Search

Your search keyword '"Haoyuan Liu"' showing total 99 results
Start Over Author "Haoyuan Liu"
99 results on '"Haoyuan Liu"'

1. Associations between a normal-range free thyroxine concentration and ovarian reserve in infertile women undergoing treatment via assisted reproductive technology

Author

Qiaoling Zhang, Dandan Zhang, Haoyuan Liu, Jinyun Fu, Li Tang, and Meng Rao

Subjects
Ovarian reserve, Normal thyroid function, Free thyroxine, anti-Müllerian hormone, Gynecology and obstetrics, RG1-991, Reproduction, QH471-489
Abstract

Abstract Background Some recent studies have shown that female subclinical hypothyroidism (SCH) is associated with diminished ovarian reserve (DOR). In this study, we aimed to investigate whether serum-free thyroxine (fT4) concentrations within the reference range are associated with ovarian reserve in women. Methods This cross-sectional study included 4933 infertile women with normal-range fT4 concentrations who received assisted reproductive technology treatment in our clinic. The data of women in different fT4 concentration tertiles (namely 12–15.33, 15.34–18.67, and 18.68–22 pmol/L) were compared with ovarian reserve markers, namely the anti-Müllerian hormone (AMH) concentration, the antral follicle count (AFC), and the number of aspirated oocytes. The primary outcomes were the AMH concentration and the risk of DOR, diagnosed as an AMH concentration

Published
2024
Full Text
View/download PDF

2. Influence of the contraction section configuration and deflector layout density on the wind-snow flow characteristics inside the ice snow wind tunnel for railway vehicles

Author

Jiabin Wang, Haoyuan Liu, Yan Zhang, Cao Liu, Chen Jiang, and Guangjun Gao

Subjects
Contraction section, deflector density, ice snow wind tunnel, IDDES+DPM, railway vehicle, wind-snow flow, Engineering (General). Civil engineering (General), TA1-2040
Abstract

The significant accumulation of snow and ice in the bogie region severely compromises operational quality and poses a safety hazard to high-speed trains. To enhance testing capabilities for assessing ice and snow accumulation within bogie regions, this study conducts numerical investigations into the influence of contraction section configuration and deflector layout density on wind-snow flow quality within an ice and snow wind tunnel. The predictive accuracy of the numerical method is comprehensively validated against wind-snow wind tunnel tests, involving a comparison of airflow velocity in the test section and snow accumulation thickness on the channel's floor. The results demonstrate that the coupled numerical method of Improved Delayed Detached Eddy Simulation (IDDES) and Discrete Phase Model (DPM) is a reliable tool for analyzing wind-snow flow characteristics within an ice and snow wind tunnel. Furthermore, compared to the vickers curve and bicubic curve, quintic curves applied to the contraction section consistently compress and accelerate airflow. This contributes to a more uniform flow characterized by lower stream-wise fluctuation levels, pitch angles, and yaw angles in the test section, thereby significantly enhancing the overall flow quality of wind and snow. Thus, the quintic curves or smoother curves are recommended for the design of the contraction section in ice and snow wind tunnels. Moreover, increasing the deflector number leads to a noticeable improvement in flow quality inside the test section, while resulting in increased snow accretion on the windward surfaces of deflectors. Hence, a medium-level deflector density is suggested for designing ice and snow wind tunnels to achieve a better balance between flow quality and the additional snow accretion inside the channel.

Published
2024
Full Text
View/download PDF

3. Reconstruction of recurrent shoulder dislocation with glenoid bone defect with 3D-printed titanium alloy pad: outcomes at 2-year minimum follow-up

Author

Danlei Huang, Zhiyang Ye, Jun Wang, Feixiong Chen, Haoyuan Liu, and Jianming Huang

Subjects
Recurrent shoulder dislocation, Glenoid bone defect, 3D-printed titanium alloy pad, Diseases of the musculoskeletal system, RC925-935
Abstract

Abstract Background To evaluate the outcome of shoulder arthroscopy-assisted implantation of three-dimensional (3D)-printed titanium pads for recurrent shoulder dislocation with glenoid bone defects. Methods From June 2019 to May 2020, the clinical efficacy of 3D printed titanium pad implantation assisted by shoulder arthroscopy, for the treatment of recurrent shoulder dislocations with shoulder glenoid defects was retrospectively analyzed. The American Shoulder and Elbow Surgeons (ASES) shoulder, Rowe, and Constant scores were recorded before surgery and at 3 months, 6 months, 1 year, and 2 years after surgery. 3D computed tomography (CT) and magnetic resonance imaging were used to evaluate the location of the glenoid pad, bone ingrowth, joint degeneration, and osteochondral damage. Results The mean age of the 12 patients was 21.4 (19–24) years and the mean follow-up time was 27.6 (24–35) months. The Visual Analog Scale score significantly improved from 5.67 ± 1.98 preoperatively to 0.83 ± 0.58 postoperatively (p = 0.012). The postoperative ASES score was significantly increased to 87.91 ± 3.47 compared with preoperative ASES score (46.79 ± 6.45) (p

Published
2024
Full Text
View/download PDF

4. Biomechanical study of 3D-printed titanium alloy pad for repairing glenoid bone defect

Author

Danlei Huang, Jun Wang, Zhiyang Ye, Feixiong Chen, Haoyuan Liu, and Jianming Huang

Subjects
Orthopedic surgery, RD701-811
Abstract

Background: The purpose of this study was to investigate the effect of 3D-printed technology to repair glenoid bone defect on shoulder joint stability. Methods: The shoulder joints of 25 male cadavers were tested. The 3D-printed glenoid pad was designed and fabricated. The specimens were divided into 5 groups. Group A: no bone defect and the structure of the glenoid labrum and joint capsule was intact; Group B: Anterior inferior bone defect of the shoulder glenoid; Group C: a pad with a width of 2 mm was installed; Group D: a pad with a width of 4 mm was installed; Group E: a pad with a width of 6 mm was installed. This study measured the distance the humeral head moved forward at the time of glenohumeral dislocation and the maximum load required to dislocate the shoulder. Results: The shoulder joint stability and humerus displacement was significantly lower in groups B and C compared with group A ( p < .05). Compared with group A, the stability of the shoulder joint of group D was significantly improved ( p < .05). However, there was no significant difference in humerus displacement between groups D and A ( p > .05). In addition, compared with group A, shoulder joint stability was significantly increased and humerus displacement was significantly decreased in group E ( p < .05). Conclusion: The 3D-printed technology can be used to make the shoulder glenoid pad to perfectly restore the geometric shape of the shoulder glenoid articular surface. Moreover, the 3D-printed pad is 2 mm larger than the normal glenoid width to restore the initial stability of the shoulder joint.

Published
2024
Full Text
View/download PDF

5. Oxidative Degradation Characteristics of Low-Temperature Pyrolysis Biochar and the Synergistic Effect on Released Nutrients

Author

Limei Chen, Yuchen Zhuo, Yaoyu Zhou, Qing Chen, Yutao Peng, Haoyuan Liu, Jia Deng, Jiahong Xiao, Wenke Ai, Songlin Sun, Chongfeng Gao, and Chaoran Sun

Subjects
pyrolysis temperature, straw biochar decomposition, nutrient release, interaction, Agriculture
Abstract

Biochar application has received much attention because biochar can be used as an organic amendment. The nutrient release patterns and interactions in straw biochar produced at different temperatures are not well understood. In this study, we observed the release patterns of carbon (C), nitrogen (N), phosphorus (P), and potassium (K) and the interaction between released C, N, P, and K from straw biochar prepared from 225 to 600 °C through a 180-day degradation experiment. The results showed that the degradation rate of the two kinds of straw biochar was faster in the first 30 days at different temperatures, and that of the straw biochar prepared before 300 °C was more rapid, indicating that 300 °C is an important turning point. The rule of nutrient release in the straw biochar showed that the K release rate was the highest and most rapid and was more than 60% in the first 30 days. The nutrient release rates for the two kinds of straw biochar were in the order K > N > P > C. The release of nutrients accompanied the decomposition of the straw biochar, and there was an exponential relationship between the amount of nutrients released from straw biochar and its degradation mass. There were collaborative or similar release processes indicated by significant positive correlations between the released C and N (R2 = 0.96) and P and K (R2 = 0.94) in the tobacco straw biochar and an obvious correlation between the released C and N (R2 = 0.76) in the rice straw biochar. These results indicated that the released C and N, P, and K in tobacco straw biochar, as well as C and N in rice straw biochar, have synergistic effects and the same degradation path. The application of straw biochar can provide a source of P and N in the short term and a source of P and C in the long term. This study suggests that returning straw biochar to the soil could appropriately reduce the input of K fertilizer in the early stage.

Published
2024
Full Text
View/download PDF

6. Inhibitory Effect of Combined Exposure to Copper Ions and Polystyrene Microplastics on the Growth of Skeletonema costatum

Author

Haoyuan Liu, Yu Zhen, Xiuli Zhang, and Lianyu Dou

Subjects
copper ions, microplastics, Skeletonema costatum, toxicity, adsorption, Hydraulic engineering, TC1-978, Water supply for domestic and industrial purposes, TD201-500
Abstract

As two significant pollutants, the increased concentrations of copper ions and microplastics in coastal waters pose a substantial threat to the health of marine ecosystems. This study explored the individual and combined toxic effects of copper ions and microplastics on the marine diatom Skeletonema costatum. The results indicated that copper ions at a concentration of 0.05 mg/L exerted a negative impact on the growth of S. costatum; however, the influence of microplastics on algal cell growth was more complex: there was no significant inhibition of algal cell growth observed within the first 72 h of cultivation, but a pronounced negative effect on cell growth was noted between 72 and 96 h, with high concentrations (10.00 mg/L) of microplastics even causing a premature stagnation phase in algal cell growth. When both pollutants were present simultaneously, their impact on cell growth was similar to that of the microplastic pollution group, yet the growth condition was better than that of the copper ion pollution group. Through investigation of adsorption rates and toxicity mitigation rates, it was found that the adsorption of copper ions by microplastics was a significant reason for the improved growth condition of algal cells in the mixed pollution group compared to the copper ion pollution group. However, in the later stages of cultivation, the inhibitory effect of microspheres on algal cell growth counteracted their mitigating effect on copper ion toxicity. This study provides a reference for evaluating the impact of microplastics and heavy metals on coastal ecosystem health and for revealing the interactions between different pollutants.

Published
2024
Full Text
View/download PDF

7. Achieving high strength and high ductility in submicron-MgO/AZ31 composites with an innovative honeycomb-like structure

Author

Chengduo Wang, Fujie Ren, Haoyuan Liu, Qingkui Li, and Benshuang Sun

Subjects
Composites, Submicron MgO reinforcements, Specific structures, Mechanical properties, Mining engineering. Metallurgy, TN1-997
Abstract

Honeycomb-like AZ31 matrix composites with 1, 2, and 4 wt% submicron-MgO were prepared using low-energy milling and extrusion. The composites consist of fine-grained and coarse-grained zones. The fine-grained zones enriched with submicron MgO form a honeycomb-like structure, and the coarse grains without MgO are filled into unit cells. Both the strengths and elongations of the newly developed MgO/AZ31 composites are enhanced compared with AZ31. Specifically, the tensile strength of composites containing 1 wt% MgO is improved to 344.1 MPa, and at the same time, its elongation is increased up to 21.5%. The excellent strength-ductility combination is due to the introduction of submicron-MgO reinforcements with unique distribution. Such achievements could be beneficial to the structural design of composites.

Published
2023
Full Text
View/download PDF

8. Modeling and forecasting CO2 emissions in China and its regions using a novel ARIMA-LSTM model

Author

Tingxin Wen, Yazhou Liu, Yun he Bai, and Haoyuan Liu

Subjects
Carbon dioxide emissions, Factors analysis, ARIMA+LSTM, Forecast, Science (General), Q1-390, Social sciences (General), H1-99
Abstract

Since China joined the WTO, its economy has experienced rapidly growth, resulting in significantly increase in fossil fuel consumption and corresponding rise in CO2 emissions. Currently, China is the world's largest emitter of CO2, the regional distribution is also extremely uneven. so, it is important to identify the factors influence CO2 emissions in the three regions and predict future trends based on these factors. This paper proposes 14 carbon emission factors and uses the random forest feature ranking algorithm to rank the importance of these factors in three regions. The main factors affecting CO2 emissions in each region are identified. Additionally, an ARIMA + LSTM carbon emission predict model based on the inverse error combination method is developed to address the linear and nonlinear relationships of carbon emission data. The findings suggest that the ARIMA + LSTM is more accurate in predicting the trend of CO2 emissions in China. Moreover, the ARIMA + LSTM is employed to forecast the future CO2 emission trends in China's east, central, and west regions, which can serve as a foundation for China's CO2 emission reduction initiatives.

Published
2023
Full Text
View/download PDF

9. Design of three-roll bending machine tool and research on compensation algorithm

Author

Haoyuan Liu, Qun Sun, Ying Zhao, Zhihao Song, and Jinghua Wang

Subjects
Mechanical engineering and machinery, TJ1-1570
Abstract

With the rapid development of profile processing industry, the processing shape, efficiency, and consistency of profiles are more and more demanding. In this case, the progress of bending machine tools was very important. In this study, the disadvantages and shortcomings of traditional three-roll bending machine are investigated, and a new design of three-roll bending machine is proposed, including a new mechanical structure, hydraulic pressure, and control system. ABAQUS was used to analyze the constrained mode of the table, and the first six order natural frequencies and natural vibration modes were obtained. A mathematical model was established to analyze the relationship between the pressure displacement and the forming radius under ideal working conditions, and the limit position of the downward movement of the lower press roll and the speed relationship between the lower press roll and the support roll are discussed. Based on the experimental data, the nonlinear curve fitting was carried out on the rebound compensation algorithm of asymmetric rolling bending forming. The fitting rebound compensation algorithm was carried out on the symmetric rolling bending forming experiment. The experimental results show that this algorithm can be applied to both symmetric rolling bending and asymmetric rolling bending.

Published
2023
Full Text
View/download PDF

10. A Modified Endoscopic Technique with Three Incisions for Rockwood Types III and V Acromioclavicular Joint Dislocation

Author

Jianming Huang, Danlei Huang, Jun Wang, Zhiyang Ye, and Haoyuan Liu

Subjects
Acromioclavicular joint dislocation, Arthroscopic treatment, Minimally invasive treatment, Three‐incision, Orthopedic surgery, RD701-811
Abstract

Objective Acromioclavicular joint dislocation is one of the most common shoulder injuries in young men. With the advancement of minimally invasive technology, arthroscopy of acromioclavicular joint dislocation has been recognized for its good curative effect. This study aimed to explore the technical details and clinical efficacy of a modified minimally invasive endoscopic treatment for acromioclavicular joint dislocation. Methods Clinical data of patients receiving the three‐incision endoscopic treatment were retrospectively reviewed between July 2013 and July 2019. A total of 72 patients with acromioclavicular joint dislocation of Rockwood type III (n = 42) and type V (n = 30) were included in this study. Postoperative routine radiography was performed to evaluate acromioclavicular joint reduction and fixation. In addition, functional recovery of the shoulder joint was assessed using the American Shoulder and Elbow Surgeons (ASES) and Constant–Murley scores. Differences between the preoperative and postoperative data were compared using paired t‐tests. Results All patients underwent loop plate elastic fixation under endoscopy during 24 to 48 months of follow‐up. Postoperative radiography showed that the acromioclavicular joint achieved anatomical reduction. The ASES score (91.1 ± 4.2) was significantly improved compared to the preoperative ASES score (62.4 ± 3.1) (t = 46.65, P

Published
2023
Full Text
View/download PDF

11. Response characteristics of highland barley under freeze-thaw, drought and artemisinin stresses

Author

Huichen Liu, Guozhang Bao, Zihao Dou, Haoyuan Liu, Jingqi Bai, Yingyi Chen, Yifu Yuan, Xin Zhang, and Jinghui Xi

Subjects
Highland barley, Freeze-thaw, Drought, Artemisinin, Botany, QK1-989
Abstract

Abstract The freeze-thaw of early spring in China’s Qinghai-Tibet Plateau is often accompanied by severe droughts. Artemisia annua, widely distributed in China, releases allelopathic substances, mainly artemisinin, to the environment and exerts a wide range of effects on crops. This paper studied the physiological effects of highland barley under freeze-thaw, drought, and artemisinin stress through indoor simulation experiments. The physiological response characteristics of superoxide dismutase (SOD) activity, catalase (POD) activity, net photosynthetic rate, relative water content (RWC), relative electrical conductivity, malondialdehyde (MDA) content, and soluble protein content in highland barley were analyzed. The results showed that artemisinin and drought contributed to the increase of SOD activity and the decrease of POD activity. Under the freeze-thaw stress, the SOD and POD activities both decreased firstly and then increased, but the effect of compound stress on POD was more complicated. Either artemisinin, drought, or low temperature could reduce the net photosynthetic rate of highland barley. Low temperature had more significant impacts on photosynthesis, and compound stress would show a single stress superimposed effect. Artemisinin, drought, and low temperature could reduce the RWC of highland barley, and increase the relative electrical conductivity and the concentration of soluble protein (except for low temperature stress above zero, which reduces the concentration of soluble protein). However, the effect of compound stress on soluble protein is more complex. The single stress of artemisinin and drought had no obvious effect on MDA content, while the MDA content was increased significantly under the freeze-thaw stress and the compound stress of artemisinin and drought, and the MDA content reached its peak at T1. The results are helpful to explore the effects of freeze-thaw, drought and artemisinin stress on the growth of highland barley under the background of the aridification of the Qinghai-Tibet Plateau, and provide ideas for rational agricultural management.

Published
2022
Full Text
View/download PDF

12. Case report: Brucellosis with rare multiple pulmonary nodules in a depressed patient

Author

Mingjing Zhou, Ke Wang, Haoyuan Liu, Ran Ran, Xuan Wang, Yuqian Yang, Qunying Han, Yi Zhou, and Xiaojing Liu

Subjects
brucellosis, pulmonary nodules, depression, developing countries, case report, Medicine (General), R5-920
Abstract

BackgroundBrucellosis is a zoonotic disease that threatens public health and creates an economic burden. Unfortunately, it is often overlooked in developing countries, with misdiagnosis causing negative impacts on those with low income. Although the symptoms of brucellosis are commonly reported as fever and fatigue, rare pulmonary, and psychiatric involvements should also be considered. We present the first brucellosis patient in China with multiple pulmonary nodules and depression. Furthermore, this report highlights the importance of collecting patient history in epidemic areas of brucellosis.Case presentationWe report the case of a 40-year-old woman with intermittent fever for 2 months and gradually accompanied by chills, dry cough, arthralgia, and fatigue. The patient was also diagnosed with depression after fever. She received symptomatic treatment at a regional hospital; however, there was no significant symptom relief. She suddenly developed hemoptysis 1 day prior to arrival at our hospital, where we discovered that her liver, spleen, neck, and axillary lymph nodes were enlarged, and there were multiple nodules in both lungs. The patient was eventually diagnosed with brucellosis after the serum agglutination test and received antibiotic therapy, which provided symptom relief.ConclusionThis report describes a case of brucellosis with uncommon multipulmonary nodules and depression in China. This study has widened the evidence of respiratory involvement due to brucellosis. Second, it demonstrates the importance of collecting a comprehensive medical history, especially in epidemic areas. In conclusion, for febrile patients with pulmonary nodules and depression, especially in endemic areas, brucellosis should be considered.

Published
2023
Full Text
View/download PDF

14. A Coevolution Model of the Coupled Society—Water Resources—Environment Systems: An Application in a Case Study in the Yangtze River Economic Belt, China

Author

Haoyuan Liu, Xiang Zhang, Shiyong Tao, Xi Xiao, Keyi Wu, and Jun Xia

Subjects
co-evolution, socio-hydrology, environmental sensitivity, environmental protection awareness, coupling coordination degree, Yangtze River Economic Belt, Hydraulic engineering, TC1-978, Water supply for domestic and industrial purposes, TD201-500
Abstract

Interactions among society, water resources, and environment systems have become increasingly prominent with the progressively far-reaching impact of human activities. Therefore, this paper aims to construct a co-evolution model to establish the mutual feedback relationship among society, water resources, and environment from the perspective of socio-hydrology. Firstly, social factors such as environmental sensitivity, environmental protection awareness, and technological level are introduced to this model to describe the coevolutionary trajectory of society, water resources and environment subsystems. Then, this model is implemented in 11 provincial administrative regions in the Yangtze River Economic Belt, and the degree of coordination of their coupling is evaluated. Results show that the water-use efficiency of each provincial administrative region in the Yangtze River Economic Belt gradually increases during the forecast period. The coupling-coordinated degree of each provincial administrative region of the Yangtze River Economic Belt has greatly improved during the 14th Five-Year Plan period, reflecting that policy support has played a significant role in the coordinated development of the Yangtze River Economic Belt. The dynamic fluctuation process of environmental sensitivity effectively depicts the co-evolution process of the coupling system, which provides a reference for the subsequent exploration and cognition of the human-water coevolutionary mechanism.

Published
2022
Full Text
View/download PDF

15. USP13 mediates PTEN to ameliorate osteoarthritis by restraining oxidative stress, apoptosis and inflammation via AKT-dependent manner

Author

Jianming Huang, Zhiyang Ye, Jun Wang, Qichuan Chen, Danlei Huang, and Haoyuan Liu

Subjects
Osteoarthritis, USP13, PTEN, AKT, Therapeutics. Pharmacology, RM1-950
Abstract

Osteoarthritis is a chronic, systemic and inflammatory disease. However, the pathogenesis and understanding of RA are still limited. Ubiquitin-specific protease 13 (USP13) belongs to the deubiquitinating enzyme (DUB) superfamily, and has been implicated in various cellular events. Nevertheless, its potential on RA progression has little to be investigated. In the present study, we found that USP13 expression was markedly up-regulated in synovial tissue samples from patients with RA, and was down-regulated in human fibroblast-like synoviocytes (H-FLSs) stimulated by interleukin-1β (IL-1β), tumor necrosis factor alpha (TNF-α) or lipopolysaccharide (LPS). We then showed that over-expressing USP13 markedly suppressed inflammatory response, oxidative stress and apoptosis in H-FLSs upon IL-1β or TNF-α challenge, whereas USP13 knockdown exhibited detrimental effects. In addition, USP13-induced protective effects were associated with the improvement of nuclear factor erythroid 2-related factor 2 (Nrf-2) and the repression of Casapse-3. Furthermore, phosphatase and tensin homolog (PTEN) expression was greatly improved by USP13 in H-FLSs upon IL-1β or TNF-α treatment, whereas phosphorylated AKT expression was diminished. In response to IL-1β or TNF-α exposure, nuclear transcription factor κB (NF-κB) signaling pathway was activated, whereas being significantly restrained in H-FLSs over-expressing USP13. Mechanistically, USP13 directly interacted with PTEN. Of note, we found that USP13-regulated cellular processes including inflammation, oxidative stress and apoptotic cell death were partly dependent on AKT activation. Furthermore, USP13 over-expression effectively inhibited osteoclastogenesis and osteoclast-associated gene expression. The in vivo experiments finally confirmed that USP13 dramatically repressed synovial hyperplasia, inflammatory cell infiltration, cartilage damage and bone loss in collagen-induced arthritis (CIA) mice via the same molecular mechanisms detected in vitro. Taken together, these findings suggested that targeting USP13 may provide feasible therapies for RA.

Published
2021
Full Text
View/download PDF

16. GABAB-Receptor Agonist-Based Immunotherapy for Type 1 Diabetes in NOD Mice

Author

Jide Tian, Blake Middleton, Victoria Seunghee Lee, Hye Won Park, Zhixuan Zhang, Bokyoung Kim, Catherine Lowe, Nancy Nguyen, Haoyuan Liu, Ryan S. Beyer, Hannah W. Chao, Ryan Chen, Davis Mai, Karen Anne O’Laco, Min Song, and Daniel L. Kaufman

Subjects
GABA receptor, type 1 diabetes, autoimmune disease, immunotherapy, GABAB-R, GABAA-R, Biology (General), QH301-705.5
Abstract

Some immune system cells express type A and/or type B γ-aminobutyric acid receptors (GABAA-Rs and/or GABAB-Rs). Treatment with GABA, which activates both GABAA-Rs and GABAB-Rs), and/or a GABAA-R-specific agonist inhibits disease progression in mouse models of type 1 diabetes (T1D), multiple sclerosis, rheumatoid arthritis, and COVID-19. Little is known about the clinical potential of specifically modulating GABAB-Rs. Here, we tested lesogaberan, a peripherally restricted GABAB-R agonist, as an interventive therapy in diabetic NOD mice. Lesogaberan treatment temporarily restored normoglycemia in most newly diabetic NOD mice. Combined treatment with a suboptimal dose of lesogaberan and proinsulin/alum immunization in newly diabetic NOD mice or a low-dose anti-CD3 in severely hyperglycemic NOD mice greatly increased T1D remission rates relative to each monotherapy. Mice receiving combined lesogaberan and anti-CD3 displayed improved glucose tolerance and, unlike mice that received anti-CD3 alone, had some islets with many insulin+ cells, suggesting that lesogaberan helped to rapidly inhibit β-cell destruction. Hence, GABAB-R-specific agonists may provide adjunct therapies for T1D. Finally, the analysis of microarray and RNA-Seq databases suggested that the expression of GABAB-Rs and GABAA-Rs, as well as GABA production/secretion-related genes, may be a more common feature of immune cells than currently recognized.

Published
2021
Full Text
View/download PDF

17. 3D FE-Informed Laboratory Soil Testing for the Design of Offshore Wind Turbine Monopiles

Author

Xiaoyang Cheng, Andrea Diambra, Erdin Ibraim, Haoyuan Liu, and Federico Pisanò

Subjects
finite element analysis, soil, monopile, offshore, wind turbines, laboratory testing, Naval architecture. Shipbuilding. Marine engineering, VM1-989, Oceanography, GC1-1581
Abstract

Based on advanced 3D finite element modelling, this paper analyses the stress paths experienced by soil elements in the vicinity of a monopile foundation for offshore wind turbines subjected to cyclic loading with the aim of informing soil laboratory testing in support of monopile foundation design. It is shown that the soil elements in front of the laterally loaded monopile are subjected to complex stress variations, which gradually evolve towards steady stress cycles as the cyclic lateral pile loading proceeds. The amplitude, direction and average value of such steady stress cycles are dependent on the depth and radial distance from the pile of the soil element, but it also invariably involves the cyclic rotation of principal stress axes. Complementary laboratory testing using the hollow-cylinder torsional apparatus was carried out on granular soil samples imposing cyclic stress paths (with up to about 3 × 104 cycles) which resemble those determined after 3D finite element analysis. The importance of considering the cyclic rotation of principal stress axes when investigating the response of soil elements under stress conditions mimicking those around a monopile foundation subjected to cyclic lateral loading is emphasised.

Published
2021
Full Text
View/download PDF

26. Characteristics of cyclic undrained model SANISAND-MSu and their effects on response of monopiles for offshore wind structures

Author

Haoyuan Liu and Amir M. Kaynia

Subjects
Offshore wind power, Soil structure interaction, Earth and Planetary Sciences (miscellaneous), Environmental science, Geotechnical Engineering and Engineering Geology, Marine engineering
Abstract

Optimised design is essential to reduce the cost of monopiles for offshore wind turbines. For this purpose, an in-depth understanding of the behaviour of monopile–soil interaction is required. As more wind farms are planned in seismically active areas, the undrained behaviour of sandy soils (and the possibility of soil liquefaction) and these soils’ effects on monopile cyclic response need critical evaluation. Considering the lack of well-established test programs, implicit three-dimensional (3D) finite-element (FE) methods stand out as a robust tool to identify and highlight the governing geo-mechanisms in monopile design. In this work, an implicit 3D FE implementation of SANISAND-MS for undrained soil behaviour, termed SANISAND-MSu, is deployed in OpenSees to serve these objectives. The role of pore-water pressure on monopile performance is comprehensively investigated by comparisons between drained and undrained soil behaviour. Local soil responses are studied in detail in relation to parameters in laboratory soil testing and application to monopile geotechnical design. The results of simulations are also used to evaluate numerical p–y curves as a function of the number of load cycles on the pile. The conclusions in this work contribute to ongoing research on monopile–soil interaction and support the development of lifetime analysis for monopile–soil systems.

Published
2023

27. A Modified Endoscopic Technique with Three Incisions for Rockwood Types <scp>III</scp> and <scp>V</scp> Acromioclavicular Joint Dislocation

Author

Jianming Huang, Danlei Huang, Jun Wang, Zhiyang Ye, and Haoyuan Liu

Subjects
Orthopedics and Sports Medicine, Surgery
Abstract

Acromioclavicular joint dislocation is one of the most common shoulder injuries in young men. With the advancement of minimally invasive technology, arthroscopy of acromioclavicular joint dislocation has been recognized for its good curative effect. This study aimed to explore the technical details and clinical efficacy of a modified minimally invasive endoscopic treatment for acromioclavicular joint dislocation.Clinical data of patients receiving the three-incision endoscopic treatment were retrospectively reviewed between July 2013 and July 2019. A total of 72 patients with acromioclavicular joint dislocation of Rockwood type III (n = 42) and type V (n = 30) were included in this study. Postoperative routine radiography was performed to evaluate acromioclavicular joint reduction and fixation. In addition, functional recovery of the shoulder joint was assessed using the American Shoulder and Elbow Surgeons (ASES) and Constant-Murley scores. Differences between the preoperative and postoperative data were compared using paired t-tests.All patients underwent loop plate elastic fixation under endoscopy during 24 to 48 months of follow-up. Postoperative radiography showed that the acromioclavicular joint achieved anatomical reduction. The ASES score (91.1 ± 4.2) was significantly improved compared to the preoperative ASES score (62.4 ± 3.1) (t = 46.65, P 0.0001). The Constant-Murley score (93.1 ± 4.6) was also significantly higher than that before the operation (40.7 ± 6.4) (t = 56.41, P 0.0001). No postoperative complications occurred. During follow-up, four patients had mild acromioclavicular joint degeneration but no obvious pain symptoms.The modified three-incision endoscopic technique optimizes the surgical incision, reduces trauma, is minimally invasive, and provides rapid rehabilitation with satisfactory clinical outcomes.

Published
2022

30. Choose the appropriate implantation position of the Femoral Neck System in the femoral neck: a finite-element analysis

Author

Ximu Kuang, Guojian Jian, Desheng Xie, Xiaolin Chen, and Haoyuan Liu

Subjects
Emergency Medicine, Orthopedics and Sports Medicine, Surgery, Critical Care and Intensive Care Medicine
Abstract

Purpose There is no specific literature on the best implantation position of the Femoral Neck System (FNS) for treating Pauwels type III femoral neck fracture in young adults. Methods Use finite-element analysis to compare the mechanical properties of implantation positions: FNS in the central position, FNS in the low position, and FNS in the low position combined with cannulated screw (CS). The CT data of the femur were imported into the mimics20.0 to obtain the three-dimensional model of the femur; imported into geomagic2017 and SolidWorks 2017 for optimizations; models of FNS and CS are built on the basis of the device manuals. Grouping is as follows: FNS group, FNS-LOW group, and FNS-CS group. Assemble and import them into abaques6.14 for load application. The displacement distribution and von Mises Stress value of them were compared. Results On femoral stability and stress distribution, the FNS-CS group performs best, followed by the FNS-LOW group, and finally FNS group. The FNS-LOW group has an improvement over the FNS group but not by much. Conclusion In operations, when the implantation position of the central guide wire is not at the center of the femoral neck but slightly lower, it is recommended not to adjust the wire repeatedly in pursuit of the center position; for femoral neck fractures that are extremely unstable at the fracture end or require revision, the insertion strategy of FNS in the low position combined with CS can be adopted to obtain better fixation effects.

Published
2023

31. Arthroscopic Subscapularis Augmentation Using the Long Head of the Biceps Tendon for Anterior Shoulder Instability

Author

Jianming Huang, Danlei Huang, Jun Wang, Zhiyang Ye, and Haoyuan Liu

Subjects
Orthopedics and Sports Medicine
Abstract

The limitations of transferring the coracoid process along with the conjoined tendon are coracoacromial arch damage, technical difficulty, and nerve injury. The long head of the biceps tendon (LHBT) proximal transposition technique has a weaker sling effect and a risk of nerve injury. The arthroscopic subscapularis augmentation technique may have risks of shoulder external rotation restriction and subscapularis transection. Herein, we introduce an arthroscopic technique for the transfer of the LHBT for subscapularis augmentation to address these risks. Indications of this technique were patients younger than 45 years of age who engage in competitive sports, require forceful external rotation and abduction, have a related capsule-ligament insufficiency, and have a glenoid bone loss25%. The steps include detaching the LHBT at the upper edge of the pectoralis major, transecting and braiding the LHBT, establishing a scapular tunnel, placing a guide suture through the upper third of the subscapular and scapular tunnel, passing the LHBT through the established tunnels, and fixating the LHBT. This technique achieves stability of the anterior shoulder by transecting and transferring the distal end of the LHBT to press on the upper third of the subscapularis muscle.

Published
2022

32. Reinforcement Learning-Based Resource Partitioning for Improving Responsiveness in Cloud Gaming

Author

Yusen Li, Haoyuan Liu, Xiwei Wang, Xiaoguang Liu, Lingjun Pu, Gang Wang, and Shanjiang Tang

Subjects
Process (engineering), Computer science, business.industry, Distributed computing, Cloud gaming, Partition (database), Theoretical Computer Science, Resource (project management), Computational Theory and Mathematics, User experience design, Hardware and Architecture, Server, Reinforcement learning, business, Software, Processing delay
Abstract

Cloud gaming has been very popular in recent years, but issues relating to maintaining low interaction delay to guarantee satisfactory user experience are still prevalent. We observe that the server-side processing delay in cloud gaming system could be heavily influenced by how the resources are partitioned among processes. However, finding the optimal partitioning policy that minimizes the response delay faces several critical challenges. In this paper, we propose an online resource partitioning framework for reducing response delay in cloud gaming, which has several promising properties. First, we divide the processes into disjoint groups and partition resources among process groups, which greatly simplifies the resource partitioning problem while ensuring high partitioning effectiveness. Second, to tackle dynamic workload changes, we classify game workloads into several clusters and maintain separate process grouping plan for each cluster. Third, we leverage reinforcement learning to adaptively choose the best actions for minimizing response delay in real time. We evaluate the proposed framework in a real cloud gaming environment using several real games. The experimental results show that our approach can reduce the response delay by 22\% to 41\% compared to a system without resource partitioning, and outperforms other resource partitioning policies significantly.

Published
2022

33. Influence of static–cyclic load misalignment on the drained tilting response of offshore monopiles in sand

Author

Zheng Li, Haoyuan Liu, Michael A. Hicks, and Federico Pisanò

Subjects
Finite-element modelling, Sand, Cyclic loading, Footings/foundations, Geotechnical Engineering and Engineering Geology, Load misalignment, Offshore engineering, Computer Science Applications
Abstract

Offshore monopile foundations are exposed to misaligned wind and wave loadings, which are respectively dominated by (nearly) static and cyclic load components. While the response of these systems to unidirectional cyclic loading has been extensively investigated, only a few studies have been devoted to the realistic case of misaligned static and cyclic loads, and particularly to the effects of such misalignment on the accumulation of pile rotation under prolonged cycling. This paper presents a 3D finite-element (FE) modelling study on the relationship between load misalignment and cyclic monopile tilt under drained conditions, based on the use of the SANISAND-MS model to enable accurate simulation of cyclic sand ratcheting. After qualitatively identifying the relationship between relevant loading parameters and cyclic stress/densification mechanisms in the soil, specific parametric studies are performed to explore the impact on pile tilt accumulation. The results show that, in comparison to unidirectional loading, misaligned static–cyclic loading gives rise to lesser-known pile–soil interaction mechanisms: when the direction of cycling deviates from that of the static load, “cyclic compression” and “direct cyclic shearing” mechanisms begin to co-exist. This is quantitatively captured by a newly proposed empirical equation for monopile tilt calibrated against the 3D FE simulation results obtained in this work.

Published
2023

36. A Geotechnical Modelling Framework for the Tilting Analysis of Offshore Monopiles Under Environmental Cyclic Loading

Author

Federico Pisanò, Haoyuan Liu, and Evangelos Kementzetzidis

Abstract

The development of offshore wind farms requires advanced knowledge and technology, particularly with regard to the design and installation of foundation systems. Offshore wind turbine foundations, such as monopiles, cannot be adequately designed without in-depth analysis of soil-foundation interaction under environmental cyclic loads, such as those induced by wind and marine waves. Serviceability criteria for offshore monopiles include the estimation of long-term, permanent tilt under long-lasting cycling. In the lack of well-established analysis methods, both experimental and computational studies have been carried out in the last decade to support the fundamental understanding of cyclic monopile–soil interaction mechanisms, and in turn the conception of engineering methods for monopile tilt predictions. With regard to the case of monopiles in sandy soil, this paper summarises recent work on the 3D finite element (FE) modelling of monopile tilt based on the SANISAND-MS model proposed by Liu et al. (2019) [1], which enables realistic simulation of cyclic sand ratcheting and densification around the pile. Overall, the presented numerical results confirm the suitability of the SANISAND-MS 3D FE framework as well as, however, its high computational costs. To foster more efficient application to geotechnical design, it is shown how the same theoretical framework on which the SANISAND-MS formulation is based, can be exploited to derive 1D pile-soil interaction models for the p-y-type analysis of cyclically loaded monopiles. In this respect, the importance of preliminary 3D FE modelling and linking to site investigation data (e.g., CPT profiles) is recognised as key to the practical calibration and use of cyclic p-y models.

Published
2022

37. Research on the Development Problems and Countermeasures of China's E-commerce Platforms——Taking Taobao as an Example

Author

Haoyuan Liu and Rui Xiao

Subjects
business.industry, Retail sales, Descriptive survey, Face (sociological concept), Rating system, E-commerce, Marketing, China, business, Database transaction
Abstract

As the Chinese e-commerce market appears as a leading trend that helps to reduce cost of both consumers and sellers during transactions, decrease the development gap between rural and urban areas, and create job opportunities which lead to increment of employment rate, Taobao becomes one of the largest e- commerce platforms in China for it caters to the needs of small and medium sellers, leaving other similar platforms behind. However, as the retail sales and the number of users skyrockets each year, the obstacles that e-commerce platforms face also become more obvious. Therefore, this research attempts to narrow down things that hinder e-commerce platforms from further expanding and provide viable solutions that e-commerce platforms could try to employ. To collect information about the challenges faced by e-commerce users and the possible solutions, the research focuses on relevant literature reviews and data before and in 2021. The main concerns for the development of e-commerce platforms, specifically for Taobao, are the rating system, fraud transaction, and the logistic services. According to relevant literature, providing a descriptive survey for the rating system, setting up inspection departments, and establishing its own logistic company or creating a ranking system for logistic companies that cooperate with Taobao are all possible solutions that Taobao can refer to. This research tries to identify concerns that e-commerce users generally have for e-commerce platforms that still lack improvement. Through the combination of related articles and creative ideas, it offers hypothetically effective solutions to the challenges that are identified. The research intends to help the Chinese e-commerce market to evolve into the next level and make electronic transactions more pleasant for platform users.

Published
2021

39. Integrated transcriptomics and lipidomics investigation of the mechanism underlying the gastrointestinal mucosa damage of Loropetalum chinense (R.Br.) and its representative component

Author

Jianfang Song, Zhihong Jiang, Xiaolu Wei, Yan Zhang, Baolin Bian, Hongjie Wang, Wenya Gao, Nan Si, Haoyuan Liu, Meng Cheng, Zhengzheng Zhao, Yanyan Zhou, and Haiyu Zhao

Subjects
Pharmacology, Complementary and alternative medicine, Drug Discovery, Pharmaceutical Science, Molecular Medicine
Published
2023

40. Modeling and control of a hexacopter with a passive manipulator for aerial manipulation

Author

Haoyuan Liu, Pin Guo, Kun Xu, Huichao Deng, and Xilun Ding

Subjects
Adaptive control, Control theory, Linearization, Computer science, Underactuation, media_common.quotation_subject, Trajectory, Robot, General Medicine, Inertia, Collision, media_common
Abstract

In this paper, a multi-propeller aerial robot with a passive manipulator for aerial manipulation is presented. In order to deal with the collision, external disturbance, changing inertia, and underactuated characteristic during the aerial manipulation, an adaptive trajectory linearization control (ATLC) scheme is presented to stabilize the multi-propeller aerial robot during the whole process. The ATLC controller is developed based on trajectory linearization control (TLC) method and model reference adaptive control (MRAC) method. The stability of the proposed system is analyzed by common Lyapunov function. Numerical simulations are carried out to compare the ATLC with TLC controller facing collision, external disturbance and changing inertia during an aerial manipulation. Experimental results prove that the developed robot can achieve aerial manipulation in the outdoor environment.

Published
2021

42. Analysis of the clinical effect of femoral neck system compared with three cannulated cancellous screws in the treatment of femoral neck fractures in young adults

Author

Ximu Kuang, Guojian Jian, Feixiong Chen, Desheng Xie, Yanpeng Huang, and Haoyuan Liu

Abstract

Purpose To evaluate the effect of femoral neck system (FNS) internal fixation device compared with three cannulated screws (CCS) in the treatment of femoral neck fracture in young adults. Methods This retrospective study collected the data of 60 young adults with femoral neck fractures admitted to Chenggong Hospital Affiliated to Xiamen University from August 2020 to August 2021. They were divided into FNS group and CCS group according to the surgical method. Statistical methods were used to compare the operative and postoperative situation of two groups. Results Patients were followed up for 8 to 20 months. There was no statistically significant difference in the general baseline data, and they were comparable. The operation duration and operative blood loss and times of fluoroscopies in FNS group were greater than those of the CCS group(P<0.05);The partial and complete weight-bearing time and fracture healing time were earlier than those of the CCS group(P<0.05). The Harris hip function score at 12 months postoperatively in FNS group (89.50±2.45) was greater than that in the CCS group (84.60±3.14)(P<0.05); Overall complications rate (including nonunion, necrosis of the femoral head, internal fixation failure) occurred in the FNS group (3.3%) was lower than CCS (23.3%,P<0.05).Conclusion FNS has both good biomechanical properties and relatively less invasiveness. FNS can effectively resist shear force, avoid further shortening of femoral neck and accelerate fracture healing. FNS is a reliable internal fixation device for femoral neck fractures in young adults.

Published
2022

43. One-Step Preparation of an AgNP-nHA@RGO Three-Dimensional Porous Scaffold and Its Application in Infected Bone Defect Treatment

Author

Zhifeng Dong, Shanshan Liu, Jianming Huang, Dongliang Wang, Xiaoqun Li, Jia He, Jiacan Su, Wei Nie, Haoyuan Liu, Qirong Zhou, and Weizong Weng

Subjects
Scaffold, Scanning electron microscope, Chemistry, Organic Chemistry, Biophysics, Biofilm, Pharmaceutical Science, Bioengineering, 02 engineering and technology, General Medicine, Bone healing, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Silver nanoparticle, 0104 chemical sciences, Biomaterials, Chemical engineering, Transmission electron microscopy, In vivo, Drug Discovery, Selected area diffraction, 0210 nano-technology
Abstract

Background Bactericidal capacity, durable inhibition of biofilm formation, and a three-dimensional (3D) porous structure are the emphases of infected bone defect (IBD) treatment via local scaffold implantation strategy. Purpose In this study, silver nanoparticle (AgNP)-loaded nano-hydroxyapatite (nHA)@ reduced graphene oxide (RGO) 3D scaffolds (AHRG scaffolds) were designed to alleviate bone infection, inhibit biofilm formation, and promote bone repair through the synergistic effects of AgNPs, RGO, and nHA. Materials and methods AHRGs were prepared using a one-step preparation method, to create a 3D porous scaffold to facilitate a uniform distribution of AgNPs and nHA. Methicillin-resistant Staphylococcus aureus (MRSA) was used as a model-resistant bacterium, and the effects of different silver loadings on the antimicrobial activity and cytocompatibility of materials were evaluated. Finally, a rabbit IBD model was used to evaluate the therapeutic effect of the AHRG scaffold in vivo. Results The results showed successful synthesis of the AHRG scaffold. The ideal 3D porous structure was verified using scanning electron microscopy and transmission electron microscopy, and X-ray photoelectron spectroscopy and selected area electron diffraction measurements revealed uniform distributions of AgNP and nHA. In vitro antibacterial and cytocompatibility indicated that the 4% AHRG scaffolds possessed the most favorable balance of bactericidal properties and cytocompatibility. In vivo evaluation of the IBD model showed promising treatment efficacy of AHRG scaffolds. Conclusion The as-fabricated AHRG scaffolds effectively eliminated infection and inhibited biofilm formation. IBD repair was facilitated by the bactericidal properties and 3D porous structure of the AHRG scaffold, suggesting its potential in the treatment of IBDs.

Published
2020

44. Exploring Genomic Conservation in Actinobacteriophages with Small Genomes

Author

Vincent Y. Tse, Haoyuan Liu, Andrew Kapinos, Canela Torres, Breanna Camille S. Cayabyab, Sarah N. Fett, Lucy G. Nakashima, Mujtahid Rahman, Aida S. Vargas, Krisanavane Reddi, Jordan Moberg Parker, and Amanda C. Freise

Subjects
viruses
Abstract

Actinobacteriophages of a wide range of genome sizes continue to be isolated and characterized, but only a handful of these have atypically small genomes, defined in this work as genome sizes under 20,000 bp. These “small phages” are relatively rare and have received minimal study thus far. Of the actinobacteriophages published in PhagesDB.org, small phages have been isolated on Arthrobacter, Gordonia, Rhodococcus, and Microbacterium hosts. A previous study by Pope et al. showed that Gordonia small phages have similar gene products and amino acid sequences. Here, we set out to further examine relationships between small Gordonia phages as well as small phages that infect other hosts. Of the 3222 sequenced phages listed on PhagesDB, we identified 109 distinctly small phages with genome sizes under 20,000 bp. The majority of the small phages were isolated on Arthrobacter or Microbacterium hosts. Using comparative genomics, we searched for patterns of similarity among 34 cluster-representative small phages. Dot plot comparisons showed that there was more amino acid conservation than nucleotide identity amongst small phages. Gene content similarity (GCS) analysis revealed that the temperate Gordonia phages in Cluster CW share significant GCS values (over 35%) with the lytic Arthrobacter phages in Cluster AN, suggesting that some small phages have a considerable degree of genomic similarity with each other. SplitsTree analyses of shared phams (genes with substantial amino acid identity) supported the complexity of clustering criteria in small phages, given shuffling of genes across phages of different clusters and close relationships despite varied cluster membership. We observed this continuum of phage diversity through Rhodococcus phage RRH1’s closer similarity to phages in Gordonia subcluster CW1 than CW1 is to Gordonia subcluster CW3. Finally, we were able to confirm the presence of conserved phams across not only small Gordonia phages but also within small phages from different clusters and hosts. Studying these genomic trends hidden in small phages allows us to better understand and appreciate the overall diversity of phages.

Published
2022

45. Large diameter laterally loaded piles in sand: Numerical evaluation of soil stress paths and relevance of laboratory soil element testing

Author

Xiaoyang Cheng, Erdin Ibraim, Haoyuan Liu, Federico Pisanò, and Andrea Diambra

Subjects
Monotonic loading, Finite element, Large-diameter pile, Laboratory element testing, Stress path, Geotechnical Engineering and Engineering Geology, Computer Science Applications
Abstract

This paper uses 3D numerical analyses to investigate the stress path experienced by soil elements around large diameter piles in sand subjected to monotonic drained lateral loading. Inspection of the loading-induced stresses in the soil revealed the multiaxial nature of these stress paths, which are characterised by rotation of one or more principal stress axes. Based on the outcome of the finite element analyses, typical stress paths for different soil elements around the piles are extracted. Such stress paths are then evaluated against those enabled by conventional and advanced laboratory soil element testing. It is found that a combination of tests in the Hollow Cylinder Torsional Apparatus (HCTA) can reproduce most features of the numerically identified stress paths for soil elements around the pile. Unavoidable limitations in laboratory testing are discussed as well as the major challenge in replicating the loading direction with respect to the material axes. Some guidance for the experimental implementation of these stress paths in the HCTA are provided as well as a discussion on the use of conventional experimental equipment, such as the conventional triaxial or simple shear apparatus. Large diameter laterally loaded piles in sand: Numerical evaluation of soil stress paths and relevance of laboratory soil element testing

Published
2022

46. Impact of cyclic strain accumulation on the tilting behaviour of monopiles in sand: An assessment of the Miner's rule based on SANISAND-MS 3D FE modelling

Author

Haoyuan Liu, Federico Pisanò, Hans Petter Jostad, and Nallathamby Sivasithamparam

Subjects
Environmental Engineering, Finite element, Loading history, Ocean Engineering, Cyclic accumulation, Accumulated rotation, Monopile
Abstract

Offshore monopiles accumulate permanent tilt under long-lasting cyclic environmental loads. Accurate prediction of monopile tilt is key to assessing their serviceability, and requires a fundamental understanding of loading history effects. While both experimental and numerical studies are shedding light on this matter, this work uses step-by-step implicit 3D FE modelling to investigate loading history effects in the response to cyclic lateral loading of monopiles in sand and to identify links between local soil behaviour and relevant features of global pile behaviour. For this purpose, the recently developed SANISAND-MS model is adopted to achieve a reliable simulation of sand's cyclic ratcheting. In particular, the validity of an up-scaled Miner's rule for monopile tilting under multi-amplitude cyclic loading is assessed based on the results of 3D FE parametric analyses, with emphasis on the role played by the engineering idealisation of random environmental loading. The validity of such a rule has been numerically investigated both in terms of local soil element response and global foundation behaviour — for the particular case of a large-diameter monopile. In respect, the effect of the loading history idealisation is presented, and it is concluded that Miner's rule does not always rigorously apply to all the cases considered herein. The translation of irregular loading histories into a regular version with loading packages sorted in ascending amplitude order is shown to be a reasonable approach, at least when the possibility of cyclic pore pressure build-up is disregarded.

Published
2022

47. Cyclic Capacity of Monopiles in Sand under Partially Drained Conditions: A Numerical Approach

Author

Hans Petter Jostad, Haoyuan Liu, Nallathamby Sivasithamparam, and Raffaele Ragni

Subjects
Geotechnical Engineering and Engineering Geology, General Environmental Science
Abstract

Cyclic loading of saturated sand under partially drained conditions may lead to accumulated strains, pore pressure buildup, and consequently reduced effective stress, stiffness, and shear strength. This will affect the ultimate limit state capacity of monopile foundations in sand for offshore wind turbines. This paper calculates the performance of large-diameter monopile foundations, which are installed in uniform dense sand, subjected to storm loading using the partially drained cyclic accumulation model (PDCAM). The simultaneous pore pressure accumulation and dissipation is accounted for by fully coupled pore water flow and stress equilibrium (consolidation) finite element analyses. Drainage and cyclic load effects on monopile behavior are studied by comparing the PDCAM simulation results with simulation results using a hardening soil model with small strain stiffness. At the end, a simplified procedure of PDCAM, named PDCAM-S, is proposed, and the results using this approach together with PLAXIS 3D and the NGI-ADP soil model are compared with the PDCAM results. Cyclic Capacity of Monopiles in Sand under Partially Drained Conditions: A Numerical Approach

Published
2022

Catalog

Books, media, physical & digital resources
See catalog results