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1. Research on the Prediction of Drilling Rate in Geological Core Drilling Based on the BP Neural Network

Author

Da Gong, Yutong Zu, Zheng Zhou, Mingrang Jia, Jiachen Liu, and Yuanbiao Hu

Subjects
geological core drilling, back propagation algorithm, drilling speed prediction, BP neural network, ROP, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999
Abstract

The development of automation and intelligence in geological core drilling is not yet mature. The selection and improvement of drilling parameters rely mainly on experience, and adjustments are often made after drilling by evaluating the core, which introduces a lag and reduces the drilling efficiency. Therefore, this study first establishes a geological core drilling experiment platform to collect drilling data. Through the constructed geological core drilling experimental platform, the practical data at the drill bit can be directly obtained, solving the problem of the data from the surface equipment in the practical drilling differing from the practical data. Second, the back propagation (BP) algorithm is used to perform the ROP prediction, with weight on bit (WOB), torque (TOR), flow rate (Q), and rotation speed (RPM) as input parameters, and rate of penetration (ROP) as the output. Subsequently, correlation analysis is used to perform the feature parameter optimization, and the effects of bit wear and bit cutting depth on the experiment are considered. Finally, comparison with algorithms such as ridge regression, SVM and KNN shows that the ROP prediction model using the BP neural network has the highest prediction accuracy of 94.1%. The results provide a reference for ROP prediction and the automation of geological core drilling rigs.

Published
2024
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2. Geothermal heat flow from borehole measurements at the margin of Princess Elizabeth Land (East Antarctic Ice Sheet)

Author

Pavel G. Talalay, Da Gong, Xiaopeng Fan, Yazhou Li, German Leitchenkov, Bing Li, Nan Zhang, Rusheng Wang, Yang Yang, and Jialin Hong

Subjects
glaciological instruments and methods, ice temperature, subglacial exploration geophysics, Environmental sciences, GE1-350, Meteorology. Climatology, QC851-999
Abstract

A 198.8 m deep borehole was drilled through ice to subglacial bedrock in the northwestern marginal part of Princess Elizabeth Land, ~12 km south of Zhongshan Station, in January–February 2019. Three years later, in February 2022, the borehole temperature profile was measured, and the geothermal heat flow (GHF) was estimated using a 1-D time-dependent energy-balance equation. For a depth corresponding to the base of the ice sheet, the GHF was calculated as 72.6 ± 2.3 mW m−2 and temperature −4.53 ± 0.27°C. The regional averages estimated for this area based, generally, on tectonic setting vary from 55 to 66 mW m−2. A higher GHF is interpreted to originate mostly from the occurrence of metamorphic complexes intruded by heat-producing elements in the subglacial bedrock below the drill site.

Published
2023
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3. Theoretical and numerical simulation research about annular nozzle parameters influence on heat transfer in hot-water ice-coring drilling

Author

An Liu, Pavel G. Talalay, Xiaopeng Fan, Yang Yang, Da Gong, and Rusheng Wang

Subjects
Polar research, Hot-water ice-coring drilling, Nozzle parameters, Heat transfer, Drilling speed, Engineering (General). Civil engineering (General), TA1-2040
Abstract

Ice cores from polar zones could determine ice dating and biodiversity. Ice cores retrieved in hot-water ice-coring drilling partly melted owing to moderate drilling speed of annular drill head with many nozzles, which was largely depended on the heat transfer efficiency of jet to ice at borehole bottom. To obtain the higher drilling speed and ice cores of good quality, this paper explored the influence of nozzle parameters on the heat transfer efficiency of annular jet to bottom ice. Main nozzle parameters affecting the heat transfer efficiency were theoretically determined firstly. Then influence law of nozzle parameters on the heat transfer were estimated by theoretical calculation and numerical simulation. The result showed the heat transfer of annular jet to bottom ice was positively correlated with the nozzle flow and negatively relevant with the nozzle diameter, nozzle angle and nozzle quantity, which was further compared with the drilling speed value in experiment to confirm its correctness. The angle was proved to be the most influential parameter, when it increased from 0° to 30°, the drilling speed decreased 75%. The result can provided reference for designers on how to promote the drilling speed in hot-water ice-coring drilling and improve ice core quality.

Published
2023
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4. Heat transfer modelling of thermal anti-freezing method for ice hot-point drilling

Author

Yazhou Li, Pavel G. Talalay, Xiaopeng Fan, Da Gong, Bing Li, Yuting Ye, Yue Wang, and Ting Wang

Subjects
Hot-point drill, Thermal anti-freezing, Borehole closure, Power density, Temperature distribution, Engineering (General). Civil engineering (General), TA1-2040
Abstract

The melting water produced from ice during hot-point drilling can easily freeze and cause the hot-point drill to stick. Two different thermal anti-freezing methods exist to prevent water-filled boreholes from refreezing: the heating cable method and lateral heating method. However, the required power density and ice temperature distribution when using these two methods have not been fully discussed. In this study, heat transfer models of the two thermal anti-freezing methods were first developed based on a simplified heat conduction equation by considering the downward movement of the hot-point drill. Subsequently, case studies were conducted to determine the characteristics of the heat transfer during hot-point drilling. Finally, the variations in the power density, power consumption, borehole closure time, borehole closure length, and thermal layer thickness for both thermal anti-freezing methods were evaluated. We recommend that the heating cable method should be used to drill boreholes with shallow depths or small diameters in temperate ice, whereas the lateral heating method can be applied to a wide range of ice temperatures, borehole diameters, and borehole depths. Generally, the paper presents useful guidance for designing the heating cable and lateral heater and reducing the risk of borehole freezing.

Published
2022
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5. New synthetic fiber armored cable for freezing-in thermal ice probes

Author

Nan Zhang, Hui Liu, Pavel Talalay, Youhong Sun, Na Li, Xiaopeng Fan, Bing Li, Da Gong, Jialin Hong, Ting Wang, An Liu, Yazhou Li, Yunchen Liu, Rusheng Wang, Yang Yang, and Liang Wang

Subjects
Glaciological instruments and methods, ice coring, ice engineering, Meteorology. Climatology, QC851-999
Abstract

A series of new synthetic armored cables were developed and tested to ensure that they were suitable for use with the RECoverable Autonomous Sonde (RECAS), which is a newly designed freezing-in thermal ice probe. The final version of the cable consists of two concentric conductors that can be used as the power and signal lines. Two polyfluoroalkoxy jackets are used for electrical insulation (one for insulation between conductors, and the other for insulation of the outer conductor). The outer insulation layer is coated by polyurethane jacket to seal the connections between the cable and electrical units. The 0.65 mm thick strength member is made from aramid fibers woven together. To hold these aramid fibers in place, a sheathing layer was produced from a polyamide fabric cover net. The outer diameter of the final version of the cable is ~6.1 mm. The permissible bending radius is as low as 17–20 mm. The maximal breaking force under straight tension is ~12.2 kN. The cable weight is only ~0.061 kg m−1. The mechanical and electrical properties and environmental suitability of the cable were determined through laboratory testing and joint testing with the probe.

Published
2021
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6. Recoverable autonomous sonde for subglacial lake exploration: electronic control system design

Author

Shilin Peng, Xiao Jiang, Yongzhen Tang, Chong Li, Xiaodong Li, Shengmiao Huang, Tianxin Zhu, Jianguang Shi, Youhong Sun, Pavel Talalay, Xiaopeng Fan, Nan Zhang, Bing Li, Da Gong, and Haibin Yu

Subjects
Control system, recoverable autonomous sonde (RECAS), subglacial lake, thermal drilling, Meteorology. Climatology, QC851-999
Abstract

Subglacial lake exploration is of great interest to the science community. RECoverable Autonomous Sonde (RECAS) provides an exploration tool to measure and sample subglacial lake environments while the subglacial lake remains isolated from the glacier surface and atmosphere. This paper presents an electronic control system design of 200 m prototype of RECAS. The proposed electronic control system consists of a surface system, a downhole control system, and a power transfer and communication system. The downhole control system is the core element of RECAS, and is responsible for sonde status monitoring, sonde motion control, subglacial water sampling and in situ analysis. A custom RS485 temperature sensor was developed to cater for the limited size and depth requirements of the system. We adopted a humidity-based measurement to monitor for a housing leak. This condition is because standard leak detection monitoring of water conductivity may be inapplicable to pure ice in Antarctica. A water sampler control board was designed to control the samplers and monitor the on/off state. A high-definition camera system with built-in storage and self-heating ability was designed to perform the video recording in the subglacial lake. The proposed electronic control system is proven effective after a series of tests.

Published
2021
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7. Antarctic subglacial drilling rig: Part III. Drilling auxiliaries and environmental measures

Author

Xiaopeng Fan, Pavel Talalay, Youhong Sun, Xingchen Li, Nan Zhang, Alexey Markov, Yang Yang, Pinlu Cao, Rusheng Wang, Yongwen Liu, Yunchen Liu, Ting Wang, Wei Wu, Cheng Yang, Jialin Hong, Da Gong, Han Zhang, Mikhail Sysoev, Xiao Li, An Liu, and Yazhou Li

Subjects
Glaciological instruments and methods, ice coring, ice engineering, Meteorology. Climatology, QC851-999
Abstract

The Antarctic subglacial drilling rig (ASDR) is designed to recover 105 mm-diameter ice cores up to 1400 m depth and 41.5 mm-diameter bedrock cores up to 2 m in length. In order to ensure safe and convenient drilling, drilling auxiliaries are designed to support fieldwork and servicing. These auxiliaries are subdivided into several systems for power supply, drill tripping in the borehole, ice core and chip processing, and drill servicing and maintenance. The required equipment also includes two generators, a drilling winch with a cable, logging winch with a cable, control desk, pipe handler with a fixed clamp, chip chamber vibrator, centrifuge, emergency devices and fitting and electrical tools. Additionally, several environmental protective measures such as a new liquid-tight casing with a thermal casing shoe and a bailing device for recovering drilling fluid from the borehole were designed. Most of the auxiliaries were tested during the summer of 2018–2019 near Zhongshan Station, East Antarctica while drilling to the bedrock to a depth of 198 m.

Published
2021
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8. Antarctic subglacial drilling rig: Part I. General concept and drilling shelter structure

Author

Pavel Talalay, Youhong Sun, Xiaopeng Fan, Nan Zhang, Pinlu Cao, Rusheng Wang, Alexey Markov, Xingchen Li, Yang Yang, Mikhail Sysoev, Yongwen Liu, Yunchen Liu, Wei Wu, and Da Gong

Subjects
Ice engineering, Glacier geology, Ice coring, Subglacial exploration geophysics, Meteorology. Climatology, QC851-999
Abstract

Drilling to the bedrock of ice sheets and glaciers offers unique opportunities for examining the processes occurring in the bed. Basal and subglacial materials contain important paleoclimatic and paleoenvironmental records and provide a unique habitat for life; they offer significant information regarding the sediment deformation beneath glaciers and its effects on the subglacial hydraulic system and geology. The newly developed and tested Antarctic subglacial drilling rig (ASDR) is designed to recover ice and bedrock core samples from depths of up to 1400 m. All of the drilling equipment is installed inside a movable, sledge-mounted, temperature-controlled and wind-protected drilling shelter and workshop. To facilitate helicopter unloading of the research vessel, the shelter and workshop can be disassembled, with individual parts weighing

Published
2021
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9. Antarctic subglacial drilling rig: Part II. Ice and Bedrock Electromechanical Drill (IBED)

Author

Pavel Talalay, Xingchen Li, Nan Zhang, Xiaopeng Fan, Youhong Sun, Pinlu Cao, Rusheng Wang, Yang Yang, Yongwen Liu, Yunchen Liu, Wei Wu, Cheng Yang, Jialin Hong, Da Gong, Han Zhang, Xiao Li, Yunwang Chen, An Liu, and Yazhou Li

Subjects
Glacier geology, ice coring, ice engineering, subglacial exploration geophysics, Meteorology. Climatology, QC851-999
Abstract

A new, modified version of the cable-suspended Ice and Bedrock Electromechanical Drill (IBED) was designed for drilling in firn, ice, debris-rich ice and rock. The upper part of the drill is almost the same for all drill variants and comprises four sections: cable termination, a slip-ring section, an antitorque system and an electronic pressure chamber. The lower part of the IBED comprises an auger core barrel, reamers, a core barrel for ice/debris-ice drilling and a conventional geological single-tube core barrel or custom-made double-tube core barrel. First, the short and full-scale field versions of the IBED were tested at an outdoor testing stand and a testing facility with a 12.5 m-deep ice well. Then, in the 2018–2019 summer season, the IBED was tested in the field at a site ~12 km south of Zhongshan Station, East Antarctica, and a ~6 cm bedrock core was recovered from a 198 m-deep borehole. A total of 18 d was required to penetrate the ice sheet. The retrieved core samples of blue ice, basal ice and bedrock provided valuable information regarding the Earth's paleo-environment.

Published
2021
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10. Antarctic subglacial drilling rig: Part IV. Electrical and electronic control system

Author

Nan Zhang, Pavel Talalay, Jingbiao Liu, Xiaopeng Fan, Qingpeng Kong, Haibin Yu, Yunchen Liu, Benkun Liu, Da Gong, Xingchen Li, Wei Wu, Jialin Hong, and Mikhail Sysoev

Subjects
Glaciological instruments and methods, ice coring, ice engineering, Meteorology. Climatology, QC851-999
Abstract

In many cases, the efficiency and safety of a drilling project depend on the reliability of the electrical and electronic control system, as the process progresses without visual access of the operator. The electrical and electronic system provides and regulates the power supply for the drill, collects and monitors the drill data during the whole operating process, and sends and receives the control instructions and feedback signals. The entire system is composed of the surface, borehole and software subsystems. The surface subsystem serves for operating the drilling process, transmitting the drilling and environmental data, and supplying power for the drill motor and downhole control system. The borehole subsystem is generally intended for borehole data acquisition, drill motor control, power regulation and communication. The software subsystem is designed for human–computer interaction, data processing and storage, and programming of signal acquisition and transmission of data. The control system of Antarctic subglacial drilling rig was tested during the 2018–2019 summer season near Zhongshan Station, East Antarctica, in the course of drilling to the bedrock at a depth of 198 m. It exhibited a steady and efficient performance without significant system failures.

Published
2021
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11. Application of Functional Nanomaterials in Aesthetic Art and Industrial Design Concept

Author

Da Gong, Zhenghang Li, Yuyan Song, and Jiaheng Han

Subjects
Materials of engineering and construction. Mechanics of materials, TA401-492
Abstract

Industrial design (ID) refers to industrial product design based on engineering, aesthetics, and economy. Traditional industrial design refers to the creative activities of designing and designing products produced by industrial means to make the best match with the environment and the people who use them. This paper aims to study how to analyze and study the application of aesthetic art, that is, the concept of industrial design, based on functional nanomaterials, and this paper describes the electrospinning technology. This paper puts forward the problem of the industrial design concept, which is based on design aesthetics. Therefore, this paper focuses on the development of industrial design and related elements. The application of functional nanomaterials in industrial design is designed and analyzed. The experimental results show that when the acid soaking time is 4∼12 days, the mechanical strength of the nanofiber membrane is 7∼9 MPa. Compared with the untreated nanofiber membrane, it increased by 25.4%∼48.8%, and the ductility decreased from 81.5% to 44.1%.

Published
2022
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12. Coring of Antarctic Subglacial Sediments

Author

Da Gong, Xiaopeng Fan, Yazhou Li, Bing Li, Nan Zhang, Raphael Gromig, Emma C. Smith, Wolf Dummann, Sophie Berger, Olaf Eisen, Jan Tell, Boris K. Biskaborn, Nikola Koglin, Frank Wilhelms, Benjamin Broy, Yunchen Liu, Yang Yang, Xingchen Li, An Liu, and Pavel Talalay

Subjects
subglacial aquatic environments, hot-water access borehole, sediment corers, water–sediment interface, Naval architecture. Shipbuilding. Marine engineering, VM1-989, Oceanography, GC1-1581
Abstract

Coring sediments in subglacial aquatic environments offers unique opportunities for research on paleo-environments and paleo-climates because it can provide data from periods even earlier than ice cores, as well as the overlying ice histories, interactions between ice and the water system, life forms in extreme habitats, sedimentology, and stratigraphy. However, retrieving sediment cores from a subglacial environment faces more difficulties than sediment coring in oceans and lakes, resulting in low yields from the most current subglacial sediment coring methods. The coring tools should pass through a hot water-drilled access borehole, then the water column, to reach the sediment layers. The access boreholes are size-limited by the hot water drilling tools and techniques. These holes are drilled through ice up to 3000−4000 m thick, with diameters ranging from 10−60 cm, and with a refreezing closure rate of up to 6 mm/h after being drilled. Several purpose-built streamline corers have been developed to pass through access boreholes and collect the sediment core. The main coring objectives are as follows: (i) To obtain undisturbed water−sediment cores, either singly or as multi-cores and (ii) to obtain long cores with minimal stratigraphic deformation. Subglacial sediment coring methods use similar tools to those used in lake and ocean coring. These methods include the following: Gravity coring, push coring, piston coring, hammer or percussion coring, vibrocoring, and composite methods. Several core length records have been attained by different coring methods, including a 290 cm percussion core from the sub-ice-shelf seafloor, a 400 cm piston core from the sub-ice-stream, and a 170 cm gravity core from a subglacial lake. There are also several undisturbed water−sediment cores that have been obtained by gravity corers or hammer corers. Most current coring tools are deployed by winch and cable facilities on the ice surface. There are three main limitations for obtaining long sediment cores which determines coring tool development, as follows: Hot-water borehole radial size restriction, the sedimentary structure, and the coring techniques. In this paper, we provide a general view on current developments in coring tools, including the working principles, corer characteristics, operational methods, coring site locations, field conditions, coring results, and possible technical improvements. Future prospects in corer design and development are also discussed.

Published
2019
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13. Design and Experiment of Clamper Used in Antarctic Subglacial Bedrock Drilling

Author

Pavel Talalay, Xingchen Li, Da Gong, Xiaopeng Fan, Nan Zhang, Yang Yang, Yongwen Liu, Yunchen Liu, Ting Wang, and Xiao Li

Subjects
clamper, polar drilling, Ice and Bedrock Electromechanical Drill, clamping torque, clamping force, Naval architecture. Shipbuilding. Marine engineering, VM1-989, Oceanography, GC1-1581
Abstract

As a result of the severe natural environment with oxygen deficit in the Antarctic, using conventional manual work to screw and unscrew the drill pipe increases the labor intensity tremendously and causes an efficiency reduction. Therefore, it would be useful to design a clamper inside the drilling shelter, which could help to assemble and disassemble the ice core barrel with screw connection. This paper describes the design of and experiments with the clamper inside the movable drilling shelter. A related testing stand was also designed and built to experiment on relationships between the clamper motor current versus clamping torque and force. Through experimental data collation and calculation analysis, the following conclusions could be drawn: (1) according to the rotary ability of the Ice and Bedrock Electromechanical Drill (IBED) to calculate and determine the torque of clamper, the clamping torque required to provide by the clamper is 100 N·m; (2) finite element simulation and analysis of the non-standard transmission chain showed that the mechanical reliability of the subparts; (3) the experimental results showed the range of the clamping force and clamping torque of the clamper. The clamping force and clamping torque increased with the increase of clamper DC motor current, presenting proportional linear relationships. The clamper can meet the clamping requirements of IBED for screwing, unscrewing, and clamping, which will be greatly helpful when it is tested in the field.

Published
2019
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14. Design Parameters of Hot-Water Drilling Systems

Author

Gang Liu, Pavel Talalay, Rusheng Wang, Yang Yang, Jialin Hong, Da Gong, An Liu, and Dayou Fan

Subjects
design principles, hot water drill, glaciers, heat transfer, pressure losses, refreezing rate, Hydraulic engineering, TC1-978, Water supply for domestic and industrial purposes, TD201-500
Abstract

Currently, hot-water drill systems are actively used to observe ocean cavities under ice shelves, detect the effects of climate change on glaciers, retrieve sub-ice seabed samples, study the internal ice structure with video imaging, log temperatures, measure deformations within ice, determine basal sliding velocity, provide clean access to subglacial lakes, and many other scientific applications. The main parameters of hot-water drilling systems in any configuration are flow rate, delivery pressure, and temperature of the delivered water. The controlled outcome variables are the diameter of the drilled borehole, rate of penetration, power and fuel consumption for ice melting, and refreezing rate of the borehole. The independent variables while drilling are the current/target depth and the temperature of the ice. The paper aims to present a design procedure for hot-water drilling parameters that are necessary to choose appropriate equipment and tools at the planning stage.

Published
2019
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15. Steering RECoverable Autonomous Sonde (RECAS) for accessing and studying subglacial lakes.

Author

Sysoev, Mikhail A., Talalay, Pavel G., Xiaopeng Fan, Nan Zhang, Da Gong, Yang Yang, Ting Wang, and Zhipeng Deng

Subjects
ELECTRIC drills, VOLTAGE, WATER well drilling, WATER sampling, HEATING control, SUBGLACIAL lakes
Abstract

The study of subglacial lakes requires clean access and sampling technologies. One of the most promising alternatives is the newly developed hot-point RECoverable Autonomous Sonde (RECAS), which allows downward and upward ice drilling and subglacial water sampling while the subglacial lake remains isolated from the surface. The original sonde descends downward under the force of gravity, and the borehole trajectory cannot be controlled. However, in certain cases, the sonde would preferably be able to drill at specific angles and directions, enabling it to follow a desired trajectory (e.g., maintaining verticality within the desired range) or bypass obstacles in the ice (e.g., stones and other inclusions). The general principle for the steering RECAS is to adjust the voltage for the electric thermal head heaters, which provides an opportunity to control the heat distribution on the drill head surface, thereby altering borehole trajectory during drilling. In this paper, the general principles of steering RECAS are described, and experimental results on deviational ice drilling with a controllable electric thermal head are discussed. [ABSTRACT FROM AUTHOR]

Published
2024
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16. Tranexamic acid dosage for spinal surgery: a meta-analysis

Author

Chao Qin, Kai-li Du, Pei-yu Guo, Hong-da Gong, and Chun-qiang Zhang

Subjects
Tranexamic Acid, Blood Loss, Surgical, Humans, Administration, Intravenous, Blood Transfusion, Orthopedics and Sports Medicine, Surgery, Antifibrinolytic Agents
Abstract

We conducted this meta-analysis of randomized controlled trials (RCTs) to compare the efficacy of different doses of intravenous tranexamic acid (TXA) in spinal surgery.We searched relevant academic articles from PubMed, Embase, the Cochrane Library, and CNKI. Two reviewers independently selected studies, assessed quality, extracted data, and evaluated the risk of bias. RevMan 5.4 was used for data analysis.Ten randomized controlled trials (RCTs) met the inclusion criteria and were identified, including 740 patients. According to the different dose regimens of intravenous TXA, the included studies' patients were divided into the high dose of intravenous TXA group and the low dose of intravenous TXA group. Compared with the low-dose group, the high-dose group can reduce the intraoperative blood loss (MD = - 100.87, 95% CI: [- 147.81, - 53.92], P 0.0001). For the postoperative Hb and HCT, the high-dose group can separately maintain 4.54 g/dL (MD = 4.54, 95% CI: [2.08, 6.99], P = 0.003) and 1.27% (MD = 1.27, 95% CI: [0.59, 1.94], P = 0.0002). There were no statistically significant differences in total blood loss, preoperative Hb and HCT, operative time, and blood transfusion rate between the high-dose group and the low-dose group.Based on the present meta-analysis, compared with the low-dose of intravenous TXA in spinal surgery, the high dose of intravenous TXA decreases the intraoperative blood loss and preserves higher postoperative Hb and HCT levels without increasing the operative time and blood transfusion rate.

Published
2022

17. Supplementary Figures 1 - 9 from Cancer Network Disruption by a Single Molecule Inhibitor Targeting Both Histone Deacetylase Activity and Phosphatidylinositol 3-Kinase Signaling

Author

Qian, Changgeng, primary, Lai, Cheng-Jung, primary, Bao, Rudi, primary, Wang, Da-Gong, primary, Wang, Jing, primary, Xu, Guang-Xin, primary, Atoyan, Ruzanna, primary, Qu, Hui, primary, Yin, Ling, primary, Samson, Maria, primary, Zifcak, Brian, primary, Ma, Anna Wai See, primary, DellaRocca, Steven, primary, Borek, Mylissa, primary, Zhai, Hai-Xiao, primary, Cai, Xiong, primary, and Voi, Maurizio, primary

Published
2023
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18. Supplementary Tables 1-4, Figures 1-9 from CUDC-101, a Multitargeted Inhibitor of Histone Deacetylase, Epidermal Growth Factor Receptor, and Human Epidermal Growth Factor Receptor 2, Exerts Potent Anticancer Activity

Author

Lai, Cheng-Jung, primary, Bao, Rudi, primary, Tao, Xu, primary, Wang, Jing, primary, Atoyan, Ruzanna, primary, Qu, Hui, primary, Wang, Da-Gong, primary, Yin, Ling, primary, Samson, Maria, primary, Forrester, Jeffrey, primary, Zifcak, Brian, primary, Xu, Guang-Xin, primary, DellaRocca, Steven, primary, Zhai, Hai-Xiao, primary, Cai, Xiong, primary, Munger, William E., primary, Keegan, Mitchell, primary, Pepicelli, Carmen V., primary, and Qian, Changgeng, primary

Published
2023
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19. Data from CUDC-101, a Multitargeted Inhibitor of Histone Deacetylase, Epidermal Growth Factor Receptor, and Human Epidermal Growth Factor Receptor 2, Exerts Potent Anticancer Activity

Author

Lai, Cheng-Jung, primary, Bao, Rudi, primary, Tao, Xu, primary, Wang, Jing, primary, Atoyan, Ruzanna, primary, Qu, Hui, primary, Wang, Da-Gong, primary, Yin, Ling, primary, Samson, Maria, primary, Forrester, Jeffrey, primary, Zifcak, Brian, primary, Xu, Guang-Xin, primary, DellaRocca, Steven, primary, Zhai, Hai-Xiao, primary, Cai, Xiong, primary, Munger, William E., primary, Keegan, Mitchell, primary, Pepicelli, Carmen V., primary, and Qian, Changgeng, primary

Published
2023
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20. Supplementary Figures 1 - 9 from Cancer Network Disruption by a Single Molecule Inhibitor Targeting Both Histone Deacetylase Activity and Phosphatidylinositol 3-Kinase Signaling

Author

Maurizio Voi, Xiong Cai, Hai-Xiao Zhai, Mylissa Borek, Steven DellaRocca, Anna Wai See Ma, Brian Zifcak, Maria Samson, Ling Yin, Hui Qu, Ruzanna Atoyan, Guang-Xin Xu, Jing Wang, Da-Gong Wang, Rudi Bao, Cheng-Jung Lai, and Changgeng Qian

Abstract

PDF file, 348KB, Figure S1. Synergy between PI3K and HDAC pathway inhibition. Figure S2. CUDC-907 increases acetylation of histone H3 in cultured cancer cells. Figure S3. CUDC-907 increases tubulin acetylation in cultured cancer cells. Figure S4. CUDC-907 increases p53 acetylation in cultured cancer cells. Figure S5. CUDC-907 increases p21 levels in cultured cancer cells. Figure S6. CUDC-907 induces the accumulation of activated caspases-3 and -7. Figure S7. CUDC-907 induces the accumulation of annexin V binding sites. Figure S8. CUDC-907 induces a G2/M cell cycle arrest. Figure S9. CUDC-907 is orally bioavailable and shows intratumoral accumulation.

Published
2023

21. Data from Cancer Network Disruption by a Single Molecule Inhibitor Targeting Both Histone Deacetylase Activity and Phosphatidylinositol 3-Kinase Signaling

Author

Maurizio Voi, Xiong Cai, Hai-Xiao Zhai, Mylissa Borek, Steven DellaRocca, Anna Wai See Ma, Brian Zifcak, Maria Samson, Ling Yin, Hui Qu, Ruzanna Atoyan, Guang-Xin Xu, Jing Wang, Da-Gong Wang, Rudi Bao, Cheng-Jung Lai, and Changgeng Qian

Abstract

Purpose: Given that histone deacetylase (HDAC) inhibitors are known to induce multiple epigenetic modifications affecting signaling networks and act synergistically with phosphatidylinositol 3-kinase (PI3K) inhibitors, we developed a strategy to simultaneously inhibit HDACs and PI3K in cancer cells.Experimental Design: We constructed dual-acting inhibitors by incorporating HDAC inhibitory functionality into a PI3K inhibitor pharmacophore. CUDC-907, a development candidate selected from these dual inhibitors, was evaluated in vitro and in vivo to determine its pharmacologic properties, anticancer activity, and mechanism of action.Results: CUDC-907 potently inhibits class I PI3Ks as well as classes I and II HDAC enzymes. Through its integrated HDAC inhibitory activity, CUDC-907 durably inhibits the PI3K-AKT-mTOR pathway and compensatory signaling molecules such as RAF, MEK, MAPK, and STAT-3, as well as upstream receptor tyrosine kinases. CUDC-907 shows greater growth inhibition and proapoptotic activity than single-target PI3K or HDAC inhibitors in both cultured and implanted cancer cells.Conclusions: CUDC-907 may offer improved therapeutic benefits through simultaneous, sustained disruption of multiple oncogenic signaling networks. Clin Cancer Res; 18(15); 4104–13. ©2012 AACR.

Published
2023

23. Quantum chemistry simulation of commonly used chemical drugs in COVID-19

Author

Da Gong

Abstract

Both computational chemistry and molecular simulations are methods of computing molecules through computer algorithms and models to investigate the structure and properties of the molecules of interest. [1] Both are methods to study the properties and structures of molecules under conditions that can be studied without the need for experiments. Since the outbreak of the new crown pneumonia epidemic, and especially since the large-scale outbreak of the COVID-19 in late 2022 in mainland China, the demand for febrile and analgesic drugs by the general population has increased, and the understanding and study of these drugs has become more important. However, the wide variety of drugs and the complex and demanding requirements of the experimental environment have hindered the understanding of these drugs. In this paper, I will perform molecular simulations of the major components of these drugs using computational chemistry to investigate the various chemical properties of these major components in a cost-effective manner.

Published
2023

27. Brief communication: New sonde to unravel the mystery of polar subglacial lakes

Author

Youhong Sun, Xiaopeng Fan, Bing Li, Yuansheng Li, Guopin Li, Haibin Yu, Hongzhi Li, Dongliang Wang, Nan Zhang, Da Gong, Rusheng Wang, Yazhou Li, and Pavel G. Talalay

Subjects
Earth-Surface Processes, Water Science and Technology
Abstract

The newly developed RECoverable Autonomous Sonde (RECAS) allows sampling and analysis of subglacial water while the subglacial lake remains isolated from the surface. The sonde was successfully tested in East Antarctica during the 2021–2022 field season: it reached the ice-sheet base at a depth of 200.3 m, sampled basal meltwater and measured its pressure, temperature, pH and conductivity and returned to the ice surface. The average downward penetration rate was 1.85 m h−1, and the average upward penetration rate was 2.94 m h−1. The successful test of a self-melting, recoverable probe in Antarctica marks further progress towards the clean exploration of subglacial water bodies.

Published
2022

28. Recoverable autonomous sonde for subglacial lake exploration: electronic control system design

Author

Pavel Talalay, Chong Li, Tianxin Zhu, Yongzhen Tang, Da Gong, Xiaodong Li, Shi Jianguang, Shengmiao Huang, Nan Zhang, Haibin Yu, Youhong Sun, Li Bing, Peng Shilin, Jiang Xiao, and Xiaopeng Fan

Subjects
010504 meteorology & atmospheric sciences, Electronic control system, Subglacial lake, 010502 geochemistry & geophysics, 01 natural sciences, Geomorphology, Geology, 0105 earth and related environmental sciences, Earth-Surface Processes
Abstract

Subglacial lake exploration is of great interest to the science community. RECoverable Autonomous Sonde (RECAS) provides an exploration tool to measure and sample subglacial lake environments while the subglacial lake remains isolated from the glacier surface and atmosphere. This paper presents an electronic control system design of 200 m prototype of RECAS. The proposed electronic control system consists of a surface system, a downhole control system, and a power transfer and communication system. The downhole control system is the core element of RECAS, and is responsible for sonde status monitoring, sonde motion control, subglacial water sampling and in situ analysis. A custom RS485 temperature sensor was developed to cater for the limited size and depth requirements of the system. We adopted a humidity-based measurement to monitor for a housing leak. This condition is because standard leak detection monitoring of water conductivity may be inapplicable to pure ice in Antarctica. A water sampler control board was designed to control the samplers and monitor the on/off state. A high-definition camera system with built-in storage and self-heating ability was designed to perform the video recording in the subglacial lake. The proposed electronic control system is proven effective after a series of tests.

Published
2021

29. Best practices for collecting polarimetric data with ApRES for constraining ice-fabric orientation and its spatial variability

Author

Olaf Eisen, Reza Ershadi, Reinhard Drews, Sophie Berger, Da Gong, Yazhou Li, Carlos Martin, and Ole Zeising

Abstract

In recent years radar polarimetry has re-surfaced as an ideal tool to determine ice-fabric patterns and linked mechanical ice anisotropy. The leap forward was facilitated by coherent data processing often collected by phase-sensitive Radio-Echo-Sounding (pRES) systems at fixed locations. The polarimetric response can either be synthesized from a set of quad-polarimetric measurements or obtained by manually rotating the antennas. Specifics of the data collection in the field varied between the different surveys, and no set of best practices has yet emerged. Here we present a systematic study that includes more than fifty different combinations of how polarimetric data can be acquired, including:different distances between the transmitter and receiver (2, 4 and 8 m) different combinations in polarization orientation (22.5 deg) a comparison between discrete full azimuthal data collected every 22.5 degrees and synthesized data collected in a quad-pole setup the effect of 180-degree polarization orientation on repeat measurements, e.g., basal melt rate and polarimetric analysis, e.g., coherence phase definition of Horizontal (H) and Vertical (V) orientation is pRES antenna setup and its impact on synthesizing and analyzing data 90-degree fabric orientation ambiguity in polarimetric data This study aims to provide best practices, considering that observation time in the field is limited. Ideally, this will lead to a unified setup and nomenclature, facilitating better compatibility from data collected by different groups on ice sheets, shelves, and glaciers.

Published
2022

32. New synthetic fiber armored cable for freezing-in thermal ice probes

Author

Nan Zhang, Liu Yunchen, Wang Rusheng, Ting Wang, Youhong Sun, Li Bing, Xiaopeng Fan, An Liu, Li Yazhou, Yang Yang, Da Gong, Wang Liang, Liu Hui, Na Li, Hong Jialin, and Pavel Talalay

Subjects
Synthetic fiber, 010504 meteorology & atmospheric sciences, 0103 physical sciences, Thermal, Composite material, 010303 astronomy & astrophysics, 01 natural sciences, Geology, 0105 earth and related environmental sciences, Earth-Surface Processes
Abstract

A series of new synthetic armored cables were developed and tested to ensure that they were suitable for use with the RECoverable Autonomous Sonde (RECAS), which is a newly designed freezing-in thermal ice probe. The final version of the cable consists of two concentric conductors that can be used as the power and signal lines. Two polyfluoroalkoxy jackets are used for electrical insulation (one for insulation between conductors, and the other for insulation of the outer conductor). The outer insulation layer is coated by polyurethane jacket to seal the connections between the cable and electrical units. The 0.65 mm thick strength member is made from aramid fibers woven together. To hold these aramid fibers in place, a sheathing layer was produced from a polyamide fabric cover net. The outer diameter of the final version of the cable is ~6.1 mm. The permissible bending radius is as low as 17–20 mm. The maximal breaking force under straight tension is ~12.2 kN. The cable weight is only ~0.061 kg m−1. The mechanical and electrical properties and environmental suitability of the cable were determined through laboratory testing and joint testing with the probe.

Published
2020

33. Antarctic subglacial drilling rig: Part III. Drilling auxiliaries and environmental measures

Author

Pavel Talalay, Youhong Sun, Yongwen Liu, Da Gong, Li Xiao, Yang Yang, Wei Wu, Mikhail Sysoev, An Liu, Li Yazhou, Alexey Markov, Hong Jialin, Nan Zhang, Yang Cheng, Zhang Han, Wang Rusheng, Xingchen Li, Ting Wang, Xiaopeng Fan, Pinlu Cao, and Liu Yunchen

Subjects
geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Drilling rig, Drill, Bedrock, 0211 other engineering and technologies, Borehole, Drilling, 02 engineering and technology, 01 natural sciences, Drilling fluid, Winch, Casing, Geology, 021101 geological & geomatics engineering, 0105 earth and related environmental sciences, Earth-Surface Processes, Marine engineering
Abstract

The Antarctic subglacial drilling rig (ASDR) is designed to recover 105 mm-diameter ice cores up to 1400 m depth and 41.5 mm-diameter bedrock cores up to 2 m in length. In order to ensure safe and convenient drilling, drilling auxiliaries are designed to support fieldwork and servicing. These auxiliaries are subdivided into several systems for power supply, drill tripping in the borehole, ice core and chip processing, and drill servicing and maintenance. The required equipment also includes two generators, a drilling winch with a cable, logging winch with a cable, control desk, pipe handler with a fixed clamp, chip chamber vibrator, centrifuge, emergency devices and fitting and electrical tools. Additionally, several environmental protective measures such as a new liquid-tight casing with a thermal casing shoe and a bailing device for recovering drilling fluid from the borehole were designed. Most of the auxiliaries were tested during the summer of 2018–2019 near Zhongshan Station, East Antarctica while drilling to the bedrock to a depth of 198 m.

Published
2020

34. Antarctic subglacial drilling rig: Part I. General concept and drilling shelter structure

Author

Wei Wu, Yang Yang, Pinlu Cao, Da Gong, Nan Zhang, Xingchen Li, Youhong Sun, Yongwen Liu, Liu Yunchen, Xiaopeng Fan, Pavel Talalay, Mikhail Sysoev, Wang Rusheng, and Alexey Markov

Subjects
geography, geography.geographical_feature_category, Drilling rig, Mining engineering, Bedrock, Borehole, Drilling, Sediment, Glacier, Ice sheet, Snow, Geology, Earth-Surface Processes
Abstract

Drilling to the bedrock of ice sheets and glaciers offers unique opportunities for examining the processes occurring in the bed. Basal and subglacial materials contain important paleoclimatic and paleoenvironmental records and provide a unique habitat for life; they offer significant information regarding the sediment deformation beneath glaciers and its effects on the subglacial hydraulic system and geology. The newly developed and tested Antarctic subglacial drilling rig (ASDR) is designed to recover ice and bedrock core samples from depths of up to 1400 m. All of the drilling equipment is installed inside a movable, sledge-mounted, temperature-controlled and wind-protected drilling shelter and workshop. To facilitate helicopter unloading of the research vessel, the shelter and workshop can be disassembled, with individual parts weighing

Published
2020

35. Antarctic subglacial drilling rig: Part IV. Electrical and electronic control system

Author

Jingbiao Liu, Mikhail Sysoev, Pavel Talalay, Wei Wu, Liu Yunchen, Haibin Yu, Xingchen Li, Da Gong, Qingpeng Kong, Hong Jialin, Benkun Liu, Nan Zhang, and Xiaopeng Fan

Subjects
Data processing, Data acquisition, Drilling rig, Drill, Control system, Process (computing), Borehole, Drilling, Geology, Earth-Surface Processes, Marine engineering
Abstract

In many cases, the efficiency and safety of a drilling project depend on the reliability of the electrical and electronic control system, as the process progresses without visual access of the operator. The electrical and electronic system provides and regulates the power supply for the drill, collects and monitors the drill data during the whole operating process, and sends and receives the control instructions and feedback signals. The entire system is composed of the surface, borehole and software subsystems. The surface subsystem serves for operating the drilling process, transmitting the drilling and environmental data, and supplying power for the drill motor and downhole control system. The borehole subsystem is generally intended for borehole data acquisition, drill motor control, power regulation and communication. The software subsystem is designed for human–computer interaction, data processing and storage, and programming of signal acquisition and transmission of data. The control system of Antarctic subglacial drilling rig was tested during the 2018–2019 summer season near Zhongshan Station, East Antarctica, in the course of drilling to the bedrock at a depth of 198 m. It exhibited a steady and efficient performance without significant system failures.

Published
2020

36. Antarctic subglacial drilling rig: Part II. Ice and Bedrock Electromechanical Drill (IBED)

Author

Xingchen Li, Li Xiao, Chen Yunwang, An Liu, Da Gong, Nan Zhang, Hong Jialin, Yang Yang, Pavel Talalay, Zhang Han, Li Yazhou, Wang Rusheng, Yongwen Liu, Pinlu Cao, Yang Cheng, Wei Wu, Youhong Sun, Xiaopeng Fan, and Liu Yunchen

Subjects
geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Drilling rig, Drill, Bedrock, Firn, Blue ice, Borehole, Drilling, 010502 geochemistry & geophysics, 01 natural sciences, Ice sheet, Petrology, Geology, 0105 earth and related environmental sciences, Earth-Surface Processes
Abstract

A new, modified version of the cable-suspended Ice and Bedrock Electromechanical Drill (IBED) was designed for drilling in firn, ice, debris-rich ice and rock. The upper part of the drill is almost the same for all drill variants and comprises four sections: cable termination, a slip-ring section, an antitorque system and an electronic pressure chamber. The lower part of the IBED comprises an auger core barrel, reamers, a core barrel for ice/debris-ice drilling and a conventional geological single-tube core barrel or custom-made double-tube core barrel. First, the short and full-scale field versions of the IBED were tested at an outdoor testing stand and a testing facility with a 12.5 m-deep ice well. Then, in the 2018–2019 summer season, the IBED was tested in the field at a site ~12 km south of Zhongshan Station, East Antarctica, and a ~6 cm bedrock core was recovered from a 198 m-deep borehole. A total of 18 d was required to penetrate the ice sheet. The retrieved core samples of blue ice, basal ice and bedrock provided valuable information regarding the Earth's paleo-environment.

Published
2020

42. A Benzimidazole-Containing Covalent Organic Framework-Based QCM Sensor for Exceptional Detection of CEES

Author

Jun Fan, Xinle Li, Yilun Yan, Song-Liang Cai, Gui Chen, Wei-Guang Zhang, Sheng-Run Zheng, Zi-Hao He, and Shi-Da Gong

Subjects
Benzimidazole, chemistry.chemical_compound, chemistry, Homeland security, General Materials Science, Nanotechnology, General Chemistry, Quartz crystal microbalance, Condensed Matter Physics, Covalent organic framework, Highly sensitive
Abstract

Mustard gas poses a substantial concern for homeland security, and the development of sensors for facile, rapid, highly sensitive, and selective detection of a mustard gas simulant is much desirabl...

Published
2019

43. Direct Synthesis of Bienzyme-like Carbide-derived Carbons

Author

Yan Feng, Fang, Xiao Teng, Ding, Geng Fang, Xu, Shi Da, Gong, Yu Sheng, Niu, Zi Yu, Yao, Zhao Yong, Jin, Yao, Wang, and Yuan Hong, Xu

Subjects
Fluorides, Ammonium Compounds, Humans, Electrochemical Techniques, Oxidation-Reduction, Carbon, Enzymes, Nanostructures
Abstract

To develop effective alternatives to natural enzymes, it is crucial to develop nanozymes that are economical, resource efficient, and environmentally conscious. Carbon nanomaterials that have enzyme-like activities have been extensively developed as substitutes for traditional enzymes.Carbide-derived carbons (CDCs) were directly synthesizedCDCs showed bienzyme-like activities similar to that of peroxidase and superoxide dismutase. We systematically studied the dependence of CDC enzyme-like activity on different electrolytes and electrolysis times to confirm activity dependence on CDC content. Additionally, the synthesis mechanism and CDC applicability were elaborated and demonstrated, respectively.The demonstrated synthesis strategy eliminates tedious intercalation and delamination centrifugation steps and avoids using high concentrations of HF, high temperatures, and halogen gases. This study paves the way for designing two-dimensional material-based nanocatalysts for nanoenzyme and other applications.

Published
2021

44. Synthesis and in vivo Anti-inflammatory Evaluation of Piperazine Derivatives Containing 1,4-Benzodioxan Moiety

Author

Yang Li, Chang-Da Gong, Long-Yan Xie, Zhi-Ping Liu, Xiu-Li Du, and Jie Qin

Subjects
crystal structure, 010405 organic chemistry, medicine.drug_class, Stereochemistry, 1,4-benzodioxan, Phenylpiperazine, Crystal structure, 01 natural sciences, Anti-inflammatory, 0104 chemical sciences, lcsh:Chemistry, Piperazine, chemistry.chemical_compound, Benzodioxan, chemistry, lcsh:QD1-999, In vivo, medicine, Proton NMR, General Earth and Planetary Sciences, Moiety, anti-inflammatory activity, General Environmental Science
Abstract

Six piperazine derivatives 6a-f containing 1,4-benzodioxan moiety have been synthesized and characterized by 1H NMR, ESI-MS and elemental analysis. The structure of 6d was further confirmed by single crystal X-ray diffraction. All these novel compounds were screened for their in vivo anti-inflammatory activity employing classical para-xylene-induced mice ear-swelling model. The results revealed that most of the target compounds showed significant anti-inflammatory activities, especially compound 6a with ortho-substituted methoxy group on the phenylpiperazine ring exhibited the best activity among the designed compounds.

Published
2021

45. A decellularized porcine pulmonary valved conduit embedded with gelatin

Author

Zhifei Xin, Ma Xiaolong, Diankun Li, Zhiwei Xu, Da Gong, Wenbin Li, Xiaolin Zhong, and Juyi Wan

Subjects
food.ingredient, Biocompatibility, Swine, Middle layer, 0206 medical engineering, Biomedical Engineering, Medicine (miscellaneous), Bioengineering, Biocompatible Materials, 02 engineering and technology, 030204 cardiovascular system & hematology, Matrix (biology), In Vitro Techniques, Valved conduit, Gelatin, Biomaterials, 03 medical and health sciences, 0302 clinical medicine, food, Smooth muscle, Tensile Strength, medicine, Animals, Bioprosthesis, Pulmonary Valve, Decellularization, Sheep, Tissue Engineering, Chemistry, Calcinosis, General Medicine, medicine.disease, 020601 biomedical engineering, Carbodiimides, Disease Models, Animal, Cross-Linking Reagents, Heart Valve Prosthesis, Biomedical engineering, Calcification
Abstract

To prepare a tissue-engineered pulmonary valved conduit (PVC) with good tensile strength and biocompatibility. Sixty adult porcine PVCs were used to determine the optimal decellularization time. Five juvenile porcine decellularized PVCs and five juvenile porcine crosslinked PVCs were subsequently prepared according to the optimized decellularization and crosslinking methods. All PVCs were implanted into juvenile sheep for 8 months and then were harvested for staining. With a low concentration of detergent (0.25% Triton X-100+0.25% sodium deoxycholate), the decellularization effect on porcine PVCs was complete by 24 hours, and there was minimal damage to the matrix. Gelatin embedding and 1-ethyl-3-(3-dimethylaminopropyl) carbodiimide (EDC) crosslinking improved the biomechanical properties of decellularized PVCs and reduced their immunogenicity. After implantation, the diameter and thickness of the PVCs in the decellularized and crosslinked groups increased significantly. In both groups, the conduits were unobstructed, with soft and smooth inner walls and without thrombosis, ulceration or neoplasia. The valves slightly degenerated with mild to moderate regurgitation. CD31-positive endothelial cells were visible on the inner surface of the conduits and valves. Scattered smooth muscle actin-positive cells were found in the middle layer of the conduit. The percentage of CD4- and CD68-positive cells and the calcium content were highest in decellularized porcine PVCs and lowest in ovine PVCs. The percentage of the matrix that was laminin-positive in decellularized and crosslinked porcine PVCs was lower than it was in ovine PVCs. Gelatin-embedded and EDC-crosslinked porcine PVCs can be "hosted" in sheep, with good biocompatibility, growth potential, and reduced calcification.

Published
2021

49. Shallow hot-water ice drill: Estimation of drilling parameters and testing

Author

Da Gong, Liu Bowen, Xiaopeng Fan, Hong Jialin, Pavel Talalay, Sysoev Mihail, An Liu, Wang Rusheng, and Liu Gang

Subjects
Drill stem test, 010504 meteorology & atmospheric sciences, Petroleum engineering, Drill, Nozzle, Borehole, Drilling, Geotechnical Engineering and Engineering Geology, 01 natural sciences, 010305 fluids & plasmas, law.invention, Rate of penetration, Volumetric flow rate, law, 0103 physical sciences, General Earth and Planetary Sciences, Submersible pump, Geology, 0105 earth and related environmental sciences
Abstract

Shallow hot-water systems are well-known ice-drilling devices used to create holes for temperature measurements and monitoring of glacier dynamics, basal sliding, and englacial water-pressure. A shallow hot-water ice drill system designed at Jilin University is based on a commercial high-pressure washer, Karcher HDS 6/14C, that can deliver water at a temperature in the range of 80–155° C, a flow of 4–10 L/min and a pressure as high as 14 MPa. The system also includes a mast with a sheave on the top and a reel with a 100-m long rubber hose; a 2-m long, 60-mm diameter drill stem; a control and measuring system; sleds; a submersible pump; a return hose; a water tank with an affiliate heating unit; and a small 2-kW generator. Theoretical estimations were performed to predict the rate of penetration and mean diameter of the melted borehole. Experiments with a shallow hot-water drill were carried out in an ice drill testing facility to determine the relationship between the rate of penetration/borehole diameter and the diameter and type of nozzle, hot water temperature, and flowrate. Under a hot water flowrate of 10 L/min with a temperature of 60° C, the 1.8-mm and 2-mm nozzles created 98–114-mm diameter boreholes at a penetration rate of 34–37 m/h, while a 2.5-mm nozzle produced a 146–156-mm borehole at rate of 26 m/h. The deviation between the experimental data and theoretical estimations did not exceed 7%.

Published
2018

50. Electric thermal drills for open-hole coring in ice

Author

Yang Yang, Hong Jialin, Li Xiao, Liu Bowen, Xiaopeng Fan, Da Gong, Mikhail Sysoev, Pavel Talalay, and Li Yazhou

Subjects
Meltwater remova, 010504 meteorology & atmospheric sciences, Ecology, Drill, Water flow, Thermal Head, Borehole, Thermal coring head, Penetration (firestop), Aquatic Science, 010502 geochemistry & geophysics, 01 natural sciences, Coring, Thermal, Thermal drill, General Earth and Planetary Sciences, Geotechnical engineering, Meltwater, Ecology, Evolution, Behavior and Systematics, Geology, 0105 earth and related environmental sciences
Abstract

Electric thermal drills are more advantageous than electromechanical drills in temperate, near-temperate, and polythermal glaciers because they can avoid problems arising from refreezing of wet chips, which causes drills to become stuck in the borehole. When the refreezing rate of meltwater in borehole is expected to be too high and there is no considerable englacial water flow, thermal drills with meltwater removal system are optional for open-hole shallow (200–300 m) ice coring. To reach a sufficiently high rate of penetration of approximately 6–7 m h −1 , the power density of thermal head should be maintained in the range of 100–110 W cm −2 , which can be provided by tubular elements cast integrally with an aluminum or copper annulus. To remove meltwater via air reverse circulation, thermal drills can be equipped with a small blower. The safest and most even mode of water removal is lifting in the form of water film on the wall of air sucking tubes. The maximum water removal rate using a single water-lifting pipe via air reverse circulation created by a blower with a sucking power of 110 airwatts was ∼0.35 L min −1 . Assuming a penetration rate of 6–7 m h −1 and the outer and inner diameters of 135 and 110 mm, respectively, of the drill head, the meltwater should be removed at a rate not less than 0.8–1.0 L min −1 . In this case, at least three water-lifting pipes should be used in the drill.

Published
2018

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