10 results on '"Ren, Yanjun"'
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2. A generalized hybrid nonconvex variational regularization model for staircase reduction in image restoration
- Author
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Liming Tang, Zhuang Fang, Chuanjiang He, and Ren Yanjun
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Variational regularization ,Artificial Intelligence ,Computer science ,Cognitive Neuroscience ,Prior probability ,Piecewise ,Real image ,Algorithm ,Laplace operator ,Regularization (mathematics) ,Image restoration ,Computer Science Applications - Abstract
Total variation (TV) regularization model has the excellent performance in noise-removing and edge-preserving. However, it often yields staircase artifacts in the smooth region of the restorations. To attack this problem, we propose a generalized hybrid nonconvex variational regularization model in this paper, which utilizes two nonconvex regularizers to impose the priors to the two different components of the images, respectively. One is nonconvex TV regularizer that measures the piecewise constant component of the input image, and the other is nonconvex Laplacian regularizer that models the piecewise smooth component. New model inherits the advantages of the nonconvex regularization and the first- and second-order hybrid variational regularization, which can well remove the noises while preserving edges and reducing staircase artifacts. To solve this nonconvex minimization problem efficiently, we propose a first-order algorithm based on alternating direction method of multipliers (ADMM) combining with majorization–minimization (MM) scheme. In addition, a sufficient condition for the convergence of the proposed algorithm is provided. In the experiments, we compare the proposed model with several state-of-the-art image denoising models, numerical results illustrate the effectiveness of the proposed model and algorithm for both synthetic and real images in terms of peak signal to noise ratio (PSNR) and structural similarity (SSIM) indexes.
- Published
- 2019
3. Rheological transition of an ethoxylated alkylamine emulsion induced by acetic acid and its application to drilling fluid
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Shulong Chen, Diwen He, Zhai Yufen, Wenxin Dong, and Ren Yanjun
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Shear thinning ,Materials science ,02 engineering and technology ,010402 general chemistry ,021001 nanoscience & nanotechnology ,01 natural sciences ,Viscoelasticity ,0104 chemical sciences ,Acetic acid ,chemistry.chemical_compound ,Colloid and Surface Chemistry ,Rheology ,Shear (geology) ,chemistry ,Liquid crystal ,Drilling fluid ,Emulsion ,Composite material ,0210 nano-technology - Abstract
This work aims to investigate the changes in the shear and oscillation responses of an ethoxylated alkylamine emulsion with the addition of acetic acid and establishes their relationships with the emulsion phase inversion. The initial emulsion behaves as a non-Newtonian fluid exhibiting shear thinning with a viscoelastic gel structure (at rest). Upon the addition of acetic acid, the emulsion first transforms to a structureless (at rest) non-Newtonian fluid with lower viscosity and worse shear thinning compared with the initial state and then converts back to a non-Newtonian fluid with a higher gel strength, higher elasticity (at rest) and better shear thinning than the initial state as the phase inversion proceeds from an oil-continuous stage to a bicontinuous stage. This regained non-Newtonian character can be maintained throughout the whole bicontinuous stage and can even extend to the beginning of the water-continuous stage which is obtained from the bicontinuous stage by increasing the acetic acid content; however, it is ultimately replaced by a structureless (at rest) non-Newtonian fluid that exhibits lower viscosity and worse shear thinning compared with the initial state as the acetic acid content increases. The establishment of relationships among the interfacial moduli and deformation, geometrical factors (i.e., interfacial curvature, droplet shape and size and positional structure) and the liquid crystal phase behaviors help to elucidate the mechanisms that control the rheological transitions of emulsions. Based on these results, a novel water-washable viscoelastic emulsion drilling fluid is proposed.
- Published
- 2019
4. Nutrition Transition with Accelerating Urbanization? Empirical Evidence from Rural China
- Author
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Ren, Yanjun, Castro Campos, Bente, Peng, Yanling, Glauben, Thomas, and Justus Liebig University Giessen
- Subjects
ddc:630 - Published
- 2021
- Full Text
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5. The change of sagital balance after PKP for patients with osteoporotic vertebral compression
- Author
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Jingkun Li, Yun Yang, Hong Wei, Debo Zou, Kaining Zhang, Ren Yanjun, and Yingguang Wu
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Orthodontics ,medicine.anatomical_structure ,business.industry ,medicine ,Compression (physics) ,business ,Sagittal plane ,Balance (ability) - Abstract
Purpose To detect the postoperative change in total spinal alignment in 0VCF patients after PKP. Methods A total of 130 patients with vertebral compression fracture was involved in this study. The entire spine radiographs of every patients were taken pre and postoperatively. The parameters including vertebral body height, pelvic incidence (PI), sacral slope (SS), pelvic tilt (PT), lumbar lordosis (LL), sagittal vertical axis (SVA), and spinosacral angle (SSA). All the parameters were compared before and after PKP. Results In the patients, the VAS score was decreased from 8.26±1.12 preoperative to 2.70±0.90 postoperative. And SVA decreased from 6.82±3.30 cm to 4.07±2.77cm. The change in sagittal balance is related to the recovery of vertebral body height. Conclusion PKP plays a role not only in improving the vertebral body height but also in rebuilding sagittal imbalance in the treatment of vertebral compression fracture.
- Published
- 2020
6. Toward a national emission inventory for the catering industry in China
- Author
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Lingfeng Wang, Zhigang Xue, Peng Xu, Zhao Wenjuan, Ma Jinghua, Wenjing Jin, Yuzhe Zhang, Hao Zhang, Ruichen Fu, Lei Wang, Yang Zhang, Sicong Guo, Zhi Guorui, Xinmin Zhang, Jinhong Du, and Ren Yanjun
- Subjects
Consumption (economics) ,Environmental Engineering ,010504 meteorology & atmospheric sciences ,business.industry ,media_common.quotation_subject ,010501 environmental sciences ,Particulates ,01 natural sciences ,Pollution ,Hazard ,Agricultural economics ,Vegetable oil ,Service (economics) ,Environmental Chemistry ,Environmental science ,Emission inventory ,China ,business ,Waste Management and Disposal ,Tertiary sector of the economy ,0105 earth and related environmental sciences ,media_common - Abstract
Catering oil fumes are a major hazard to human health. In particular, the typical Chinese cooking style is characterised by a high temperature frying process that produces high levels of cooking oil fumes. However, limited data relating to this sector mean that national emission inventory data specific to the catering service industry do not exist. To address above deficiency and thus to establish the inventory of a city, or a province, or even a country, a door-to-door survey campaign was launched in the Chinese cities of Heze and Linfen to determine the structure of local catering industries. Data revealed that the number of catering businesses per 104 people was 17 ± 4. Of these, 3.0 ± 1.4, 15.0 ± 1.4, and 82.0 ± 0.0% were classified as large, medium, and small enterprises, respectively. Furthermore, the installation rates of fume purifiers were 74 ± 13, 66 ± 9, and 51 ± 14% for large, medium, and small enterprises, respectively, with net removal efficiencies of 63 ± 11, 50 ± 7, and 31 ± 8%, respectively. This information was extrapolated across all provincial regions of China to construct a provincial and national emission inventory. In 2017, China's national catering industry released approximately 34 kt of volatile organic compounds (VOCs), 38 kt of particulate matter with a diameter less than 2.5 μm (PM2.5), 48 kt of particulate matter with a diameter less than 10 μm (PM10), 1 kt of black carbon (BC), and 27 kt of organic carbon (OC). A significant correlation was observed between vegetable oil consumption and emissions (e.g., for VOCs, y = 14.94 x + 76.50, R2 = 0.87, where y is VOCs emissions and x is vegetable oil consumption), indirectly corroborating the rationality of the inventory. Moreover, this correlation provides the potential for a dynamic inventory based on vegetable oil consumption. Future studies are proposed to address more influential factors to improve the reliability of the national inventory and refer to big data, rather than door-to-door investigation, to identify the amount of catering service businesses in a region.
- Published
- 2021
7. Amine- and alcohol-functionalized ionic liquids: Inhibition difference and application in water-based drilling fluids for wellbore stability
- Author
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Zhai Yufen, Liansong Wu, Pingquan Wang, Wenjing Zhou, Ren Yanjun, and Haihang Qin
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Materials science ,Intercalation (chemistry) ,02 engineering and technology ,010402 general chemistry ,021001 nanoscience & nanotechnology ,01 natural sciences ,Polyvinyl alcohol ,0104 chemical sciences ,law.invention ,chemistry.chemical_compound ,Viscosity ,Colloid and Surface Chemistry ,chemistry ,Chemical engineering ,law ,Drilling fluid ,Ionic liquid ,medicine ,Swelling ,medicine.symptom ,0210 nano-technology ,Dispersion (chemistry) ,Filtration - Abstract
Shale hydration is the main cause of wellbore instability during drilling using water-based drilling fluids (WBD). In this work, NH2- and HO-functionalized ionic liquids (ILs) were investigated for their performances on inhibiting the shale hydration, as well as their influences on the properties of WBD, using immersion and sedimentation tests, linear swelling test, hot-rolling dispersion test, rheological and filtration experiments. The mechanisms were identified by X-ray diffraction (XRD), zeta-potential and particle size distribution analyses, scanning electron microscopy (SEM) and related theoretical analysis. Evaluation experiment results showed that the NH2-functionalized IL had the best inhibition performance, followed by poly(propylene glycol)bis(2-aminopropyl ether), HO-functionalized IL and KCl. NH2-functionality was more favorable to shale inhibition than HO-functionality. When used in WBD, ILs could prevent viscosity building-up at high temperature, but cause filtration and inhibition failure, which could be mitigated when polyanionic cellulose (PAC) was added in WBD prior to inhibitors. Three critical observations helped elucidate the inhibitive mechanisms: the intercalation of cationic groups of ILs into the clay interlayers, the decrease of both interlayer spacing and double layer thickness. The NH2-functionalized IL allowed the smallest interlayer spacing and double layer thickness and therefore performed best in inhibition. The inhibition failure in WBD with ILs depended on two aspects: the consumption of ILs untimely and the filtration failure of WBD. PAC could decrease both of ILs’ loss within WBD and water loss toward shale, mitigating the WBD’s inhibition failure. Our work will facilitate the rational design of efficient and environmentally acceptable inhibitors and their rational applications in WBD for drilling shale formation.
- Published
- 2021
8. Polyethyleneimine as shale inhibitor in drilling fluid
- Author
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Jiang Guancheng, Qi Yourong, Huang Xianbin, Ren Yanjun, and An Yuxiu
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Hydrogen bond ,Intercalation (chemistry) ,technology, industry, and agriculture ,Geology ,Protonation ,macromolecular substances ,02 engineering and technology ,021001 nanoscience & nanotechnology ,chemistry.chemical_compound ,Montmorillonite ,Adsorption ,020401 chemical engineering ,Chemical engineering ,chemistry ,Geochemistry and Petrology ,Zeta potential ,Molecule ,Organic chemistry ,0204 chemical engineering ,Fourier transform infrared spectroscopy ,0210 nano-technology - Abstract
In this paper, the inhibition property of polyethyleneimine (PEI) in drilling fluid was studied. The inhibition property was evaluated by linear swell test and roll recovery. The addition of PEI70000 resulted in the lowest swelling height, compared with the others inhibitor. Especially PEI was environmental and friendly. The inhibition mechanism was investigated by Fourier transform infrared spectroscopy, X-ray diffraction, X-ray photoelectron spectroscopy, Scanning electron microscopy, Zeta potential and Surface area analyzer. The negative charge in the surface of montmorillonite (Mt) was neutralized by the positive charge of PEI. PEI was adsorbed in the surface of Mt and intercalated into the interlayer of Mt, which reduced the hydration repulsion of diffuse electric double layer and leaded to inhibit the hydration of clay. Hydrogen bonding between amino groups in PEI and hydroxyl in the surface of Mt can be formed in the process. The coordination of electrostatic interaction and hydrogen bonding presented water molecules from the interlayer space of Mt, which resulted from the adsorption and intercalation of PEI in the surface and interlayer space of Mt. There was an amount of nitrogen in the backbone and side of PEI, leading to more positive ion than chitosan quaternary ammonium salt (HTCC). The more positive ion resulted in the stronger force between inhibitor and clay due to the protonation of nitrogen in water. The molecular weight of PEI has great influence on inhibition property. The larger molecular weight of PEI performed the better inhibition property except for PEI1800. Indicating the molecular weight of PEI was not the sole factor to control the inhibition property. What was more, the larger molecular weight of PEI leaded to the worse water-solubility.
- Published
- 2016
9. Adsorption of imidazolium-based ionic liquid on sodium bentonite and its effects on rheological and swelling behaviors
- Author
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Liansong Wu, Geng Yiran, Haonan Wang, Ren Yanjun, Ren Zechen, Xiaolin Pu, and Ying Zhang
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Materials science ,Cationic polymerization ,020101 civil engineering ,Geology ,02 engineering and technology ,021001 nanoscience & nanotechnology ,Physics::Geophysics ,0201 civil engineering ,Condensed Matter::Soft Condensed Matter ,chemistry.chemical_compound ,Adsorption ,chemistry ,Rheology ,Chemical engineering ,Geochemistry and Petrology ,Drilling fluid ,Ionic liquid ,medicine ,Physics::Accelerator Physics ,Fourier transform infrared spectroscopy ,Swelling ,medicine.symptom ,0210 nano-technology ,Environmental scanning electron microscope - Abstract
Clay is closely associated with the drilling of oil and gas by influencing the shale wellbore stability and the rheology of drilling fluids. In this work, four imidazolium-based ionic liquids (ILs) were used to modify the typical clay (i.e., sodium bentonite (Na-Bent)), and their effects on the Na-Bent rheological and swelling properties were evaluated by shear rheological measurements, immersion experiment, linear swelling measurements. The mechanisms involved were identified by using fourier transform infrared spectroscopy (FT-IR), X-ray diffraction (XRD), Zeta-potential and environmental scanning electron microscopy (ESEM) analysis. Evaluation experiment results showed that the adsorption of each IL could both significantly affect the Na-Bent rheological property and inhibit the Na-Bent swelling, which strongly depended on ILs' structures and concentrations. The mechanism study revealed that the cationic groups of ILs could adsorb on Na-Bent prior to water molecules, followed by expelling water and compressing the double electrode layers, and therefore inhibit the Na-Bent swelling. The adsorption of ILs could also change aggregation behaviors of the Na-Bent particles, by which the “house of cards” structures in Na-Bent dispersions were improved or destroyed, resulting in changes in rheological properties of Na-Bent dispersions.
- Published
- 2019
10. Thermoresponsive Bentonite for Water-Based Drilling Fluids
- Author
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Wenxin Dong, Zhai Yufen, Wei Xie, Gao Feng, Xiaolin Pu, and Ren Yanjun
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Materials science ,020101 civil engineering ,02 engineering and technology ,lcsh:Technology ,Article ,Isothermal process ,0201 civil engineering ,law.invention ,Contact angle ,Adsorption ,Rheology ,law ,Drilling fluid ,self-recovery ,General Materials Science ,drilling fluid ,lcsh:Microscopy ,Porosity ,Filtration ,lcsh:QC120-168.85 ,lcsh:QH201-278.5 ,lcsh:T ,bentonite ,021001 nanoscience & nanotechnology ,Chemical engineering ,lcsh:TA1-2040 ,Bentonite ,lcsh:Descriptive and experimental mechanics ,lcsh:Electrical engineering. Electronics. Nuclear engineering ,lcsh:Engineering (General). Civil engineering (General) ,0210 nano-technology ,lcsh:TK1-9971 ,N-isopropylacrylamide - Abstract
As an important industrial material, bentonite has been widely applied in water-based drilling fluids to create mud cakes to protect boreholes. However, the common mud cake is porous, and it is difficult to reduce the filtration of a drilling fluid at high temperature. Therefore, this paper endowed bentonite with a thermo response via the insertion of N-isopropylacrylamide (NIPAM) monomers. The interaction between NIPAM monomers and bentonite was investigated via Fourier infrared spectroscopy (FTIR), isothermal adsorption, and X-ray diffraction (XRD) at various temperatures. The results demonstrate that chemical adsorption is involved in the adsorption process of NIPAM monomers on bentonite, and the adsorption of NIPAM monomers accords with the D&ndash, R model. With increasing temperature, more adsorption water was squeezed out of the composite when the temperature of the composite exceeded 70 °, C. Based on the composite of NIPAM and bentonite, a mud cake was prepared using low-viscosity polyanionic cellulose (Lv-PAC) and initiator potassium peroxydisulfate (KPS). The change in the plugging of the mud cake was investigated via environmental scanning electron microscopy (ESEM), contact angle testing, filtration experiments, and linear expansion of the shale at various temperatures. In the plugging of the mud cake, a self-recovery behavior was observed with increasing temperature, and resistance was observed at 110 °, C. The rheology of the drilling fluid was stable in the alterative temperature zone (70&ndash, 110 °, C). Based on the high resistance of the basic drilling fluid, a high-density drilling fluid (&rho, = 2.0 g/cm3) was prepared with weighting materials with the objective of drilling high-temperature formations. By using a high-density drilling fluid, the hydration expansion of shale was reduced by half at 110 °, C in comparison with common bentonite drilling fluid. In addition, the rheology of the high-density drilling fluid tended to be stable, and a self-recovery behavior was observed.
- Published
- 2019
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