Table of Content

20 August 2022 Volume 35 Issue 4

  

Traditional Chinese Medicine and Natural Active Products

Analysis of monosaccharide composition in polysaccharides from different parts of Panacis Quinquefolii Radix using HILIC-CAD-ESI-TOF/MS

ZHAO Zhi-guo, ZHANG Min-min, LI Yue, WANG Dai-jie, YANG Guo-hong, WANG Xiao, ZHAO Heng-qiang

Shandong Science. 2022, 35(4):  1-8.  doi:10.3976/j.issn.1002-4026.2022.04.001

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The study aimed to determine the monosaccharide composition of polysaccharides from different parts (such as rhizome, taproot, and fibrous ginseng root) of Panacis Quinquefolii Radix using HILIC-CAD-ESI-TOF/MS. The polysaccharides of Panacis Quinquefolii Radix were completely hydrolyzed via ultrasound-assisted acid hydrolysis, and a Waters Xbridge Amide column (4.6 mm × 250 mm, 5 μm) with gradient elution (A for aqueous ammonium acetate solution, B for acetonitrile) at a flow rate of 0.8 mL/min, column temperature of 40 ℃ was used. ESI-TOF/MS was used for qualitative identification, and CAD detector (with a nebulizer temperature of 60 ℃ and N₂ pressure of 8.8 kPa) was used for quantitative determination, combined with principal component analysis to differentiate the different parts of Panacis Quinquefolii Radix. The suggested method showed a good linearity in the corresponding mass concentration ranges (correlation coefficients>0.999 1); the detection limit was found to be between 0.03 μg/mL and 0.13 μg/mL, and recoveries between 94.17% and 107.15% were achieved. The method was applied to determine the presence of seven monosaccharides (glucose, fructose, arabinose, rhamnose, xylose, fucose, and mannose) and two uronic acids (galacuronic and glucuronic acids) in the products obtained by subjecting the different parts of Panacis Quinquefolii Radix to polysaccharide hydrolysis. In the taproot, the content of glucose was relatively high with a mean of (2.123±0.070)mg/g; in the rhizome, the contents of rhamnose, arabinose, fructose, mannose, glucuronic acid, and galacturonic acid were relatively high with a mean of (0.037±0.006)mg/g, (0.179±0.023)mg/g, (0.158±0.028)mg/g, (0.036±0.006)mg/g, (0.069±0.007)mg/g, and (0.376±0.096)mg/g, respectively; and in the fibrous ginseng root, the fucose content was relatively high with a mean of (0.120±0.005)mg/g. The suggested method was found to be simple, sensitive, and reproducible and provided method and data support for the composition of monosaccharides of Panacis Quinquefolii Radix and the exploitation of different medicinal parts.

Improvement of the TLC identification standard of Yinqiao Powder in Chinese Pharmacopoeia

ZHANG Hui-min, SONG Jian, XU Lin, DONG Xue, ZHONG Fang-xiao

Shandong Science. 2022, 35(4):  9-14.  doi:10.3976/j.issn.1002-4026.2022.04.002

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To improve the thin layer chromatographic (TLC) identification standard of Yinqiao Powder in Chinese Pharmacopoeia, Yinqiao Powder samples were systematically extracted using different reagents to obtain different sample solutions. A series of TLC (sTLC) was used to systematically study the sample solutions, development conditions, and color development methods to identify 10 single herbs in Yinqiao Powder. Lonicerae Japonicae Flos, Forsythiae Fructus, Menthae Haplocalycis Herba, Arctii Fructus, Sojae Semen Praeparatum, Schizonepetae Spica, and Glycyrrhizae Radix Et Rhizoma were identified in Yinqiao Powder using sTLC. Arctii Fructus, Glycyrrhizae Radix Et Rhizoma, Sojae Semen Praeparatum, and Schizonepetae Spica can be dispersed on a thin-layer plate one time for common identification. In this study, the identifications of seven single herbs in Yinqiao Powder via sTLC can be used for identifying standard herbs. This approach shows good reproducibility, strong operability, and low detection cost. Furthermore, it can provide an experimental basis for the content supplement and quality standard improvement of Yinqiao Powder in Chinese Pharmacopoeia and facilitate a reference for the TLC identification of other Yinqiao Powder formulations.

Molecular identification of a newly discovered medicinal plant, Isodon rubescens, in Shandong using DNA barcoding

GE Jun-wei, LI Ping, ZHANG Tong-tong, GAO Fei, WANG Wen-yue, WANG Jun-nan, SUN Zhi-ying

Shandong Science. 2022, 35(4):  15-20.  doi:10.3976/j.issn.1002-4026.2022.04.003

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DNA barcoding method was carried out to identify a species, which was discovered during field medicinal resource investigation in Shandong and difficult to identify using morphological characters. First, the total DNA was extracted from the samples. Then, the sequences of internal transcribed spacer region 2 and psbA-trnH were amplified and sequenced using polymerase chain reaction. Next, the obtained sequences were proofread and spliced using Chromasv, and the software MEGA 6.0 was used to analyze the data. Consequently, the studied species was identified as Isodon rubescen (Hemsl.) Hara using the DNA barcoding method. This study provides important evidence regarding the identification of a newly discovered species, Isodon rubescens, in Shandong and its medicinal resource development.

Pharmacology and Toxicology

Determining the concentration of tectochrysin in rat plasma using HPLC-MS/MS

DENG Zhi-Peng, LI Jing, ZHAO Pan, SONG Jia

Shandong Science. 2022, 35(4):  21-27.  doi:10.3976/j.issn.1002-4026.2022.04.004

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The aim was to develop a method using high-performance liquid chromatography tandem mass spectrometry (HPLC-MS/MS) for the quantitative analysis of tectochrysin in rat plasma and evaluate the pharmacokinetics of tectochrysin in rats after intragastric administration. First, plasma samples were precipitated using acetonitrile reagent, and a 5 μL supernatant was injected into system for analysis. Phellopterin was used as the internal standard to monitor the concentrations of tectochrysin in rat plasma via HPLC-MS/MS. Zorbax Eclipse Plus C₁₈ column (2.1 mm × 50 mm, 1.8 μm) was used, and the mobile phase was composed of an aqueous solution (60:40, V/V) of 0.1% acetonitrile and formic acid (isocratic elution). Electrospray ionization was used in the positive ion mode, and selected reaction monitoring was performed at mass-to-charge ratio (m/z) 268.8→225.9 (tectochrysin) and m/z 300.9→233.0 (internal standard). The calibration curve was linear in the range of 0.5~200 ng/mL. The relative standard deviation of inter and intraday precisions was 3.28%~13.12%, and relative error of accuracy was -6.38%~7.60%. Matrix effect was 98.43%~103.57%, and extraction recovery rate was 93.36%~96.31%. The assay was found to be useful for determining the concentration and evaluating the pharmacokinetics of tectochrysin in rat plasma.

The mechanism underlying Fagopyri Dibotryis Rhizoma's action against respiratory syncytial virus using network pharmacology

DU Hai-tao, WANG Ping, LI Na, HAN Li, DING Jie, HU Ya-nan

Shandong Science. 2022, 35(4):  28-37.  doi:10.3976/j.issn.1002-4026.2022.04.005

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The core ingredients and targets of Fagopyri Dibotryis Rhizoma against respiratory syncytial virus (RSV) were screened using network pharmacology and verified via gene chip mining and molecular docking. The core ingredients were screened using the traditional Chinese medicine systems pharmacology database(TCMSP), targets of the core ingredients were predicted using SwissTargetPrediction, and targets of pneumonia-causing RSV were obtained using GeneCards, GenCLiP 3, and National Center for Biotechnology Information database. The intersection target network was generated via target mapping, and the protein-protein interaction (PPI) network and core enrichment Kyoto encyclopedia of genes and genomes (KEGG) pathway were constructed through STRING and DAVID platforms to obtain the core targets and pathways. Gene expression omnibus chip data mining and AutoDock Vina molecular docking were used to verify the effectiveness of the core targets. Fifteen components of Fagopyri Dibotryis Rhizoma were screened using TCMSP database. Furthermore, target mapping showed that Fagopyri Dibotryis Rhizoma had 45 targets. Through the comprehensive analysis of PPI network and KEGG pathway, the targets of Fagopyri Dibotryis Rhizoma against RSV were found to be AKT1, VEGFA, PTGS2, SRC, EGFR, KDR, STAT3, BCL2,etc. The results of data mining and molecular docking were basically consistent with the prediction. This study preliminarily predicted the main active components, targets, and related pathways of Fagopyri Dibotryis Rhizoma, which would prove to be beneficial in the treatment of RSV-induced diseases, and laid a good foundation for further revealing its mechanism.

The basis and mechanism of Rosae Rugosae Flos antidepressants based on network pharmacology

LIANG Meng-meng, SHAO Xin-xin, CHEN Cong, ZHANG Song, ZHANG Guang-zhong, LI Jia

Shandong Science. 2022, 35(4):  38-48.  doi:10.3976/j.issn.1002-4026.2022.04.006

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To explore the active ingredients and mechanism of Rosae Rugosae Flos for antidepressant activity by network pharmacology and the molecular docking method. This study collected the antidepressant monomers and chemical components of Rosae Rugosae Flos by searching the China National Knowledge Infrastructure database, predicted the antidepressant active ingredients and targets with the aid of the PubChem and SwissTargetPrediction databases, performed pathway enrichment analysis through the Database for Annotation, Visualization and Integrated Discovery, and used Discovery Studio 2017 software to perform molecular docking. A total of 117 antidepressant monomers and 127 Rosae Rugosae Flos ingredients were collected. Furthremore, 17 antidepressant-related core components were screened out from Rosae Rugosae Flos. The molecular docking showed that Rosae Rugosae Flos contains six active ingredients, which are apigenin, quercetin, kaempferol, isoeugenol, isoquercitrin, and cyanidin 3-O-glucoside that can bind to the three depression-related targets AKT1, PTGS2, and ESR1. The results indicated that the antidepressant material basis of Rosae Rugosae Flos is flavonoids, such as apigenin, quercetin, kaempferol, and so on, which mainly affect the neuroactive ligand -receptor interaction and the HIF-1, prolactin, and dopaminergic synaptic signaling pathways, which play an antidepressant role. The research will be expected to offer new ideas for the next steps in studying Rosae Rugosae Flos for any evidence of new antidepressant drug discoveries.

To explore the mechanism of Ranunculi Ternati Radix in the treatment of lung adenocarcinoma based on network pharmacology and molecular docking

LIU Xing, HUANG Hong-li, ZHANG Le, LIU Xiang-fang, ZHANG Wen-lin, SHEN Ling-jun

Shandong Science. 2022, 35(4):  49-57.  doi:10.3976/j.issn.1002-4026.2022.04.007

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To explore the mechanism of a multicomponent, multitarget, and multichannel treatment of lung adenocarcinoma by network pharmacology and molecular docking. According to the analysis conditions of oral availability and drug-like properties, the Traditional Chinese Medicine systems pharmacology database and analysis peatform was used to screen the main active ingredients and targets of Ranunculi Ternati Radix. The disease targets were obtained from the GeneCards and OMIM databases. Venn diagrams were plotted using R software to obtain the intersection targets of active ingredients and diseases, and protein-protein interaction networks were constructed using the STRING database. Gene onto logy(GO) enrichment analysis and Kyoto encyclopedia of genes and genomes(KEGG) pathway analysis of the predicted targets were performed using the Bioconductor database. The results revealed 10 potential active ingredients and 40 targets of Ranunculi Ternati Radix on screening; of which, 36 targets were related to lung adenocarcinoma. The main active ingredients are β-sitosterol and dousterol. These active ingredients act on PTGS2, BCL2, BAX, CASP9, CASP3, RXRA, and other targets. The anti-tumor effect is elaborated through the regulation of neurodegeneration (multiple diseases), neuroactive ligand-receptor interactions, small cell lung adenocarcinoma, apoptosis, multicell apoptosis, platinum resistance, p53 signaling pathway, and colorectal cancer. The prediction of the active components and potential targets of Ranunculi Ternati Radix provides new ideas and indications for the application and development of drugs.

Visual analysis of the mechanism of Astragali Radix-Imperatae Rhizomain in the treatment of chronic glomerulonephritis

ZHU Xiao-li, GAO Jia-rong, SHI Miao-miao, QIN Xiu-juan, WEI Liang-bing, LIU Tao, ZHANG Wei

Shandong Science. 2022, 35(4):  58-67.  doi:10.3976/j.issn.1002-4026.2022.04.008

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Database and visualization software were employed to analyze the active ingredients of Astragali Radix-Imperatae Rhizomain in the treatment of chronic glomerulonephritis (CGN) and explore the potential underlying mechanism. The active ingredients of Astragali Radix-Imperatae Rhizomain were collected using Traditional Chinese Medicine system pharmacology databases and analysis platforms and BATMAN-TCM databases, and the target information was standardized using SwissTargetPrediction and Uniprot databases. CGN-related targets were screened using the GeneCards, OMIM, DisGeNET, Drugbank, and DiGSeE databases. Relevant network diagrams were constructed using Cytoscape software. Gene ontology (GO) and Kyoto encyclopedia of genes and genomes (KEGG) analyses were performed using the Omicshare platform. AutoDock Vina and LigPlot were used for molecular docking of the core components to the core targets. A total of 27 active ingredients and 271 active ingredient targets were screened from Astragali Radix-Imperatae Rhizomain. The analysis of 143 drug and disease intersection targets yielded 7 084 GO-related processes and 230 KEGG signaling pathways, of which 4 663 GO-related processes and 159 KEGG signaling pathways were differentially identified. Further validation by molecular docking revealed that the core components were able to bind better to the core targets. Astragali Radix-Imperatae Rhizomain were found to exert their effect on the treatment of CGN through a multi-ingredient, multi-target, and multi-pathway mode of action, providing important scientific information for the treatment of CGN.

Energy and Power

Microstudy on mixing characteristics of dissimilar particles in bubbling fluidized beds

LI Hua-nan, HUANG Ji-kai, DONG Kai-ming

Shandong Science. 2022, 35(4):  68-76.  doi:10.3976/j.issn.1002-4026.2022.04.009

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A novel method for measuring the mixing characteristics of dissimilar particles in dense gas-solid two-phase flow based on a capacitance probe was developed. In the mixing process, the variation in the micromixing ratio of dissimilar particles in a bubbling fluidized bed was studied. The influence of convection and diffusion on the mixing of particles at a series of locations in the bubbling fluidized bed and its micromechanism were analyzed. Results show that with increasing bed height, the influence of convective mixing on the mixing of particles first increases and then decreases. The mixing ratio near the wall fluctuates slightly with the mixing time and mainly shows diffusion mixing behavior. No considerable difference is observed in the time required for particles to reach mixing equilibrium at different bed heights, and the time required for particles to reach mixing equilibrium near the wall is approximately twice as long as that at the axial positions. However, the final micromixing indices are similar in the mixing equilibrium state.

Increasing the velocity of annular gas in deepwater drilling

WANG Xiao-hui, JIANG Hai-jun

Shandong Science. 2022, 35(4):  77-83.  doi:10.3976/j.issn.1002-4026.2022.04.010

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In the process of deepwater drilling, early and accurate monitoring of gas invasion is crucial for drilling safety. Based on Hagdorn and Brown’s method, this study establishes a model for increasing gas velocity after gas invasion in deepwater drilling, optimizes the influence of well deviation angle on the division principle of gas-flow pattern and gas slippage velocity in deviated wells, and realizes the real-time calculation of the time when the gas reaches subsea wellhead in accordance with the gas-liquid flow law in the wellbore after gas invasion. The results can effectively reflect the flow law of wellbore annulus after the gas invasion in deepwater-deviated well drilling and are of great significance for gas-invasion monitoring and well control.

Biosensors

Anti-interference detection method of ethanol concentrationin fruit juices

WANG Bing-lian, MA Yao-hong, GONG Wei-li, YANG Yan, ZHENG Lan, LIU Qing-ai, MENG Qing-jun

Shandong Science. 2022, 35(4):  84-89.  doi:10.3976/j.issn.1002-4026.2022.04.011

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To eliminate the influence of electrochemically active compounds on ethanol determination in fruit juices via biosensor, an ethanol-assisted enzyme electrode was prepared and a novel alcohol biological detection system was constructed using the synergy of working and auxiliary enzyme electrodes. The anti-interference property of the system was tested and the anti-interference coefficient was fitted. Thereafter, the calculation formula of ethanol concentration was deduced to achieve the rapid and accurate detection of ethanol concentration. The results showed that the anti-interference performance of the detection was stable with good stability, accurate results, and strong ability. When the method was applied to determine the ethanol concentration in fruit juices, the relativity standard division was 0.80% and the recoveries were 99.10% to 101.10%. Glucose, sucrose, citric acid, Ca²⁺, catalase, and vatamine C in the fruit juices had no effect on ethanol detection. T-test analysis showed that there was no significant difference between this method and the national standard and gas chromatography (P>0.05).The method is simple in operation,low in cost and high in accuracy,which can meet the production requirements of low cost.

Traffic and Transportation

Optimization of random assignment model of urban rail transit passenger flow based on fully observable and controllable experimental method

WANG Bo, BAO Feng, WU Xin-ran

Shandong Science. 2022, 35(4):  90-97.  doi:10.3976/j.issn.1002-4026.2022.04.012

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The passenger flow distribution between origin and destination routes of urban rail transit directly affects the passenger flow size in each line section. A scientific and accurate network passenger flow distribution is crucial for passenger flow statistical analysis, passenger flow forecasting, transportation planning, and passenger transportation organization. Based on the notion that the spatiotemporal distribution of passenger flow in an urban rail transit network is fully controllable, this study analyzes the main factors affecting the random probability distribution of passenger flow, establishes a network model architecture, and optimizes the microscopic path selection behavior of passengers and the decision-making process based on the random utility theory. The effective path benefit value function in the passenger flow random assignment model is optimized into a piecewise function. Based on the verification of the route allocation ratio and passenger flow in the split line section, the proposed optimization method achieves the expected goal. The findings of this study lay a solid foundation for the implementation of a standardized, scientific, and systematic urban rail transit clearing.

Residents' travel mode choice analysis considering city exchange center

LUO Feng, ZUO Yu-fan, ZHANG Wen-bo, LIU Zhi-yuan, JIA Ruo

Shandong Science. 2022, 35(4):  98-106.  doi:10.3976/j.issn.1002-4026.2022.04.013

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City exchange center (CEC) is an emerging transportation hub infrastructure that provides comprehensive services such as parking, public transit transfers, and business entities, thus enhancing public transit patronage and developing green and smart mobility systems. This study is designed to explore the complex relationships among single-mode, multimodal, auto, transit, and nonmotorized trips considering the characteristics of urban multimodal trips with the CEC in operation to describe the residents' travel mode choice based on the cross-nested logit model. Combined with the data of the stated preference survey in Xiongan New District, we find that a public transit system is a key entry point for improving the CEC transportation service level. Travelers choosing higher-level services are more sensitive to time and less sensitive to costs, while travelers choosing lower-level services show the opposite behavior; therefore, it is necessary to survey the population distribution and household income level in the early stage of CEC construction. The waiting time of travelers should be controlled to within 10 min. The reduction of waiting time is meaningless to the improvement of travel service if it exceeds the threshold. This study explores the influencing factors for residents' travel mode choice and will be helpful for CEC planning schemes, providing quantitative guidance for other urban areas to improve public transport.

International trade logistic channeloptions between Southeast Asia and Southwest China

FU Wen-jing, LANG Mao-xiang

Shandong Science. 2022, 35(4):  107-115.  doi:10.3976/j.issn.1002-4026.2022.04.014

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As the China-Vietnam express functions regularly, the options of logistic channels between inland cities in Southwest China and Southeast Asia are increasing. Stable logistic services provided by freight companies are conducive to the smooth implementation of production plans of manufacturing companies. Herein, the goal is to make a more scientific and reasonable choice by comparing existing logistic channel schemes. To achieve this, we consider minimizing the freight time and cost as the optimization objective, include the soft time window requirement for the total time of the liner (ship) departure and order in international transportation, construct a mixed multi-objective integer programming model, select high value-added cargos as the research object, solve the selection scheme of import channels. Moreover, we choose Chongqing natural rubber import route as a case, achieve the shortest route for the transportation of goods based on the improved Dijkstra's algorithm, determine the total time and cost associated with each scenario. Our calculation results show that the findings obtained using the proposed model can provide a reference for freight enterprises for decision-making on international logistic channels in inland cities of Southwest China, thus providing scientific suggestions for the construction of new land and sea channels in the west.

Prediction of traffic volume in the Liaocheng-Dezhou section of the Beijing-Hangzhou Canal after shipping resumption

YANG Xiao-song, FAN Hai-wen, ZHANG Nan, CHEN Can-jun

Shandong Science. 2022, 35(4):  116-125.  doi:10.3976/j.issn.1002-4026.2022.04.015

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The resumption of shipping in the section of the Beijing-Hangzhou Canal north of the Yellow River can facilitate an economic route for driving the regional connection between the north and south, which is instrumental for adjusting and optimizing the industrial structure. Based on this background and considering the characteristics of the regional freight structure, this study uses a production curve and an allocation rate model to estimate the possible traffic volume that will be induced in the Liaocheng-Dezhou section after shipping resumption between 2025 and 2039. Results show that after shipping resumption, the average annual growth rate of freight transport will be 15.9%, the canal will be capable of undertaking 18.20% of the regional freight transport, and freight transport via the canal between the two cities will reach 783.78 million tons by 2039.

Interactions between shipping on the Beijing-Hangzhou Canal and the waterfront regional economy

CHEN Qian-yang, DONG Si-yuan, ZHU Xiao-lei

Shandong Science. 2022, 35(4):  126-135.  doi:10.3976/j.issn.1002-4026.2022.04.016

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To study the interactions between the development of inland navigation, the waterfront regional economy, and industrial development as exemplified by the Subei Canal, this study used the gray correlation degree calculation and cointegration test methods to discuss the correlation and long-run equilibrium relationship between the Subei Canal, the regional economy, and industrial structure along the waterways. Further, it explores the direction of the influence of their interactions through causal analysis, studying the current and future degree of mutual influence of inland navigation on the waterfront regional economy by way of vector autoregression. Finally, an industrial park along the waterways was selected to analyze the actual interaction effects. The findings reveal a long-run equilibrium relationship between the Subei Canal and the economic growth and development of the secondary industry in the waterway region. The secondary industry in the area along the Subei Canal is the most supportive of the development of canal shipping. Inland shipping meets industrial demands for cargo transportation. The resumption of navigation on the Beijing-Hangzhou Canal(north of the Yellow River)can achieve a virtuous circle that promotes both the economy and industry of the waterfront area. This research is beneficial to unlock the potential of regional economic development along the canal. It provides a reference for the planning and design of the Beijing-Hangzhou Canal(north of the Yellow River)and the area along the waterways.

Design and implementation of optimized system for vertical alignment of metro track

PENG Lei, FAN Cong, WANG Qian, WANG Xiao-chao, BAI Yun

Shandong Science. 2022, 35(4):  136-143.  doi:10.3976/j.issn.1002-4026.2022.04.017

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The design of the vertical alignment of metro tracks (VAMTs) is complex and time-consuming. To address this issue, an optimization system is developed for VAMTs. This system automatically and efficiently designs optimized VAMTs for a given horizontal alignment of metro tracks. The proposed system allows editing the track alignment and cars data, and proposes a train operation-based simulation model on train operation and an optimization model on the VAMT for minimizing the life-cycle cost and energy consumption of metro cars. The system allows manual adjustment of the vertical alignment of metro track plan obtained by the automatic solution, and automatically checks whether the adjusted plan meets the relevant specifications. A study case involving Guangzhou Metro Line 2 shows that the optimized VAMT reduces energy consumption by 3.2% relative to the actual VAMT for the same construction cost, indicating that the optimized VAMT can save life-cycle costs.

Calculation of human evacuation reliability for shield-integrated pipe gallery

TAN Yi-wei, LIU Shu-zhuo, CHEN Jun-sheng

Shandong Science. 2022, 35(4):  144-154.  doi:10.3976/j.issn.1002-4026.2022.04.018

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In view of the limited research on current comprehensive utility tunnel shield safety operations and inconsideration of the uncertainty factors in the shield-integrated pipe gallery operations as well as their specifications, this study aims at safe human evacuation from the gallery during fire hazard for the operations research personnel using the Guangzhou Tianhe smart city comprehensive utility tunnel shield segment as the research object to calculate the probability of safe human evacuation. A 1:1 fire modeling is performed using PyroSim software to determine the available safe evacuation time 。Referring to the probability distribution of personnel's escape behavior after a tunnel disaster, the probability model of escape behavior is optimized while considering the characteristics of the operation and maintenance period of the pipe gallery, and the comparative working conditions are set using the Monte Carlo method. The random sampling simulation of the necessary evacuation time was conducted using Matlab programming, and the safety evacuation reliability was calculated. The results show that in a fire prevention zone, the evacuation reliability is 0.889 for the ordinary personnel and 0.99 for the maintenance personnel, i.e., close to 1. Daily evacuation drills, safety specification manuals, and other control measures can considerably improve the safety of the personnel. These results are expected to provide a reference for the compilation of operation and maintenance specifications of daily support structures for integrated pipe galleries.