«Previous Article|Table of Contents|Next Article»

长安大学学报（自然科学版）[ISSN:1006-6977/CN:61-1281/TN]

Issue:

2023年1期

Page:

101-112

Research Field:

隧道工程

Publishing date:

Info

Title:

Optimization of ventilation scheme based on combination of press-in ventilation and jet fan in extra long tunnel

Author(s):

CHEN Shuang-qin¹;  ZHANG Long¹;  REN Yu-peng¹;  YANG Bao-ping¹;  FENG Cheng-ming¹; GAO Xin²;  GAO Qi-dong²

(1. The Engineering Co., Ltd of China Railway Beijing Engineering Group, Xi’an 710100, Shaanxi, China; 2. School of Highway, Chang’an University, Xi’an 710064, Shaanxi, China)

Keywords:

tunnel engineering;  ventilation and dust removal;  orthogonal test;  jet fan;  layout optimization;  extra long tunnel;  press-in ventilation

PACS:

U453.5

DOI:

10.19721/j.cnki.1671-8879.2023.01.011

Abstract:

In order to reduce the harm of dust generated during tunnel construction to the health of construction workers and the wear of construction machinery, based on the construction section DK052+415～DK054+500 of Xiangshan Tunnel of Zhonglan(Zhongwei-Lanzhou)Railway, the ventilation scheme of inclined shaft section during construction was optimized.The influence of the distance between the jet fan and the center line of the tunnel, the wind speed of the jet fan, the distance between the jet fan and the cloth hanging trolley, and the height of the jet fan on the dust removal effect of the tunnel were analyzed by using Fluent simulation. The influence of the distance between the fan and the cloth hanging trolley, the distance between the fan and the tunnel center line, and the fan wind speed on the dust removal effect was studied by using the orthogonal test method, and the layout scheme of the jet fan was compared and optimized. The results show that the dust concentration increases at the two vehicles in tunnel. The installation of jet fan auxiliary ventilation in the tunnel can reduce the dust concentration near the two vehicles.When the air duct and jet fan are arranged on the same side, the dust removal capacity of the fan will be reduced due to the friction between them. The wind speed of the fan has a positive impact on the dust removal capacity of the jet fan. The distance between the fan and the trolley and the height of the fan have optimal values, too large or too small will reduce the dust removal effect of the jet fan. The best layout scheme of jet fan is that the distance between the fan and the cloth trolley is 35 m, the distance between the fan and the tunnel center line is 2 m, the fan height is 2 m, and the fan wind speed is 40 m/s. Both range analysis method and variance analysis method show that the biggest influence factor of jet fan dust removal effect is fan speed. The order of influence importance of each factor on the dust concentration near the two vehicles is fan speed, fan distance from the cloth trolley and fan distance from the tunnel center line. During tunnel construction, the impact of fan speed on the dust removal effect of jet fan needs to be focused in the ventilation project of inclined shaft section.7 tabs, 16 figs, 33 refs.

References:

[1] 王 冕.掘进巷道流场结构及粉尘沉降规律相似模拟研究[J].矿业安全与环保,2021,48(3):56-61.
WANG Mian.Similar simulation study on the flow field structure and the law of dust settlement of heading roadway[J].Mining Safety & Environmental Protection,2021,48(3):56-61.
[2]王林峰,钟宜宏,李玲玉,等.基于正交试验的瓦斯隧道压入式通风优化[J].现代隧道技术,2021,58(增1):170-178.
WANG Lin-feng,ZHONG Yi-hong,LI Ling-yu,et al.Optimization of forced ventilation in gas tunnel based on orthogonal test[J].Modern Tunnelling Technology,2021,58(S1):170-178.
[3]赵树磊,王海洋,赵宁雨,等.米拉山隧道独头极限通风距离下污染物运移规律研究[J].隧道建设(中英文),2021,41(增2):367-374.
ZHAO Shu-lei,WANG Hai-yang,ZHAO Ning-yu,et al.Migration law of pollutants under dead-end limit ventilation distance of Milashan Tunnel[J].Tunnel Construction,2021,41(S2):367-374.
[4]朱祝龙,赵亚平,宫 宇,等.抽出式通风机数量对地铁区间隧道通风排烟能力影响的实验研究[J].中国安全生产科学技术,2021,17(6):130-135.
ZHU Zhu-long,ZHAO Ya-ping,GONG Yu,et al.Experimental study on influence of number of extraction fans on ventilation and smoke exhaust capacity of metro interval tunnel[J].Journal of Safety Science and Technology,2021,17(6):130-135.
[5]XIE Z W,XIAO Y,JIANG Y,et al.Numerical study on fine dust pollution characteristics under various ventilation time in metro tunnel after blasting[J].Building and Environment,2021,204:108111.
[6]刘亚洲.某施工隧道长压短抽式通风粉尘运移规律研究[D].合肥:安徽建筑大学,2020.
LIU Ya-zhou.Study of dust diffusion law in a construction tunnel under far-pressing-near-absorption ventilation[D].Hefei:Anhui Jianzhu University,2020.
[7]龚晓燕,李 珍,冯 雄,等.连采掘进面压入式通风下最佳风场调控规则研究[J].安全与环境学报,2022,22(5):2563-2571.
GONG Xiao-yan,LI Zhen,FENG Xiong,et al.Study on the optimal regulation rules of wind field under press-in ventilation in continuous mining face[J].Journal of Safety and Environment,2022,22(5):2563-2571.
[8]JTG/T 3660-2020,公路隧道施工技术规范[S].
JTG/T 3660-2020,Technical specifications for construction of highway tunnel[S].
[9]王 童,郭梁辉,李长龙,等.压入式通风时煤尘运移规律研究[J].煤矿安全,2017,48(12):49-52.
WANG Tong,GUO Liang-hui,LI Chang-long,et al.Research on laws of coal dust migration during the period of forced ventilation[J].Safety in Coal Mines,2017,48(12):49-52.
[10]VAN MAELE K,MERCI B.Application of RANS and LES field simulations to predict the critical ventilation velocity in longitudinally ventilated horizontal tunnels[J].Fire Safety Journal,2008,43(8):598-609.
[11]MUSTO M, CASCETTA F, D’ALESSANDRO C D,et al.Novel correlation to evaluate the pressure losses for different traffic jam conditions in road tunnel[J].Tunnelling and Underground Space Technology,2019,86:165-173.
[12]MUSTO M,CASCETTA F,D’ALESSANDRO C,et al.Novel correlation to evaluate the pressure losses for different traffic jam conditions in road tunnel with alternative jet fan,second part[J].Tunnelling and Underground Space Technology,2020,96:103213.
[13]TORANO J,TORNO S, MENENDEZ M,et al.Models of methane behaviour in auxiliary ventilation of underground coal mining[J].International Journal of Coal Geology,2009,80(1):35-43.
[14]FANG Y,FAN J,KENNEALLY B,et al.Air flow behavior and gas dispersion in the recirculation ventilation system of a twin-tunnel construction[J].Tunnelling and Underground Space Technology,2016,58(4):30-39.
[15]LEE S C,LEE S,LEE J.CFD analysis on ventilation characteristics of jet fan with different pitch angle[J].KSCE Journal of Civil Engineerin,2014,18(3):812-818.
[16]MUTAMA K A,HALL A E.The experimental investigation of jet fan aerodynamics using wind tunnel modeling[J].Journal of Fluids Engineering,1996,118(2)322-328.
[17]CHEN T,ZHOU D,LU Z J,et al.Study of the applicability and optimal arrangement of alternative jet fans in curved road tunnel complexes[J].Tunnelling and Underground Space Technology,2021,108:103721.
[18]WANG F,WANG M N,WANG Q Y.Numerical study of effects of deflected angles of jet fans on the normal ventilation in a curved tunnel[J].Tunnelling and Underground Space Technology Incorporating Trenchless Technology Research,2012,31(3):80-85.
[19]WANG F,WANG M N,HE S,et al.Computational study of effects of jet fans on the ventilation of a highway curved tunnel[J].Tunnelling and Underground Space Technology Incorporating Trenchless Technology Research,2010,25(4):382-390.
[20]张奥宇,邓 敏.建宁西路地下互通通风系统运营优化研究[J].隧道建设(中英文),2021,41(增2):462-468.
ZHANG Ao-yu,DENG Min.Operation optimization of ventilation system of underground interchange at Jianning West Road,Nanjing,China[J].Tunnel Construction,2021,41(S2):462-468.
[21]陈 研,王天雄,陶浩文,等.曲线隧道射流风机通风效率优化研究[J].消防科学与技术,2021,40(7):977-982.
CHEN Yan,WANG Tian-xiong,TAO Hao-wen,et al.Study on optimization of ventilation efficiency about jet fan in curved tunnel[J].Fire Science and Technology,2021,40(7):977-982.
[22]赵东平,温斯逊,杨柏洪.铁路隧道防灾通风射流风机安装位置对通风效果的影响[J].中国铁道科学,2021,42(1):59-70.
ZHAO Dong-ping,WEN Si-xun,YANG Bai-hong.Influence of installation position of jet fan on ventilation effect in disaster prevention ventilation of railway tunnel[J].China Railway Science,2021,42(1):59-70.
[23]卢 毅,付 帅,李论之.矩形大断面水下隧道射流风机布设位置优化仿真[J].公路交通科技,2021,38(3):81-86,121.
LU Yi,FU Shuai,LI Lun-zhi.Simulation of optimal layout of jet fans in large rectangular sectional underwater tunnel[J].Journal of Highway and Transportation Research and Development,2021,38(3):81-86,121.
[24]张洪杰,张文鹏,范资悦,等.不同隧道坡度下射流风机临界风速研究[J].中国安全生产科学技术,2020,16(1):99-104.
ZHANG Hong-jie,ZHANG Wen-peng,FAN Zi-yue,et al.Study on critical wind velocity of jet fan under different tunnel slopes[J].Journal of Safety Science and Technology,2020,16(1):99-104.
[25]任 锐,谢永利.海底沉管隧道射流风机通风效果影响因素的研究[J].流体机械,2016,44(2):43-47.
REN Rui,XIE Yong-li.Study on influence factors of jet fans ventilation effect in submarine immersed tunnel[J].Fluid Machinery,2016,44(2):43-47.
[26]陶浩文,王天雄,徐志胜,等.隧道曲率半径对空气射流流场特性及升压效率的影响研究[J/OL].安全与环境学报,2022:1-10[2022-11-24].DOI:10.13637/j.issn.1009-6094.20210935.
TAO Hao-wen,WANG Tian-xiong,XU Zhi-sheng,et al.The influence of tunnel curvature radius on the characteristics of air jet flow and the pressure-rise coefficient[J/OL].Journal of Safety and Environment,2022:1-10[2022-11-24].DOI:10.13637/j.issn.1009-6094.20210935.
[27]徐志胜,王蓓蕾,孔 杰,等.风机横向布置间距对公路隧道污染物分布的影响研究[J].安全与环境学报,2021,21(1):321-327.
XU Zhi-sheng,WANG Bei-lei,KONG Jie,et al.Study on influence of horizontal fans spacing on distribution of pollutants in highway tunnels[J].Journal of Safety and Environment,2021,21(1):321-327.
[28]郝永江,郭玉峰,郭伟强,等.综放工作面转载破碎点粉尘分布特征研究[J].安全与环境学报,2021,21(2):562-569.
HAO Yong-jiang,GUO Yu-feng,GUO Wei-qiang,et al.Study on dust distribution characteristics of transfer and crushing point in fully mechanized coal caving face[J].Journal of Safety and Environment,2021,21(2):562-569.
[29]高宇甲,霍继炜,贾新聪,等.基于大数据的施工现场扬尘监测与措施研究[J].建筑结构,2019,49(增1):1003-1007.
GAO Yu-jia,HUO Ji-wei,JIA Xin-cong,et al.Study on dust monitoring and measures in construction site based on big data[J].Building Structure,2019,49(S1):1003-1007.
[30]秦跃平,张苗苗,崔丽洁,等.综掘工作面粉尘运移的数值模拟及压风分流降尘方式研究[J].北京科技大学学报,2011,33(7):790-794.
QIN Yue-ping,ZHANG Miao-miao,CUI Li-jie,et al.Numerical simulation of dust migration and study on dust removal modes with the forced ventilation shunt in a fully mechanized workface[J].Journal of University of Science and Technology Beijing,2011,33(7):790-794.
[31]曹正卯,刘 晓,牛柏川.高海拔公路隧道施工期粉尘运移特性研究[J].地下空间与工程学报,2019,15(3):927-935.
CAO Zheng-mao,LIU Xiao,NIU Bai-chuan.Migration characteristics of dust during construction stage in highway tunnels at high altitude areas[J].Chinese Journal of Underground Space and Engineering,2019,15(3):927-935.
[32]浑宝炬,郭立稳.矿井通风与除尘[M].北京:冶金工业出版社,2007.
HUN Bao-ju,GUO Li-wen.Mine ventilation and dust removal[M].Beijing:Metallurgical Industry Press,2007.
[33]何忠明,王盘盘,王利军,等.深基坑施工对临近地铁隧道变形影响及参数敏感性分析[J].长安大学学报(自然科学版),2022,42(4):63-72.
HE Zhong-ming,WANG Pan-pan,WANG Li-jun,et al.Influence of deep foundation pit construction on adjacent subway tunnel deformation and parameter sensitivity analysis[J].Journal of Chang’an University(Natural Science Edition),2022,42(4):63-72.

Memo

Memo:

-

Common functions

Last Update: 2023-01-30