Distribution and Development Characteristics of Urban Road Tunnels in China

Home | About Journal | Editorial Board | Instruction | Subscription | Advertisement | Message Board | Contact Us | 中文

MODERN TUNNELLING TECHNOLOGY

2022, Vol. 59

Issue (6) :35-41 DOI:

Current Issue | Next Issue | Archive | Adv Search

<< [an error occurred while processing this directive] | [an error occurred while processing this directive] >>

Distribution and Development Characteristics of Urban Road Tunnels in China

(School of Transportation and Logistics Engineering, Wuhan University of Technology, Wuhan 430063)

Abstract
References
Similar articles

Download: PDF (3612KB) HTML (1KB) Export: BibTeX or EndNote (RIS) Supporting Info

Abstract Based on the information collection and sorting of 406 urban road tunnels, the statistical analysis of urban road tunnels in China is carried out from the aspects such as the year of service, provinces and cities where road tunnels are distributed, the obstacles passed through (water, buildings, mountains), tunnel types (length, speed, lane) and portal types (multiple portals, orientation, separation, subsidence, curve), which clearly and directly reflects the development scale of urban road tunnels in China, shows the construction characteristics of urban road tunnels in China, and provides basic support for further development research of urban road tunnels in China.

	Service

	Email this article
	Add to my bookshelf
	Add to citation manager
	Email Alert
	RSS
	Articles by authors
	XU Fuqiang DU Zhigang CHEN Can

Keywords： Urban tunnel Road tunnel Tunnel engineering Statistical analysis Tunnel characteristics

Abstract： Based on the information collection and sorting of 406 urban road tunnels, the statistical analysis of urban road tunnels in China is carried out from the aspects such as the year of service, provinces and cities where road tunnels are distributed, the obstacles passed through (water, buildings, mountains), tunnel types (length, speed, lane) and portal types (multiple portals, orientation, separation, subsidence, curve), which clearly and directly reflects the development scale of urban road tunnels in China, shows the construction characteristics of urban road tunnels in China, and provides basic support for further development research of urban road tunnels in China.

Keywords： Urban tunnel, Road tunnel, Tunnel engineering, Statistical analysis, Tunnel characteristics

Cite this article:

XU Fuqiang DU Zhigang CHEN Can .Distribution and Development Characteristics of Urban Road Tunnels in China[J] MODERN TUNNELLING TECHNOLOGY, 2022,V59(6): 35-41

URL:

http://www.xdsdjs.com/EN/ 或 http://www.xdsdjs.com/EN/Y2022/V59/I6/35

　

No references of article

[1]	SONG Zhanping1,2,3 PEI Jiafeng1,3 PAN Hongwei2,4 SUN Ze1,3 DING Libo5.Analysis on the Support Effect of Advance Large Pipe Umbrella at Portal Section of Shallow Tunnel under Unsymmetrical Load[J]. MODERN TUNNELLING TECHNOLOGY, 2022,59(6): 86-96
[2]	CUI Guangyao1 SHI Wenhao1 WANG Daoyuan2 WANG Mingsheng3.Study on the Thermal Insulation and Shock Absorption Technology for Tunnels Crossing the Heat-conducting Fault in a Highly Seismic Zone[J]. MODERN TUNNELLING TECHNOLOGY, 2022,59(6): 70-76
[3]	LI Zhen1 LENG Xianlun2,3 YIN Qiuyu4.Research on the Temperature Distribution Characteristics of Tunnel Fire Based on Distributed Optical Fiber Monitoring[J]. MODERN TUNNELLING TECHNOLOGY, 2022,59(6): 132-139
[4]	CAO Yan1 WANG Ruiwen1,2 ZHAO Weiwei2 SHI Qibin3 PAN Xuhui3 OU Dingfu1,2.Application Research on the Bionic Self-healing Technology for Secondary Lining Concrete of Tunnels[J]. MODERN TUNNELLING TECHNOLOGY, 2022,59(6): 250-257
[5]	YANG Xiong1 MENG Qinghui2 LI Pin1 XU Dengfei3 CAO Feng1.Design and Analysis of the Tunnel Section at Railway Station Crossing Under the Pile Foundation[J]. MODERN TUNNELLING TECHNOLOGY, 2022,59(4): 218-225
[6]	WANG Zhilong1 WANG Weihao2 LIU Dagang1 YAN Zhiwei1 TIAN Hongtao1.Study on New Tunnel Support System Based on Norwegian Method Q System[J]. MODERN TUNNELLING TECHNOLOGY, 2022,59(3): 31-39
[7]	CUI Guangyao1 WEI Hanghang1 WANG Mingsheng2.A Field Test Study on the Large Deformation Control for Tunnels Built in Seriously-weathered Carbonaceous Slate Strata with High Geostress[J]. MODERN TUNNELLING TECHNOLOGY, 2022,59(3): 183-189
[8]	WANG Jianyu.A Critical Reflection on Innovation Themes of Conventional Tunnelling[J]. MODERN TUNNELLING TECHNOLOGY, 2022,59(3): 1-9
[9]	ZHANG Dewen SU Dingwu.Study on Grouting and Sealing for Tunnels in the Fault Fracture Zone Based on Ecological Protection[J]. MODERN TUNNELLING TECHNOLOGY, 2022,59(3): 46-52
[10]	LI Wei1 LI Qing2 YANG Dan3.Study on Characteristics of Water Pressure on Tunnel Single-layer Lining Structure[J]. MODERN TUNNELLING TECHNOLOGY, 2022,59(2): 71-77
[11]	WANG Huaizheng1 SONG Zhanping1,2 ZHANG Xuewen3 TIAN Xiaoxu1,2 PAN Hongwei4.Optimization and Application of the Construction Scheme for Large-section Tunnels in Water-rich and Weakly Cemented Strata[J]. MODERN TUNNELLING TECHNOLOGY, 2022,59(2): 210-219
[12]	CUI Guangyao1 JIANG Mengxin1 WANG Daoyuan2,3 WANG Xuelai1.Study of Thermal Insulation Effects of Off-wall Corrugated Steel Plate Liner Applied in Tunnels in the Seasonally Frozen Region[J]. MODERN TUNNELLING TECHNOLOGY, 2022,59(2): 258-263
[13]	JIANG Yajun1 HE Bin1 ZHAO Jumei1 LIU Jitai1 WANG Huqun2,3.Study on Mechanical Properties of Tunnel Lining Structure with Spray-applied Waterproofing Membrane[J]. MODERN TUNNELLING TECHNOLOGY, 2022,59(1): 95-103
[14]	YANG Juan1,2,3 YANG Qixin2,3 QIU Pinming2,3.Experimental Study on the Bonding Performances of Spray-applied Waterproofing Membrane in Tunnels with CSL Structure[J]. MODERN TUNNELLING TECHNOLOGY, 2022,59(1): 104-110
[15]	FENG Jimeng1,2 JIANG Hui1,2 DING Xiaoqi1,2 YU Longping1,2 ZHANG Junru1,2.Progresses and Challenges in Research on Parallel Double-tube Tunnels Crossing Landslides[J]. MODERN TUNNELLING TECHNOLOGY, 2021,58(6): 1-10

Copyright 2010 by MODERN TUNNELLING TECHNOLOGY