Search results

Collection of selected, peer reviewed papers from the 2013 2nd International Conference on Civil, Architectural and Hydraulic Engineering (ICCAHE 2013), July 27-28, 2013, Zhuhai, China.

The 324 papers are grouped as follows:
Chapter 1: Sustainable City and Regional Development;
Chapter 2: Environmental Engineering and Environmental Protection;
Chapter 3: Architectural Design and Its Theory;
Chapter 4: Renewable Energy, Low Carbon, Energy Saving in Building and Research of Urban Living Environment;
Chapter 5: Landscape Planning and Design;
Chapter 6: Urban Planning and Design;
Chapter 7: Transportation Planning, Traffic Control and Logistics Engineering;
Chapter 8: Transportation Machinery;
Chapter 9: Engineering Management and Engineering Education;
Chapter 10: Computer Applications and Information Technologies.

Developing a DMS (Dredged Marine Sediments) Management Framework for Beneficial Reuse in Artificial Land Creation Suaathi Kaliannan1,a*, Chee-Ming Chan2,b, Azeanita Suratkon3,c 1Student, Faculty of Engineering Technology (Civil), Universiti Tun Hussein Onn Malaysia (UTHM) 86400 Parit Raja, Johor, Malaysia 2,3Senior lecturer, Faculty of Engineering Technology (Civil), Universiti Tun Hussein Onn Malaysia (UTHM), 86400 Parit Raja, Johor, Malaysia asuaathikaliannan@gmail.com, bchan@uthm.edu.my, cazeanita@uthm.edu.my Keywords: Dredged marine soils, management framework, artificial land creation, waste Abstract.
Conf. on Advances in Civil, Structural, Environmental & Bio-Technology -- CSEB 201, (2014)
Kikuchi,Solidification of Dredged Marine Clay for Sustainable Civil Engineering Applications : A Laboratory Study,(2012) 27–33
Army corps of engineers new dredging engineer manual “Dredging and dredged material placement” Dredging, Key Technologies for Global Prosperity, 601, (2009),1741–1749
Textile & Engineering Institute ,Ichalkaranji, India, 2014

Manos, Department of Civil Engineering, Aristotle University of Thessaloniki, Greece Conference Committee Chairs Prof.
Shuraim, College of Engineering, King Saud University, Saudi Arabia Prof.
Syh-Shiuh Yeh, Department Mechanical Engineering, National Taipei University of Technology, Taiwan Prof.
Ahmed El-Shafie, Department of Civil Engineering, University of Malaya (UM), Malaysia Associate Professor Tam Chat Tim, Department of Civil and Environmental Engineering; National University of Singapore, Singapore Assistant Professor Dr.
Lourenço, Department of Civil Engineering, The University of Hong Kong, Hong Kong Dr.

Introduction Civil engineering are complicated activity which need a large of people including different specification and different technology[1, 2].
The key to data exchanging is the standard of data. 80’s earlier, for the software AutoCAD become populated in Civil engineering, the DXF format is the main exchanging format between different software which is created by company of Autodesk[5].
IGES format have been supported by many software, for example, the general Civil engineering software SAP2000, general FEM analysis software ANSYS and so on.
As the technology developed in the design of civil engineering, the earlier format DXF and IGES both has the unsolved defect that is could not exchange all the information and difficult to use[6].
CHINA CIVIL ENGINEERING JOURNAL, 2007. 40(2)

The 195 papers are grouped as follows:
Chapter 1: Advanced Materials Engineering, Technologies and Processing;
Chapter 2: General Mechanical Engineering;
Chapter 3: Technology of Design in Machinery;
Chapter 4: Mechatronics, Robotics, Control and Automation;
Chapter 5: Electrical Engineering, Electrical Machines and Apparatus;
Chapter 6: Power System and Energy Engineering, its Applications;
Chapter 7: Electronics and Integrated Circuits, Embedded Technology and Applications;
Chapter 8: Instrumentation, Measurement Technologies, Analysis and Methodology;
Chapter 9: Signal Processing and Data Mining;
Chapter 10: Communication Theory and Systems;
Chapter 11: New Technology and Method in Architecture and Civil Engineering;
Chapter 12: Organization of Production;
Chapter 13: Environment and Environmental Engineering;
Chapter 14: Related Topics.

The Application of Anchor In The Urban Underground Engineering Congshuang Luo Department of Traffic Engineering Henan University of Urban Construction Pingdingshan, China E-mail: lcs@hncj.edu.cn Keywords:The city, The underground engineering, Anchor,The survey, Stability.
Engineering accident bring about heavy losses to people life and property safety.
In order to ensure the safety of the city underground engineering, reduce the damage of the underground engineering and improve the quality of the construction, we should have the study about anchor.
At present, the anchor is mainly used in geotechnical deep foundation pit, tunnel and underground engineering, cultural relic protection, civil engineering and water conservancy project, building surrounding rock reinforcement, slope protection, such as mining underground cavern, mine construction set support alley.
Chinese Journal of Geotechnical Engineering, , Vol .28 (9) : 1144-1147(2006),in Chinese.

Then combing with the irregular-shaped deep excavation of certain civil air defense engineering, a comparatively effective waterproof measure is proposed.
Project Description The West Lake civil air defense engineering of Longting district, Kaifeng is adjacent to many famous scenic tourist attractions, which is thick surrounded by water system.
Hou: Excavation Engineering Manual, China Building Industry Press, Beijing (2005), In Chinese
Horswill: Engineering Geology.
Zhang, et al: Hydrogeology and Engineering Geology. (5) (2000), p. 47.

The objective of AMMSE 2016 is to bring together academics, scientists, engineers, postgraduates and other professionals in the area of material science and engineering technology from all over the world.
Seungho Hong, West Virginia University Assistant Professor in Civil & Environmental Engineering Committees Organizer Prof.
Seungho Hong, West Virginia University Assistant Professor in Civil & Environmental Engineering Associate Editors Prof.
Augusto Cannone Falchetto Technische University Braunschweig, Department of Civil Engineering Prof.
Wistuba Department of Architecture, Civil Engineering and Environmental Sciences Dr.

Uniaxial Compression Tests Research on C35 Glazed Hollow Bead Insulation Concrete ZePingZhanga , FeiQiaob , DiWu, ZhuLi College of Architecture and Civil Engineering of Taiyuan University of Technology in China azzp319@sina.com , bwoshiqiaofei158@sina.com  Keywords: Glazed hollow bead , Insulation concrete , Uniaxial compression test Abstract: With the growing global energy crisis, development of economic and land-efficient construction structural system became an significant subject in Civil Engineering field.
It can be used with thermal insulation, fire protection requirements of civil engineering structures [2].

The reflective LPFGs-in-series sensor was able to successfully yield a comparable liquid-level sensing performance and hopefully could be used in the fields of civil and agronomy engineering applications such as pipes, channels, dams, and deep-ponding paddy fields.
Introduction The primary motivation of this study is to develop and evaluate a light weight and low-cost liquid-level sensor using reflective long-period fiber grating (LPFG), which has the potential for use in civil and agronomy engineering work such as ground water level monitoring for pavement structures or water level control for the increase in crop yield using deep-ponding in paddy fields [1,2].
The reflective LPFGs-in-series sensor was able to successfully yield a comparable liquid-level sensing performance and hopefully could be used in the fields of civil and agronomy engineering applications such as pipes, channels, dams, and deep-ponding paddy fields.