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1. Design and characteristic analysis of flame cutting nozzles for ultralarge-thickness steel ingots

Author

Haonan Yu, Xin Liu, Zunce Wang, Haiying Zu, Bin Xiong, Jian Gao, Chenglong Guo, and Kaixuan Wang

Subjects
Laval nozzle, Cutting oxygen jet, Ultrathickness flame cutting, Cutting oxygen orifice channel design, Numerical simulation, Chemistry, QD1-999
Abstract

The cutting thickness of the flame cutting nozzle mainly depends on the characteristics of the cutting oxygen jet, and in the process of designing and manufacturing a flame cutting nozzle with an ultralarge thickness, it is impossible to carry out multiple experiments to optimize the design due to the difficulty in testing, safety, manufacturing cost, environmental pollution, and other problems. In this paper, the Laval-type cutting oxygen orifice channel was first designed by theoretical calculation, the pressure, velocity, Mach number, and density distribution characteristics of the cutting oxygen jet were investigated by numerical simulation, and the reliability and adaptability of the numerical simulation results were verified by experiments. Then, the numerical simulation comparison and estimation method of jet characteristics with the general-purpose G301-7# nozzle was used to study the cutting oxygen orifice channel of the ultralarge thickness flame cutting nozzle. The results show that under the condition of a 19 mm throat diameter and 10 atm inlet pressure, it was estimated that the length of cutting oxygen flow from the design nozzle can reach 1800 mm and the cutting thickness can reach 2500 mm based on the density value; the length of cutting oxygen flow can reach 2000 mm and the cutting thickness can reach 3800 mm based on the velocity value; the length of cutting oxygen flow can reach 1600 mm according to the value of the oxygen quality fraction; and the cutting thickness can reach 2800 mm based on the oxygen mass fraction content. Finally, trial production of the nozzle design, verification of the cutting test, the nozzle with a cutting thickness of 2500 mm at an oxygen pressure of 7 atm, and the cutting quality were all good.

Published
2024
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2. Baicalin enhances the chemotherapy sensitivity of oxaliplatin-resistant gastric cancer cells by activating p53-mediated ferroptosis

Author

Lihua Shao, Li Zhu, Rong Su, Chunting Yang, Xiaqing Gao, Yan Xu, Hongwei Wang, Chenglong Guo, and Hailong Li

Subjects
Gastric cancer, Multidrug resistance, Baicalin, Ferroptosis, p53 suppressor gene, Medicine, Science
Abstract

Abstract Gastric cancer is one of the most common malignant tumors, and chemotherapy is the main treatment for advanced gastric cancer. However, chemotherapy resistance leads to treatment failure and poor prognosis in patients with gastric cancer. Multidrug resistance (MDR) is a major challenge that needs to be overcome in chemotherapy. According to recent research, ferroptosis activation is crucial for tumor therapeutic strategies. In this work, we explored the solution to chemoresistance in gastric cancer by investigating the effects of the Chinese medicine monomer baicalin on ferroptosis. Baicalin with different concentrations was used to treat the parent HGC27 and drug-resistant HGC27/L cells of gastric cancer. Cell viability was measured by CCK8, and synergistic effects of baicalin combined with oxaliplatin were evaluated using Synergy Finder software. The effects of baicalin on organelles and cell morphology were investigated using projective electron microscopy. Iron concentration, MDA production and GSH inhibition rate were measured by colorimetry. ROS accumulation was detected by flow cytometry. The ferroptosis-related genes (IREB2, TfR, GPX4, FTH1), P53, and SLC7A11 were analysed by Western blot, and the expression differences of the above proteins between pretreatment and pretreatment of different concentrations of baicalin, were assayed in both parental HGC27 cells and Oxaliplatin-resistant HGC27/L cells. Mechanically, Baicalin disrupted iron homeostasis and inhibits antioxidant defense, resulting in iron accumulation, lipid peroxide aggregation, and specifically targeted and activated ferroptosis by upregulating the expression of tumor suppressor gene p53, thereby activating the SLC7A11/GPX4/ROS pathway mediated by it. Baicalin activates ferroptosis through multiple pathways and targets, thereby inhibiting the viability of oxaliplatin-resistant gastric cancer HGC27/L cells and enhancing the sensitivity to oxaliplatin chemotherapy.

Published
2024
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3. Necessary and sufficient conditions for the BRI success

Author

Yongjun Chen and Chenglong Guo

Subjects
BRI, necessary conditions, sufficient conditions, win–win cooperation, Finance, HG1-9999, Regional economics. Space in economics, HT388
Abstract

Abstract This paper presents a general theoretical framework for understanding the Belt‐and‐Road Initiative (BRI). We begin with an introduction to the connotations of the BRI and a review of the initiative's main achievements since its inception. From these achievements, we identify the existence of a potential match between supply and demand in jointly building the BRI to be the foremost necessary condition for win–win cooperation for participating countries. Several features of China's contemporary economic structure are shown to provide the huge potential of supply that matches the massive demand of many Belt‐and‐Road countries for infrastructure development. To unleash the full potential of the BRI, a series of sufficient conditions must be met so that supply and demand interact in a virtuous manner. In the first stage of jointly building the BRI, the key to turn the initiative's potential into reality is to develop the “Five Links” of policy coordination, infrastructure connectivity, unimpeded trade, financial integration, and people‐to‐people bond. Now that the BRI has entered the high‐quality development stage, we demonstrate that China has taken or needs to work on policy measures in 10 areas to ensure the continuing and sustainable success of the BRI construction.

Published
2022
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4. Research on recognition and classification of pulse signal features based on EPNCC

Author

Haichu Chen, Chenglong Guo, Zhifeng Wang, and Jianxiao Wang

Subjects
Medicine, Science
Abstract

Abstract To rapidly obtain the complete characterization information of pulse signals and to verify the sensitivity and validity of pulse signals in the clinical diagnosis of related diseases. In this paper, an improved PNCC method is proposed as a supplementary feature to enable the complete characterization of pulse signals. In this paper, the wavelet scattering method is used to extract time-domain features from impulse signals, and EEMD-based improved PNCC (EPNCC) is used to extract frequency-domain features. The time–frequency features are mixed into a convolutional neural network for final classification and recognition. The data for this study were obtained from the MIT-BIH-mimic database, which was used to verify the effectiveness of the proposed method. The experimental analysis of three types of clinical symptom pulse signals showed an accuracy of 98.3% for pulse classification and recognition. The method is effective in complete pulse characterization and improves pulse classification accuracy under the processing of the three clinical pulse signals used in the paper.

Published
2022
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5. Temporal stability and maintenance mechanisms of alpine meadow communities under clipping and fertilization

Author

Ting Wang, Chenglong Guo, Silin Sang, Yiting Liu, Gang Liu, Desheng Qi, and Zhihong Zhu

Subjects
clipping, fertilization, stability mechanisms, temporal stability, Ecology, QH540-549.5
Abstract

Abstract Negative effects of long‐term overgrazing have been seriously, grasslands temporal stability is an important ecological concern we need to research. Here, we performed a 12‐year‐long (2007–2018) two‐factor controlled experiment on Kobresia humilis meadow on the Tibetan Plateau. The manipulations included three clipping levels (no clipping, NC; moderate clipping, MC; heavy clipping, HC) and two fertilization levels (no fertilization, NF; fertilization, F). Our results revealed that the two clipping manipulations significantly increased the temporal stability of alpine meadow communities, whose significant increase was more pronounced under the MC than HC treatment. Species asynchrony had a significant positive correlation with species abundance along with compound community gradient. Moreover, asynchrony effects, portfolio effects, and facilitation interactions were all present in the communities under the six types of experimental treatment combinations. Additionally, a selection effect was detected in the compound communities, demonstrating characteristics that are common to different mechanisms. There were no significant differences in the effects of these mechanisms on community temporal stability between the NC–NF and MC–NF interactive communities. The portfolio effects predominated when clipping intensity was moderate under both fertilization and nonfertilization conditions. By contrast, in the compound communities, the selection effect predominated. In summary, we conclude that in meadow communities that undergo clipping and fertilization disturbances, facilitation interactions and weak interactions make a greater contribution toward maintaining their temporal stability.

Published
2021
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8. A Review of the Levelized Cost of Wave Energy Based on a Techno-Economic Model

Author

Chenglong Guo, Wanan Sheng, Dakshina G. De Silva, and George Aggidis

Subjects
wave energy technology, levelized cost of energy, capital expenditure, operational expenditure, techno-economic model, Technology
Abstract

Wave energy provides a renewable and clear power for the future energy mix and fights against climate change. Currently, there are many different wave energy converters, but their costs of extracting wave energy are still much higher than other matured renewables. One of the best indicators of calculating the generating cost of wave energy is the ‘levelized cost of energy’ (LCOE), which is the combined capital expenditure (CAPEX), operational expenditure (OPEX), and decommissioning cost with the inclusion of the annual energy production, discount factor, and project’s lifespan. However, the results of the LCOE are in disagreement. Hence, it is important to explore the cost breakdown of wave energy by the wave energy converter (WEC), so for finding potential ways to decrease the cost, and finally compare it with other renewable energies. Different WECs have been installed in the same place; the Wave Dragon LCOE platform is the best one, with an energy conversion of EUR 316.90/MWh, followed by Pelamis with EUR 735.94/MWh and AquaBuOY with EUR 2967.85/MWh. Even when using different locations to test, the rank of the LCOE would remain unchanged with the different value. As the CAPEX and OPEX dramatically drop, the availability and capacity factors slowly increase, and the LCOE decreases from a maximum of USD 470/MWh to a minimum of USD 120/MWh. When the discount rate is down from 11% to 6%, the LCOE reduces from USD 160/MWh to USD 102/MWh. Under the ideal condition of the optimal combination of multiple factors, in theory, the LCOE can be less than USD 0.3/KWh. To better explore the LCOE for WECs, the detailed cost elements found in the CAPEX and OPEX have been examined for the scenarios of the undiscounted, half-discounted, and discounted cost models. When the AEP is discounted, the lowest LCOE is equal to USD 1.171/kWh in scene 2 when using a five-step investment, which is below the LCOE value of USD 1.211/kWh in scene 1 when using a two-step investment. Meanwhile, the highest LCOE amounts to USD 2.416/kWh using the five-step investment, whose value is below the LCOE of a two-step investment. When using a one-step investment in scene 3, the lowest LCOE is equal to USD 0.296/kWh, which accounts for 25% of the lowest value in the five-step investment. Meanwhile, the highest LCOE amounts to USD 0.616/kWh, which accounts for 24% of the highest value in the two-step investment. The results of the case study show that a one-step investment program in the half-discounted model is superior to the multi-step investment in the discounted model. This paper examines the viability of wave energy technologies, which is a critical factor for the LCOE of wave energy; furthermore, the form of investment in the wave energy project is also important when calculating the LCOE.

Published
2023
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11. Temporal stability and maintenance mechanisms of alpine meadow communities under clipping and fertilization

Author

Zhihong Zhu, Desheng Qi, Gang Liu, Ting Wang, Yiting Liu, Silin Sang, and Chenglong Guo

Subjects
Clipping (audio), Ecology, education, Biology, Kobresia humilis, Human fertilization, fertilization, Significant positive correlation, Facilitation, clipping, Overgrazing, Controlled experiment, stability mechanisms, temporal stability, Relative species abundance, Research Articles, Ecology, Evolution, Behavior and Systematics, QH540-549.5, Original Research, Nature and Landscape Conservation
Abstract

Negative effects of long‐term overgrazing have been seriously, grasslands temporal stability is an important ecological concern we need to research. Here, we performed a 12‐year‐long (2007–2018) two‐factor controlled experiment on Kobresia humilis meadow on the Tibetan Plateau. The manipulations included three clipping levels (no clipping, NC; moderate clipping, MC; heavy clipping, HC) and two fertilization levels (no fertilization, NF; fertilization, F). Our results revealed that the two clipping manipulations significantly increased the temporal stability of alpine meadow communities, whose significant increase was more pronounced under the MC than HC treatment. Species asynchrony had a significant positive correlation with species abundance along with compound community gradient. Moreover, asynchrony effects, portfolio effects, and facilitation interactions were all present in the communities under the six types of experimental treatment combinations. Additionally, a selection effect was detected in the compound communities, demonstrating characteristics that are common to different mechanisms. There were no significant differences in the effects of these mechanisms on community temporal stability between the NC–NF and MC–NF interactive communities. The portfolio effects predominated when clipping intensity was moderate under both fertilization and nonfertilization conditions. By contrast, in the compound communities, the selection effect predominated. In summary, we conclude that in meadow communities that undergo clipping and fertilization disturbances, facilitation interactions and weak interactions make a greater contribution toward maintaining their temporal stability., Under six experimental conditions of clipping and fertilization levels, we found that fertilization, as well as heavy and especially moderate clipping intensity, significantly increased the temporal stability of K. humilis. Asynchrony effects, portfolio effects, and facilitation interactions were all present under the six experimental treatment conditions in this study. Clipping mainly increased community temporal stability via the asynchrony effect, whereas this increase under fertilization treatment was mainly owing to facilitation and weak interactions.

Published
2021

15. Identity-Based Matrix (Level) Fully Homomorphic Encryption Scheme

Author

CHEN Hong, HUANG Jie, CHEN Honglin, WANG Runting, XIAO Chenglong, GUO Pengfei, JIN Haibo

Subjects
Electronic computers. Computer science, lattice cipher, QA75.5-76.95, learning with errors (lwe), fully homomorphic encryption, identity-based encryption, Computer Science::Cryptography and Security
Abstract

With the development of quantum theory, traditional encryption algorithms are facing enormous challenges. Once quantum computers are available, existing encryption systems will no longer be secure. The lattice cipher is proven by theory to be a new type of encryption scheme, which can resist quantum algorithm. It has the property of fast computing speed and small space occupation, hence, it has become a hot issue in today??s research. The identity-based encryption scheme can improve the utilization of storage space and facilitate user public key management. Consequently, this paper based on the hard problem of learning with errors (LWE), constructs an identity-based matrix encryption scheme at first, then applies the improved key switching technology to reduce the dimension of homomorphic ciphertext to normal, and uses the mode conversion technique to reduce noise, realizing matrix homo-morphic operation, and getting an identity-based matrix (level) fully homomorphic encryption scheme. The scheme uses matrices as the storage structure, which has greatly improved the processing capability compared to other single-bit schemes. The scheme not only satisfies the addition and Hadamard product of the matrix, but also supports matrix dot multiplication. The experimental results show that compared with other methods, the improved key switching technology in this paper inputs less noise. Through the difficulty of the LWE problem, it is proven that the scheme satisfies IND-sID-CPA (indistinguishability-selective identity-chosen plaintext attack).

Published
2020

16. Study on Pseudonym Signature Scheme of Trusted Third Party

Author

CHEN Hong, CHEN Honglin, HUANG Jie, XIAO Chenglong, GUO Pengfei, JIN Haibo

Subjects
double pseudonym, de-anonymization, Electronic computers. Computer science, ComputingMilieux_COMPUTERSANDSOCIETY, pseudonymous signature, QA75.5-76.95, partial blind signature
Abstract

User data on the Internet are extremely easy to leak, and the anonymity and security issues of users need to be resolved. The pseudonym system can make users remain anonymous in network communication, but there are risks of collusion between authentication agencies and domain management agencies and a slow response to the offending user. Aiming at this problem, a pseudonym signature scheme involving trusted third parties is proposed in this paper. The user first applies to the certificate authority for a license permitting the use of a pseudonym, then uses the license to apply for the pseudonym certificate from the domain authority, and uses the pseudonym to construct a pseudonym signature in the domain. Finally, users with illegal operations are quickly detected by tracking center (trusted third party), and the certificate authority will handle the corresponding processing. The proposed scheme guarantees the anonymity of users better by using double pseudonyms, reduces the operation cost of the certificate authority, improves the threshold of the system, has fast response ability in acquiring the real identity of users who violate the rules, and reduces the potential loss of the system caused by users illegal operations.

Published
2020

17. Towards biomass production and wastewater treatment by enhancing the microalgae-based nutrients recovery from liquid digestate in an innovative photobioreactor integrated with dialysis bag

Author

Han Shao, Yahui Sun, Xiaoxiang Jiang, Jun Hu, Chenglong Guo, Chenjia Lu, Feihong Guo, Chihe Sun, Yunjun Wang, and Chuanchao Dai

Subjects
Photobioreactors, Environmental Engineering, Renal Dialysis, Swine, Microalgae, Animals, General Medicine, Biomass, Nutrients, Management, Monitoring, Policy and Law, Wastewater, Waste Management and Disposal, Water Purification
Abstract

Microalgae-based nutrients recovery from liquid anaerobic digestate of swine manure has been a hotspot in recent decades. Nevertheless, in consideration of the high NH

Published
2022

18. Research on recognition and classification of pulse signal features based on EPNCC

Author

Haichu Chen, Chenglong Guo, Zhifeng Wang, and Jianxiao Wang

Subjects
Electrocardiography, Multidisciplinary, Databases, Factual, Heart Rate, Research Design, Neural Networks, Computer
Abstract

To rapidly obtain the complete characterization information of pulse signals and to verify the sensitivity and validity of pulse signals in the clinical diagnosis of related diseases. In this paper, an improved PNCC method is proposed as a supplementary feature to enable the complete characterization of pulse signals. In this paper, the wavelet scattering method is used to extract time-domain features from impulse signals, and EEMD-based improved PNCC (EPNCC) is used to extract frequency-domain features. The time–frequency features are mixed into a convolutional neural network for final classification and recognition. The data for this study were obtained from the MIT-BIH-mimic database, which was used to verify the effectiveness of the proposed method. The experimental analysis of three types of clinical symptom pulse signals showed an accuracy of 98.3% for pulse classification and recognition. The method is effective in complete pulse characterization and improves pulse classification accuracy under the processing of the three clinical pulse signals used in the paper.

Published
2021

19. The temporal stability and maintenance mechanisms of alpine meadow communities under clipping and fertilization

Author

Desheng Qi, Yiting Liu, Ting Wang, Gang Liu, Chenglong Guo, Zhihong Zhu, and Silin Sang

Subjects
Clipping (audio), Kobresia humilis, Human fertilization, Disturbance (ecology), Ecology, education, Facilitation, Controlled experiment, Biology
Abstract

The effects of human disturbance on the stability of alpine meadow communities, their diversity–stability relationship, and the underlying mechanisms are still not fully understood. Here, we performed a 12-year-long (2007–2018) two-factor (2 × 3) controlled experiment on Kobresia humilis on the Tibetan Plateau. The manipulations included three clipping levels (no clipping, NC; moderate clipping, MC; heavy clipping, HC) and two fertilization levels (no fertilization, NF; fertilization, F). Our results revealed that the two clipping manipulations significantly increased the temporal stability of alpine meadow communities, whose significant increase was more pronounced under the MC than HC treatment. Moreover, asynchrony effects, portfolio effects, and facilitation interactions were all present in the communities under the six types of experimental treatment combinations. Additionally, a selection effect was detected in the compound communities, demonstrating characteristics that are common to different mechanisms. There were no significant differences in the effects of these mechanisms on community temporal stability between the NC–NF and MC–NF interactive communities. The portfolio effects predominated when clipping intensity was moderate under both fertilization and non-fertilization conditions. By contrast, in the compound communities, the selection effect predominated. In summary, we conclude that in meadow communities that undergo clipping and fertilization disturbances, facilitation interactions and weak interactions make a greater contribution toward maintaining their temporal stability.

Published
2021

20. Paraganglioma with Hyperglycaemia as the Main Symptom: A Case Report

Author

Yanbin Wu, Xuewen Wang, Chenglong Guo, Xuefeng Cao, Yu Cheng, Qiangpu Chen, Xingyuan Zhang, and Lingqun Kong

Abstract

Background: Paraganglioma (PGL) is a rare neuroendocrine tumour derived from the extra- adrenal gland that is also known as ectopic pheochromocytoma (PHEO). The typical clinical symptoms are paroxysmal hypertension with headache, sweating and palpitation. However, PGL with abnormal glucose metabolism as the main manifestation is rare.Case Presentation: In this case, the patient had a history of diabetes for 13 years and showed persistently increased blood glucose. The application of multiple hypoglycaemic drugs to control the patient’s blood glucose was ineffective, and a limited effect of high-dose insulin was observed. This patient underwent a contrast-enhanced computed tomography scan(CT),showing a soft tissue density shadow (3.2×2.4cm) with clear edges and slight enhancement in the medial side of inferior vena cava. Exploratory laparotomy was performed and significant blood pressure changes were observed when the tumourwas removed during the operation. The patient’s blood glucose decreased significantly and hypoglycaemiawas noted when the patient’s original dose of insulin was maintained. The patient recovered uneventfully and was discharged after the operation.Conclusions: Hyperglycaemia caused by PGL is rare in the clinic; therefore, it is necessary to pay attention to the relevant blood glucose indexes during the preoperative examination and diagnosis process to improve the examination process and further assist in the preoperative diagnosis of PGL. It is necessary to pay attention to changes in blood pressure during and after the operation to avoid hypoglycaemia. Lifetime follow up is necessary after the operation.

Published
2020

21. Carbon electrode material from peanut shell by one-step synthesis for high performance supercapacitor

Author

Xiaolei Li, Kuangye Peng, Chenglong Guo, Xiaochen Jiang, Zhonghao Rao, and Feiqiang Guo

Subjects
010302 applied physics, Supercapacitor, Materials science, Electrolyte, Condensed Matter Physics, 01 natural sciences, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, symbols.namesake, Adsorption, Chemical engineering, Specific surface area, 0103 physical sciences, Electrode, medicine, symbols, Graphite, Electrical and Electronic Engineering, Raman spectroscopy, Activated carbon, medicine.drug
Abstract

Activated carbons (ACs) derived from biomass have become one of the most promising electrode materials for supercapacitors due to their reproducibility and low cost. In this study, peanut shell is used as the precursor to prepare AC via one-step synthesis method activated by ZnCl2, FeCl3 and their mixture in N2 atmosphere at 700 °C. The characteristics and structure of the obtained ACs were studied by SEM, HR-TEM, BET, FT-IR, XRD and Raman spectroscopy. The prepared AC materials showed high specific surface area and large amount of micropores, and the maximum specific surface area reached 1481.59 m2/g. The etching effect of iron oxide and zinc chloride on the carbon skeleton facilitated the formation of micropores. The XRD pattern and Raman spectra indicated that all samples were amorphous carbons with some graphitic crystalline structures. In addition, FT-IR analysis illustrated that the surface of AC materials possessed a large number of oxygen-containing functional groups, which were beneficial to their electrochemical performance. From the electrochemical performance of the AC materials, it was observed that better electrochemical properties were achieved at a weight ratio of biomass to activator of 2:1 in comparison with 0.8:1 and 4:1 for all the activators. The obtained AC showed a high specific capacitance of 239.88 F/g at the current density of 0.5 A/g in 1 M Na2SO4 electrolyte and exhibited excellent cycling performance with 94.55% capacity retention after 5000 cycles.

Published
2018

22. TRIM32 promotes inflammatory responses in rheumatoid arthritis fibroblast-like synoviocytes

Author

Kewu Xu, Chenglong Guo, Min Song, Hongwei Zhang, Hongbin Xu, Lanping Xu, and Tian Liang

Subjects
musculoskeletal diseases, 0301 basic medicine, TRAF2, Ubiquitin-Protein Ligases, Immunology, Arthritis, Rheumatoid, Tripartite Motif Proteins, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Ubiquitin, medicine, Gene silencing, Humans, skin and connective tissue diseases, Cells, Cultured, Cell Proliferation, Autoimmune disease, Inflammation, biology, business.industry, NF-kappa B, Ubiquitination, NF-κB, General Medicine, Fibroblasts, medicine.disease, TNF Receptor-Associated Factor 2, Synoviocytes, Ubiquitin ligase, Up-Regulation, 030104 developmental biology, chemistry, Rheumatoid arthritis, biology.protein, Cancer research, Cytokines, Tumor necrosis factor alpha, Inflammation Mediators, business, 030215 immunology, Signal Transduction, Transcription Factors
Abstract

Rheumatoid arthritis (RA) is a worldwide autoimmune disease. The study of its aetiology and mechanism has always been a focus topic in medicine. This research was designed to investigate the effect of E3 ubiquitin ligase tripartite motif protein 32 (TRIM32) in rheumatoid arthritis (RA). We found in fibroblast-like synoviocytes (FLS) of RA patients, the expression of TRIM32 was significantly increased compared with its expression in osteoarthritis (OA) patients FLS. A widely used pro-inflammatory stimuli tumour necrosis factor-alpha (TNF-α) was found to promote TRIM32 expression in a time-dependent manner. Furthermore, we observed that overexpression of TRIM32 aggravated the production of pro-inflammatory cytokines in FLS, silencing of TRIM32 showed the consistent results. In addition, TRIM32 was found to activate nuclear factor κB (NF-κB) signalling pathway, and TRIM32 could interact with TNF receptor-associated factor 2 (TRAF2) to promote the K63-linked polyubiquitination of TRAF2 in RA-FLS. In conclusion, we suggested that TRIM32 as a positive regulator of inflammatory responses in RA-FLS.

Published
2019

23. BeiDou-based borehole hydrological intelligent monitoring system design

Author

Yannan Qi, Lenian Xu, Xu Zhang, Chensheng Jia, and Chenglong Guo

Subjects
History, Borehole, Monitoring system, Geology, Computer Science Applications, Education, Remote sensing
Abstract

An intelligent monitoring system for borehole hydrology based on Beidou is designed. This system uses input sensors to measure water level and water temperature in boreholes. The intelligent terminal uses the STM32F103RCT6 microprocessor as its core, and adopts a timed power-on mode of operation to collect water level and water temperature information, uploads the collected water level and water temperature data to the gateway through the Beidou module, and uploads the water level and water temperature data to the OneNET platform through the GSM network via the gateway, the OneNET platform provides intelligent statistical analysis of uploaded data, enabling real-time monitoring and early warning of water levels and temperatures in boreholes, effectively preventing and controlling water damage in mines.

Published
2021

24. Atypical Pancreatic Cystadenocarcinoma in Pregnant Women: A Case Report

Author

Han Li, Xuewen Wang, Chenglong Guo, Lingqun Kong, Dongdong Ji, and Xingyuan Zhang

Subjects
Gastrointestinal bleeding, Abdominal pain, medicine.medical_specialty, Pancreatic disease, Pancreatic Cystadenoma, business.industry, General Medicine, medicine.disease, Malignancy, Gastroenterology, Indigestion, medicine.anatomical_structure, Pancreatic Cystadenocarcinoma, Internal medicine, medicine, medicine.symptom, Pancreas, business
Abstract

Pancreatic cystic lesion (PCL) is a relatively low incidence of pancreatic disease. No clinical symptoms of PCL prevalence rate is 2.4% ~ 13.5% and has a tendency to increase with the increase of age. With the development of modern imaging technology and the improvement of people health consciousness, there has been a dramatic increase in the prevalence of PCL. PCLs involving a wide range of pathology can range from obviously benign to borderline malignant potential lesions to overt malignancy. Pancreatic cystadenocarcinoma belongs to one of the malignant tumor of PCLs, may be malignant from pancreatic cystadenoma, and it is clinically rare, accounting for only 1% of the malignant tumors of the pancreas. Preoperative diagnosis is difficult of the disease, it mostly need to postoperative pathological diagnosis. The main symptoms of pancreatic cystadenocarcinoma are dull pain or low back pain in the upper and middle abdomen, and mass in the upper abdomen. Abdominal pain is not intense, some patients only for the feeling of fullness discomfort. Other symptoms may include loss of appetite, nausea, indigestion, weight loss, jaundice, and in a few patients, gastrointestinal bleeding. In this paper, we report a rare case of pancreatic cystadenocarcinoma with a huge cystic lesion that grows rapidly in a short period of time in pregnant women, which preoperative diagnosis is considered pancreatic cystadenoma in the preoperative. Complete resection was performed and histological examination confirmed the diagnosis of pancreatic cystadenocarcinoma.

Published
2021

26. Heat Transfer Oscillation and Thermal Fatigue Safety Analysis in Start-up Process of High Temperature Sodium Heat Pipe

Author

ZHANG Lingyi, ZHANG Zhipeng, WANG Chenglong, GUO Kailun, TIAN Wenxi, SU Guanghui, QIU Suizheng

Subjects
high temperature sodium heat pipe, heat transfer oscillation, start-up characteristics, heat fatigue, Nuclear engineering. Atomic power, TK9001-9401, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798
Abstract

The start-up of a high temperature heat pipe is a complex multi-phase transition and flow heat transfer process, which may result in heat transfer oscillations, causing fluctuations in the heat pipe temperature and thus affecting the operational safety of the reactor. In this study, for the high temperature sodium heat pipe with a length of 1 000 mm and a diameter of 20 mm, the evolution law of the heat transfer oscillation was summarized through start-up experiments under vertical and horizontal conditions. The finite element thermal-mechanical simulation and thermal fatigue program analysis of a localized heat pipe reactor core design with generalized characteristics were carried out, and the stress response and the consequences of fatigue damage induced by heat pipe heat transfer oscillations were investigated. The experimental results show that the change of sodium evaporation rate causes the change of heat pipe pressure under vertical condition, which affects the evaporation and reflux balance of working medium, and causes the oscillation of heat transfer in different characteristics during start-up process. Enhancing the input power will shorten the frequency and decrease the amplitude of the oscillation. When the heat flow density increases from 9 973.71 W/m2 to 12 452.28 W/m2, the temperature oscillation amplitude decreases by nearly 30% and the oscillation period is shortened by about 40%. In the heat transfer oscillation state, the heat pipe will still maintain the heat transfer oscillation when the input power is suddenly reduced, but the waveform changes from a sawtooth shape to a trapezoid shape. The oscillation is obviously suppressed under horizontal condition. Simulation results show that, when the high temperature heat pipe heat transfer oscillation occurs, the thermal fatigue failure risk area of the localized reactor core is the inner wall of the evaporation section of the heat pipe. Fatigue damage is the largest in same-phase oscillation. The average value of the stress increases when the peak temperature difference increases due to the phase difference of oscillation, but because the decrease in the amplitude of stress of different-phase condition, the fatigue damage is reduced compared to the same-phase condition. Considering the effect of the conservatism deviation and creep on the fatigue damage, the thermal fatigue analysis is based on the safety factor K. Fatigue safety analysis results show that when the safety factor K is lower than 1.4 there is almost no risk of fatigue failure. K reaches 1.4 or more fatigue damage is gradually significant. When K=1.6 the fatigue life of the pipe wall material reduces to 3.29 years. This study is of great significance in analyzing the mechanism of heat transfer oscillation of high temperature sodium heat pipe and improving the reliability assessment of heat pipe.

Published
2024
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27. Certificateless Aggregate Signcryption Scheme with Publicly Verifiable Pairless Operation

Author

CHEN Hong, ZHOU Mo, HOU Yuting, ZHAO Jufang, XIAO Chenglong, GUO Pengfei

Subjects
certificateless aggregate signcryption, discrete logarithm, confidentiality, unforgeability, publicly veri-fiable, random prediction model, Electronic computers. Computer science, QA75.5-76.95
Abstract

Aggregate signcryption can combine ciphertext generated by different signcryption on different messages into a single ciphertext, which greatly reduces the total length of ciphertext and verification cost, and is more sui-table for low bandwidth and low storage communication environment. To solve the problems of poor security and inefficiency of aggregate signcryption with bilinear pairings in identity based cryptosystem, a new certificateless aggregate signcryption scheme which is based on a secure and efficient signature scheme and can be publicly verified without pair operation is designed. Hash function is used to bind the signcrypter’s identity information with part of the public key to generate part of the user’s private key to prevent public key replacement attacks. In the de-signcryption stage, the signcrypter’s identity information is taken as the output, which can verify the legitimacy of signcrypter’s identity and effectively hide it. In the random oracle model, the confidentiality and unforgeability of the scheme are reduced to the solving of computational Diffie-Hellman problem and discrete logarithm problem in polynomial time, which proves the security of the scheme. In the verification phase, any trusted third party can verify without any user’s private information, which proves the scheme has public verification. Furthermore, the efficiency of the scheme is compared. The proposed scheme only needs 3 n point multiplication operations in the aggregation de-signcryption stage, so it is more efficient.

Published
2022
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28. Study on Thermal-hydraulic Characteristics of Ocean Silent Heat Pipe Cooled Reactor

Author

QIU Suizheng;ZHANG Zeqin;ZHANG Zhipeng;WANG Chenglong;GUO Kailun;TIAN Wenxi;SU Guanghui

Subjects
silent heat pipe cooled reactor, conceptual design, thermal-hydraulic characteristics, system code, Nuclear engineering. Atomic power, TK9001-9401, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798
Abstract

Safe and reliable energy supply is the key foundation for the development of unmanned underwater vehicle (UUV). Unlike land and space missions, underwater missions are more demanding on energy, which requires higher power level, longer operating time, faster response time, and better concealment. Heat pipe cooled reactor has the advantages of large power capacity, simple structure, easy control of reactivity, and rapid thermal response. The solid-state reactor core does not require coolant and relies entirely on heat pipes to dissipate heat, thereby providing good inherent safety, controllability and concealment. Therefore, heat pipe cooled reactor is considered as one of the most promising options for UUV energy supply. In this study, a conceptual design of Nuclear Silent Thermal-Electrical Reactor (NUSTER-100) was proposed to meet the energy requirement of China’s heavy ocean UUV research and development. 109 sodium heat pipes were arranged in the reactor core for passive cooling, and the thermoelectric generators (TEGs) were employed in the reactor to convert fission heat to electric power. A set of heat pipe cooled reactor system-wild mathematical and physical models were established, including core neutron physics model, core channel heat transfer model, heat pipe model, thermoelectric conversion model and cold junction heat transfer mode. Based on the efficient and robust numerical algorithm and modular modeling ideas, heat pipe advanced reactor transient analysis code HEART was developed with independent intellectual property rights, and the key modules of HEART were validated and verified by heat pipe experiment and thermoelectric power experiment. The steady-state, cold-start transient and reactivity insertion transient conditions of NUSTER-100 were calculated and analyzed by HEART, and the full power operation characteristics of NUSTER-100 were obtained. Steady-state performance of the NUSTER-100 indicates that the solid-state core has good temperature flattening ability. The surface temperature of the heat pipe is less than 1 300 K, and the average temperature drop of the TEG module in central channel is 724 K, which can produce an electrical power of 1 207.8 W. Based on the cold-start transient thermal-hydraulic analysis, a three-stage heat pipe cooled reactor start-up scheme with high safety was proposed, and the stability and safety of heat pipe reactor under reactivity insertion transient were evaluated. The results show that the three-stage heat pipe cooled reactor start-up scheme can improve the reactor start-up efficiency. This study can provide support for the development of UUV and heat pipe cooled reactor technology in China.

Published
2022
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