Construction Schedule Real-Time Control Coupling Construction Quality in Large Scale Underground Powerhouse

Da Wei Tong

doi:10.4028/www.scientific.net/AMM.256-259.1320

Paper Titles

The Solution to the Safety Factor of Vertical Shaft Enclosure with One-Side Elevation Angle Based on FLAC3D
p.1303

Research on Construction Methods Affecting on Stress and Strain Distribution of Double Arch Tunnel
p.1308

Study & Design on Hanging Assembly Supporting Structure in the Underground Roadway
p.1312

The Process Hypothesis and Feasibility Study on Drilling-Blasting Machine Method in Tunnel Excavation
p.1316

Construction Schedule Real-Time Control Coupling Construction Quality in Large Scale Underground Powerhouse
p.1320

Stability Analysis of Rock Pillar between Tunnel and Large-Scale Concealed Cave on Top of Tunnel
p.1325

Stability Analysis of Rock and Effect Evaluation of Supporting Scheme in Tianchi Underground Plant
p.1329

Influence of Vented Tunnel Hood on Aerodynamic Characteristics
p.1340

Determination Minimum Value of Face Support Pressure for Underwater Tunneling with Complex Condition
p.1344

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 256-259Construction Schedule Real-Time Control Coupling...

Construction Schedule Real-Time Control Coupling Construction Quality in Large Scale Underground Powerhouse

Abstract:

Underground powerhouse of hydraulic and hydroelectric engineering is a large cavern group structure. Construction process of underground powerhouse is a complex system, whose construction schedule is associated with construction quality. It is necessary to arrange construction schedule adopting construction simulation method and combining with tunnel stability analysis, which can advance the level of construction organization design. By using real-time control theory and methodology, the real-time control model of construction schedule and quality was established, considering construction procedure, geological conditions and resource limitation. The real-time control method of construction schedule and quality was presented, and the practical control procedure was studied. Good effect is obtained through the application of the real-time control method for construction schedule and quality in one real underground powerhouse.

You might also be interested in these eBooks

View Preview

Info:

Periodical:

Applied Mechanics and Materials (Volumes 256-259)

Pages:

1320-1324

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.256-259.1320

Citation:

Cite this paper

Online since:

December 2012

Authors:

Da Wei Tong*

Keywords:

Construction Quality, Construction Schedule, Construction Simulation, Real-Time Control, Underground Powerhouse

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[1] Babu A.J.G, Suresh N. Journal of Operational Research, 1996, (88), pp.320-327.

Google Scholar

[2] Bbau A.J.G, Suresh N, Project crashing: Modeling and optimization, WDSI Conference Proceeding, 1994, (3), pp.751-755.

Google Scholar

[3] Do Ba Khang, Yin Mon Myint. International Journal of Project Management, 1999, 17(4), pp.249-256.

Google Scholar

[4] Khaled EI-Rayes, Amr Kandil. Journal of Construction Engineering and Management, ASCE, 2005, 131(4), pp.477-486.

Google Scholar

[5] A. Afshar, A. Kaveh, O.R. Shoghli. Asian Journal of Civil Engineering, 2007, 8(2), pp.113-124.

Google Scholar

[6] Wang Jian, Liu Erlie, Luo Gang. Journal of System Engineering, 2004, 19(2), pp.148-153. (In Chinese)

Google Scholar

[7] Liu Xiaofeng, Chen Tong, Zhang Lianying. China Civil Engineering Journal, 2006, 39(10), pp.122-126. (In Chinese)

Google Scholar

[8] Guo jilin, Liu Wei, Wang Yongqing, Pan Jiayi. Nuclear Power Engineering, 2002, 23(3), pp.83-87. (In Chinese)

Google Scholar

[9] Liu Kuijian, Real-time control for construction scheduling of large scale underground structure group, Doctoral Dissertation, Tianjin University, 2007. (In Chinese)

Google Scholar

[10] Zhu Weishen, Wang Ping. Chinese Journal of Rock Mechanics and Engineering, 1992, 11(4), pp.323-331. (In Chinese)

Google Scholar

[11] Li Shucai, Zhu Weishen, ChenWeizhong. Journal of China Coal Society, 1996, 21(4), pp.393-398. (In Chinese)

Google Scholar

[12] Yang Haixia, Liu Zhipeng, Zhuo Jiashou. Journal of Hohai University(Natural Sciences), 2008, 36(6),pp.786-789. (In Chinese)

Google Scholar