to 12. Meanwhile, the hardening phase of the bending stress-deflection curve became steady along with the flexural strengths dropping from 12.27 MPa to 9.49 MPa. In addition, through fitting the load-deflection curve, there is a good linear rule of stiffness in all the samples during hardening stages, and the stiffness also degenerates linearly with the increase of the fly ash. It is expected that the experimental outcomes are useful to design the target stiffness of cost-effective SHCCs in practical applications.

Published
2019

31. Planar Path Following Control for Wave Glider and Experimental Study.

Author

Zhanfeng Qi, Bingzhen Wang, Yufeng Qin, Jian Shi, and Jingsheng Zhai

Subjects
*ROBUST control, *MATHEMATICAL errors, *ECOLOGICAL disturbances, *DYNAMIC positioning systems
Abstract

This paper addresses a path following problem of Wave Glider along a predefined path in horizontal plane. The path following controller designing is challenging since Wave Glider is weak maneuvering, underactuated, inaccuracy mathematical model and large environmental disturbances. First, a planar curve path tracking error model is established in the Serret-Frenet coordinate frame. Based on the LOS guidance law and the virtual target method, a planar guidance controller for underactuated Wave Glider is presented to ensure the stability of the path following. And then, according to the classic feedback linearization PID controller and fuzzy controller, a fuzzy adaptive PID controller is developed. Fuzzy controller is used to achieve PID controller parameters online adaptive adjust, in order to improve the robustness of the control system under the influence of environmental disturbances and inaccuracy modeling parameters. Furthermore, analyzing the typical application scenarios of Wave Glider, we set two simulation path in horizontal plane named polyline path and circular path. Numerical simulation results illustrate the proposed control design is effective to deal with planar following problem of Wave Glider. Two sea trails show that the controller can achieve the path following task, however, the speed of Wave Glider is directly related to the accuracy of the path following. [ABSTRACT FROM AUTHOR]

Published
2020
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33. Dolomitization evolution and its effects on hydrocarbon reservoir formation from penecontemporaneous to deep burial environment

Author

Anjiang SHEN, Xianying LUO, Anping HU, Zhanfeng QIAO, and Jie ZHANG

Subjects
dolomitization, dolomitization pathway, dolomite reservoir, carbonates, penecontemporaneous environment, burial environment, Petroleum refining. Petroleum products, TP690-692.5
Abstract

Aiming at the scientific problem that only part of dolomite acts as dolomite reservoir, this paper takes the multiple dolomite-bearing formations in the Tarim and Ordos basins, NW China and Sichuan Basin, SW China as the study object, by means of mineral petrological analysis and geochemical methods including carbonate clumped isotope, U-Pb isotopic dating, etc., to rebuild the dolomitization pathway and evaluate its effects on reservoir formation. On the basis of detailed rock thin section observation, five dolomitic structural components are identified, including original fabric-retained dolomite (microbial and/or micrite structure), buried metasomatic dolomite I (subhedral–euhedral fine, medium and coarse crystalline structure), buried metasomatic dolomite II (allotriomorphic–subhedral fine, medium and coarse crystalline structure), buried precipitation dolomite and coarse crystalline saddle dolomite. Among them, the first three exist in the form of rocks, the latter two occur as dolomite minerals filling in pores and fractures. The corresponding petrological and geochemical identification templates for them are established. Based on the identification of the five dolomitic structural components, six dolomitization pathways for three types of reservoirs (preserved dolomite, reworked dolomite and limestone buried dolomitization) are distinguished. The initial porosity of the original rock before dolomitization and the dolomitization pathway are the main factors controlling the development of dolomite reservoirs. The preserved dolomite and reworked dolomite types have the most favorable dolomitization pathway for reservoir formation, and are large scale and controlled by sedimentary facies in development and distribution, making them the first choices for oil and gas exploration in deep carbonate formations.

Published
2022
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35. Single-Well Dynamic Permeability Splitting Algorithm and Classification Evaluation: A Case Study of a Super-Thick Carbonate Reservoir in the Middle East

Author

Peng Cao, Yongjun Wang, Zhanfeng Qiao, Guangya Zhu, Haiyang Su, Guanming Shao, Jie Gong, and Haiyang Deng

Subjects
super-thick reservoir, well test, PLT, dynamic permeability, SPI, General Works
Abstract

The permeability interpretation accuracy of single wells in the Middle East super-thick carbonate reservoir can hardly meet the actual demand of water injection development. Therefore, this study develops an iterative split algorithm to calculate single-well segmental dynamic permeability and SPI (specific production index) based on the dynamic and static well test, PLT (production log test), production test, and logging interpretation data. Moreover, the dynamic permeability classification evaluation index was optimized. The detailed steps are as follows: 1) The liquid supply of a single well is split according to tp PLT. 2) For some production intervals, the log interpretation data are applied to carry out the second iteration splitting of formation coefficient and fluid supply. 3) The proportion of liquid supply in the stratification section is calculated based on the calculation results of steps 1 and step 2. 4) The total formation coefficient of well test interpretation is divided based on the calculation results of step 3. 5) The dynamic permeability and SPI are calculated. The research results show that the dynamic permeability and SPI of a single well are accurate to the scale of one meter from the several original meters to tens of meters, which can better meet the needs of water injection development. In addition, SPI can be used as an essential index for permeability classification evaluation. Taking the Halfaya Oilfield and the Mishrif format reservoir as examples, the low penetration rate of the MB1-2 high penetration rate is 200md and the lower specific production index limit is 0.35 bbl/(d·m·psi), respectively. The dynamic foundation of the high-permeability layer is identified. This method offers a new idea for the title of high-permeability streaks. Moreover, this method can provide the scientific basis for correcting the permeability attribute model, water injection plan optimization, single-well completion cementing scheme, and water coning control, which can be popularized and applied in the same reservoirs.

Published
2022
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36. Eogenetic karst and its control on reservoirs in the Ordovician Majiagou Formation, eastern Sulige gas field, Ordos Basin, NW China

Author

Kang XIE, Xiucheng TAN, Min FENG, Baobao WANG, Shoukang ZHONG, Mengying YANG, Wancai NIE, Zhanfeng QIAO, and Wei ZENG

Subjects
porous reservoir, reservoir characteristics, eogenetic karst, dolomite, Majiagou Formation, Ordovician, Petroleum refining. Petroleum products, TP690-692.5
Abstract

To further ascertain the origin of the Ordovician Majiagou Formation reservoirs in the Ordos Basin, the M54-M51 sub-members of the Ordovician Majiagou Formation in the eastern Sulige gasfield of Ordos Basin were taken as examples to analyze the vertical development characteristics of eogenetic karst and to discover the dissolution mechanism and its control on reservoirs through observation of a large number of cores and thin sections. According to detailed analysis of petrologic characteristics, the reservoir rock types include micritic dolomite, grain dolomite and microbialite which have mainly moldic pore, intergranular (dissolved) pore, and (dissolved) residual framework pore as main reservoir space respectively. The study area developed upward-shallowing sequences, with an exposure surface at the top of a single upward-shallowing sequence. The karst systems under the exposure surface had typical exposure characteristics of early dissolution and filling, indicating these reservoirs were related to the facies-controlled eogenetic karstification. With the increase of karstification intensity, the reservoirs became worse in physical properties.

Published
2020
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37. Observation of Zeeman splitting effect in a laser-driven coil

Author

Baojun Zhu, Zhe Zhang, Chang Liu, Dawei Yuan, Weiman Jiang, Huigang Wei, Fang Li, Yihang Zhang, Bo Han, Lei Cheng, Shangqing Li, Jiayong Zhong, Xiaoxia Yuan, Bowei Tong, Wei Sun, Zhiheng Fang, Chen Wang, Zhiyong Xie, Neng Hua, Rong Wu, Zhanfeng Qiao, Guiyun Liang, Baoqiang Zhu, Jianqiang Zhu, Shinsuke Fujioka, and Yutong Li

Subjects
Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798
Abstract

The Zeeman splitting effect is observed in a strong magnetic field generated by a laser-driven coil. The expanding plasma from the coil wire surface is concentrated at the coil center and interacts with the simultaneously generated magnetic field. The Cu I spectral lines at wavelengths of 510.5541, 515.3235, and 521.8202 nm are detected and analyzed. The splittings of spectral lines are used to estimate the magnetic field strength at the coil center as ∼31.4 ± 15.7 T at a laser intensity of ∼5.6 × 1015 W/cm2, which agrees well with measurements using a B-dot probe. Some other plasma parameters of the central plasma disk are also studied. The temperature is evaluated from the Cu I spectral line intensity ratio, while the electron density is estimated from the Stark broadening effect.

Published
2022
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38. Sedimentary and reservoir architectures of MB1-2 sub-member of Middle Cretaceous Mishrif Formation of Halfaya Oilfield in Iraq

Author

Wenju SUN, Zhanfeng QIAO, Guanming SHAO, Xiaowei SUN, Jixian GAO, Peng CAO, Jie ZHANG, and Wangang CHEN

Subjects
Iraq, Halfaya Oilfield, Cretaceous, Mishrif Formation, sedimentary microfacies, reservoir architecture, Petroleum refining. Petroleum products, TP690-692.5
Abstract

Based on comprehensive analysis of core, cast thin section, logging and seismic data, the sedimentary and reservoir architectures of the MB1-2 sub-member of Mishrif Formation in Halfaya Oilfield, Iraq, are studied. The MB1-2 sub-member of Mishrif Formation has three types of microfacies, lagoon, bioclastic shoal, and tidal channel, and facies architecture controlled by sequence stratigraphy. In the 4th-order sequence, the lagoon facies aggradated vertically, and the bioclastic shoals in lenticular shape embed in the background of lagoon, the end of the sequence is incised by the “meandering river” shape tide channel, which represents the depositional discontinuity. Three types of reservoirs including tidal channel grainstone to packstone reservoirs, bioclastic shoal grainstone to packstone reservoirs and dissolved lagoon wackestone reservoirs are developed. The reservoir architectures within tidal channel and bioclastic shoal are strickly controlled by grainy facies, whereas the dissolved lagoon reservoirs controlled by both facies and dissolution are related to the sequence boundary. The reservoir sections occur mainly in the 4th sequence highstand systems tract (HST) and are separated by barriers formed in the transgressive systems tract (TST). Complicated facies architecture and dissolution modification resulted in strong heterogeneity within the reservoir, which showed the characteristics of “attic type” architecture. The results of this study can guide the development of similar reservoirs in the Middle East.

Published
2020
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39. Sedimentary environment and petrological features of organic-rich fine sediments in shallow water overlapping deposits: A case study of Cambrian Yuertus Formation in northwestern Tarim Basin, NW China

Author

Zhimin JIN, Xiucheng TAN, Hao TANG, Anjiang SHEN, Zhanfeng QIAO, Jianfeng ZHENG, Fei LI, Shixuan ZHANG, Lei CHEN, and Chenggang ZHOU

Subjects
fine-grained sediments, source rock, shallow water overlap, exposed surface, paleokarst, sedimentary model, Petroleum refining. Petroleum products, TP690-692.5
Abstract

Abstract: Taking the Cambrian Yuertus Formation outcrop profiles in the Aksu-Keping-Wushi areas of northwestern Tarim Basin as examples, the depositional environments of organic rich fine sediment were analyzed by examining the outcrop profiles macroscopically and microscopically. The study reveals that: (1) The lower part of the Yuertus Formation consists of organic-rich fine sediment or thin rhythmic interbeds of organic-rich fine sediment and siliceous sediment, the formation transforms to terrigenous diamictic grain shoal and inverse grading carbonate rocks upward. (2) The thin limestone interbedded with dark shale rhythmically has inverse grading. (3) The thin-bedded siliceous rock has metasomatic residual granular texture, stromatolithic structure and cementation fabric in vugs. (4) There are iron crust layers at the top of the shallowing diamictic grain shoal, beneath which exposed karst signs, such as karrens, dissolved fissures, sack-like vugs, near surface karst (plastic) breccia, breccia inside the karst system and terrigenous clastic fillings, can be seen. (5) Both the outcrops and seismic profiles show that organic-rich fine sediments above the unconformities or exposed surfaces are characterized by overlapping. The organic-rich fine sediment of the Cambrian Yuertus Formation was deposited in the anoxic-suboxidized restricted gulf lagoon environment, and its formation was controlled by high paleoproductivity and poor oxygen exchange jointly, then a shallow-water overlapping sedimentary model has been established. The results will help enrich and improve the sedimentary theory of organic-rich fine sediments.

Published
2020
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40. Tectonic-Lithofacies Paleogeography and Sizeable Reservoir Potential in the Early Cambrian Postrift Depressed Carbonate Ramp, Tarim Basin, NW China

Author

Yongjin Zhu, Jianfeng Zheng, Peng Cao, Zhanfeng Qiao, Guang Yu, LingLi Liu, and LiLi Huang

Subjects
Geology, QE1-996.5
Abstract

AbstractThe carbonate ramps developed at the postrift depositional stage have become a major field of ultradeep hydrocarbon exploration. Taking the Lower Cambrian Xiaoerblak Formation in the Tarim Basin as an example, the paleotectonic framework and lithofacies paleogeography response, reservoir distribution, and internal architecture difference were systematically analysed based on the data of newly processed 42 2D seismic lines, 9 outcrops, and 22 wells. The results show that (1) the palaeotectonic framework with three palaeohighs and two topographic lows (abbreviated to “TPTT”) dominated the differentiation in the ramp system (association) at the Xiaoerblak depositional stage. High-energy grain shoals and mounds occurred around the palaeohighs, and the sediment composition was further complicated by ancient ocean currents. Three subtypes of ramp are recognized: the slope-plateau ramp dominated by grain shoal on the northern margin of the paleohigh of the southwestern Tarim, homocline ramp dominated by the mound-shoal complex on the Keping-Wensu area lower high, and isolated island type in the Lunnan-Yaha lower high. (2) Xiaoerblak reservoirs mainly occur in the high-energy facies belts in the middle ramps around the palaeohighs because original pores were effectively preserved in early dolomitization and reconstructed at the burial stage. Reservoirs are predicted to mainly distribute in the high-energy mound-shoal zones around three palaeohighs (low uplifts) with an area of 9×104 km2. Different ramp systems show different reservoir properties. There are mainly type II reservoirs (porosity range of 1.8-4.5%, permeability range of 0.5-10×10−3 μm2) with sustained distribution and the largest size in the grain shoals at the slope-plateau ramp, which may be the potential favorable hydrocarbon exploration zone. Based on the example anatomy, the differentiation in the carbonate ramp systems forming at the postrift subsidence stage was structurally dominated. This means that it is crucial to deepen the understanding of the presedimentation palaeotectonic framework for the prediction of promising reservoirs and assessment of reservoir properties.

Published
2021
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41. Diagenesis and Reservoir Evolution Model of the Ediacaran Dengying Formation in the Sichuan Basin: Evidence from Laser Ablation U-Pb Dating and In Situ Isotope Analysis

Author

Zhanfeng Qiao, Jianhua Dong, Zhou Yu, Wenzheng Li, Xiaofang Wang, Lei Jiang, and Hairuo Qing

Subjects
dengying formation, microbial dolomite, elemental mapping, laser ablation U-Pb dating, in situ isotope, diagenetic pore evolution, Mineralogy, QE351-399.2
Abstract

The microbial dolomite of the Ediacaran Dengying Fm., Sichuan Basin, SW China is endowed with abundant oil and gas resources. A complex diagenetic history greatly complicates the development of such microbial dolomite reservoirs, and has severely restrained hydrocarbon exploration. This study focused on key field profiles in Eastern Sichuan and aimed to decipher the origin and evolution of dolomites, using novel techniques, including elemental mapping, laser ablation U-Pb dating as well as carbon, oxygen, and strontium isotope analyses. Additionally, we compared the diagenesis and reservoir development model for the Dengying microbial dolomites of the Central Sichuan to other areas, with the aim to provide practical guidance for oil and gas exploration across the entire Sichuan Basin. Our results have shown that the Ediacaran microbial dolomite in Eastern Sichuan experienced four stages of diagenetic modification–specifically: (1) syn-sedimentary dolomitization; (2) penecontemporaneous cementation of fibrous dolomite cement; (3) bladed dolomite and brown-dark very fine crystalline dolomite cementation during the Ordovician; and (4) fine crystalline dolomite and medium-coarse crystalline dolomite cementation during the Silurian-Devonian. Petrology and geochemistry data imply that each diagenetic phase of dolomitization was mainly sourced from marine-dominated fluids. The influence of tectonically related fluids was rarely noted. Significantly, U-Pb ages of these dolomites reveal that the history of dolomite infill to pores within the Eastern Sichuan Basin clearly post-dated that in the Central Sichuan region, resulting in high porosities (6%–11%) that favored hydrocarbon accumulation. This study suggests that the platform margin at the eastern edge of the Xuanhan-Kaijiang paleo-uplift is favorable as the next key exploration target for microbial dolomites in the Sichuan Basin.

Published
2022
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42. New Method for Characterizing Internal Structure of Fault-Karst Reservoirs and Analysis on Acidizing Fracturing Effect: A Case Study in HLHT Oilfield, Tarim Basin, NW China

Author

Peng Cao, Shaoying Chang, Yongjin Zhu, Jinlong Shen, Zhanfeng Qiao, Guanming Shao, and Xiaowei Sun

Subjects
Geology, QE1-996.5
Abstract

AbstractSuperimposed tectonic movement and karst erosion resulted in a combination of fractures and irregular caves in deep/ultradeep carbonate rocks, typically along major fault swarms. Outlining these fault-karst reservoirs mainly depends on recognizing the strong reflection in seismic profiles; however, characterizing their internal structures is still difficult, which are represented as weak amplitude in seismic profiles. This study intended to propose a method to dissect the internal structure of fault-karst reservoirs, which contains four steps: (1) elimination of the signal interference by the covering bed with strong energy and recognition of internal reservoirs with low energy based on seismic data conversion, frequency division, and inversion; (2) gradient structure tensor analysis based on an anisotropic Gaussian filter for fault-karst reservoir outlining; (3) internal faults and cave recognition on the basis of wave-based inversion; and (4) reevaluation of the number and scale of these faults and caves based on seismic recognition and well test results and verification of their volumes and hydrocarbon reserves. The method was used in the evaluation of the fault-karst reservoir in the Halahatang (HLHT) oilfield, which is located in the north of Tarim Basin. The results show that the fault-karst reservoirs along major faults and their internal structures are effectively recognized, and the error of the predicted depth of the reservoirs decreases from more than 20 m before to less than 4 m now; the drilling success ratio increases from 70% to 90%. In addition, the method supports the recognition of untapped fault-karst reservoirs around shut-in wells, which provides guidance for sidetracking plans. Further, by comparing the geophysical volume of fault-karst reservoirs and the reserve predicted by production performance, the untapped reserve in a certain reservoir can be evaluated; on this basis, producing wells received high yields by targeted acid fracturing. In summary, the method effectively improves the prediction accuracy and the recovery efficiency of fault-karst reservoirs.

Published
2021
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43. Genetic types and distinguished characteristics of dolomite and the origin of dolomite reservoirs

Author

Wenzhi ZHAO, Anjiang SHEN, Zhanfeng QIAO, Liyin PAN, Anping HU, and Jie ZHANG

Subjects
Petroleum refining. Petroleum products, TP690-692.5
Abstract

To find out the origin of dolomite, the precipitation of primary dolomite, and the formation of pores in dolomite, petrologic and geochemical characteristics of typical samples from Sichuan and Tarim Basin were analyzed based on the previous understandings, and three aspects of results were achieved. (1) A classification of dolomite origins based on petrologic features, forming environment, and time sequence was proposed, which shows clear boundaries of diagenetic and characteristic realms and evolved clues between different types of dolomite. (2) Petrographic and geochemical identification marks for different types of dolomite were presented, revealing that the orderly geochemical variation of different types of dolomite is the response to the change of forming environment of dolomite during continuous time sequence. (3) The contribution of dolomitization to the formation of porosity was re-evaluated, revealing that the porosity in dolomite was mostly attributed to the primary pores and supergene dissolution and burial dissolution, and early dolomitization was conducive to the preservation of primary pores. These understandings are of great theoretical significance for identifying the origins and types of dolomite, and can guide the prediction of dolomite reservoirs. Key words: dolomite genetic types, dolomite distinguished characteristics, dolomite porosity origin, protodolomite, primary porosity

Published
2018
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44. Three-dimensional carbonate reservoir geomodeling based on the digital outcrop model

Author

Zhanfeng QIAO, Anjiang SHEN, Jianfeng ZHENG, Shaoying CHANG, and Yana CHEN

Subjects
Petroleum refining. Petroleum products, TP690-692.5
Abstract

To better know the spatial distribution and architecture of carbonate reservoirs, three-dimensional carbonate reservoir geologic modeling based on the digital outcrop model (DOM) is proposed. Based on the traditional geologic study of outcrops, combined with digitizing the outcrop walls by utilizing the advanced instrument (LIDAR, RTK-GPS, GPR, Gigapan, etc), DOM is built, from which geological information based on measured sections and samples (litho-facies, porosity, permeability, sonic velocity) is extracted and used to build the 3-D outcrop reservoir geologic model by modeling software. Eventually the 3-D reservoir geologic model of outcrop is used to guide the subsurface research. The DOM-based 3-D reservoir geologic model for oolitic reservoirs of Triassic Feixianguan Formation in Yudongliang outcrop, NW Sichuan Basin, reveals more realistic spatial distribution of litho-facies, porosity and permeability, and their relationship, consequently providing more reliable evidence for seismic data interpretation and reservoir prediction of subsurface reservoirs with similar geological conditions. Key words: digital outcrop model, carbonate reservoir, 3-D geologic modeling, Triassic Feixianguan Formation, oolitic beach

Published
2015
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45. Anomalous-plasmoid-ejection-induced secondary magnetic reconnection: modeling solar flares and coronal mass ejections by laser–plasma experiments

Author

Quanli Dong, Dawei Yuan, Shoujun Wang, Xun Liu, Yutong Li, Xiaoxuan Lin, Huigang Wei, Jiayong Zhong, Shaoen Jiang, Yongkun Ding, Bobin Jiang, Kai Du, Yongjian Tang, Mingyang Yu, Xiantu He, Neng Hua, Zhanfeng Qiao, Kuixi Huang, Ming Chen, Jianqiang Zhu, Gang Zhao, Zhengming Sheng, and Jie Zhang

Subjects
laboratory astrophysics, magnetic reconnection, laser plasma, solar flare, coronal mass ejection, Applied optics. Photonics, TA1501-1820
Abstract

The driving mechanism of solar flares and coronal mass ejections is a topic of ongoing debate, apart from the consensus that magnetic reconnection plays a key role during the impulsive process. While present solar research mostly depends on observations and theoretical models, laboratory experiments based on high-energy density facilities provide the third method for quantitatively comparing astrophysical observations and models with data achieved in experimental settings. In this article, we show laboratory modeling of solar flares and coronal mass ejections by constructing the magnetic reconnection system with two mutually approaching laser-produced plasmas circumfused of self-generated megagauss magnetic fields. Due to the Euler similarity between the laboratory and solar plasma systems, the present experiments demonstrate the morphological reproduction of flares and coronal mass ejections in solar observations in a scaled sense, and confirm the theory and model predictions about the current-sheet-born anomalous plasmoid as the initial stage of coronal mass ejections, and the behavior of moving-away plasmoid stretching the primary reconnected field lines into a secondary current sheet conjoined with two bright ridges identified as solar flares.

Published
2013
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