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Establishing Key Integration Factors for Integrating Engineering and Sustainability Kuan-Pei Lee1,a,Andrew S.
Chang1,b 1 Department of Civil Engineering, National Cheng Kung University, No.1, University Road, Tainan City 701, Taiwan arainier@tsu.edu.tw, banschang@mail.ncku.edu.tw Keywords: key integration factor, engineering, sustainability.
Integration Case Studies An increasing need to integrate opinions from different stakeholders is found in recent engineering projects.
“Mechanism for Integrating Sustainability in Engineering Design.”
Journal of Civil Engineering and Architecture, 5(1) (2011)p. 48-55

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.

The research and its related activities integrated and coordinated multidisciplinaries, like the hydraulic engineering, civil engineering and other disciplines.
The aims should be fullfiled by the ecological landscape design theories and technique methods, hydraulic engineering, civil engineering, environment engineering and other disciplines, to enhance the comprehensive control of soil and water conservation situation together.
Engineering design contents.
Water supply engineering, which is water supply system and related water conservation project in scenery.
Conclusions It is difficult to conduct the ecological landscape projects on the hill and gully regions of Loess Plateau, because it needs great research and analysis works, and has to combine the environment engineering, civil engineering, hydraulic engineering together to complete.

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

Ground Source Heat Pump And Conventional Heat Sources To Match The Design And Operation Mode For Energy Saving Lei Sun1, a, Jiafu Xiao2, b, Chunyu Ran3, c, Liyun Zhang3, d 1Finance department, Jilin Architectural and Civil Engineering Institute, Changchun, 130118, China 2Command College of Chinese People’s Armed Police Forces 3College of Civil and Environmental Engineering, Jilin Architectural and Civil Engineering Institute, Changchun, 130118, China a, 597264920@qq.com, bxiaojiafu15@sohu.com, cranchunyu@hotmail.com, dzhangliyun86@126.com Key words: Ground-source heat pump and conventional heat source composite system; Dest - h software; economic and technical analysis Abstract:According to China's current energy present situation, the use of renewable energy, saving energy and reducing consumption has become the energy industry development should follow the basic principles.
In this paper the soil source heat pump and conventional heat source matching design and operation mode research, from the matching design principle chart, operation mode, the practical engineering application, economic and technical analysis into consideration, it is concluded that the soil source heat pump and conventional heat source composite system can be applied and research.
Engineering example for ground-source heat pump and conventional heat source design of complex systems, the project name is original Club ground-source heat pump in a University in Changchun City reconstruction project.
Simplified engineering situation is as follows.
For the choice of conventional heat source, the project should be based on local fuel resources, engineering needs and the economic and technical analysis to determine.

Shihab1,c 1Department of Civil Engineering, University of Diyala, Baqubah, Daiyla, Iraq.
The civil engineering projects that includes soft clay within its activities has a serious concern of hazards, such hazards can be overcame by treating the existing soils by certain materials which are named as "stabilizers".
Table (3.1) lists some of the geotechnical properties of soil which were tested in university of Diyala, college of engineering of civil engineering department laboratories.
Brenner, Soft Clay Engineering, Elsevier, Amesterdam, Netherlands, 1981
Engineering Geology , 42(4), (1996), pp. 223–237

., Head of the Intelligent Systems Laboratory Russia, Moscow, Moscow state university of civil engineering, Yaroslavskoe shosse 26 1volkov@mgsu.ru, 2chelyshkovpd@mgsu.ru, 3sedovav@mgsu.ru Keywords: simulation, scenario modeling, mathematical model, security.
The impact of each of the scenarios on the building is modeled using computerized mathematical model of engineering systems in buildings.
[3] Volkov, A., General Information Models of Intelligent Building Control Systems / In Computing in Civil and Building Engineering, Proceedings of the International Conference, Nottingham, UK, Nottingham University Press, [текст] // 2010, Paper 43, p. 8
In Abstract Volume, 14th International Conference on Computing in Civil and Building Engineering (14th ICCCBE).
-Moscow: Moscow State University of Civil Engineering (National Research University), 2012. - pages 518-519.

Petr Maca1,b 1Czech Technical University in Prague, Faculty of Civil Engineering, Experimental Centre, Czech Republic amichal.mara@fsv.cvut.cz, bmacapetr@fsv.cvut.cz Keywords: Strain rate, dynamic increase factor (DIF), fracture surface, crack, 3D scanner Abstract.
Reverse engineering is a specialization which was developed a lot in the 21st century.
Reverse engineering in civil engineering is used to describe the applied loadings which caused corruption or failure of a structure or it is used to reconstruct 3D models of the original object.
Quasi-static loading tests were made at CTU, Experimental Centre of Faculty of Civil Engineering, Prague and we were used the same number of specimens as we used for the impact loading test.
These data were exported into a software program AutoCAD Civil 3D which is able to work with a large amount of points.

Collection of selected, peer reviewed papers from the 2013 International Conference on Vehicle & Mechanical Engineering and Information Technology (VMEIT 2013), August 17-18, 2013, Zhengzhou, Henan, China.

The 1094 papers are grouped as follows:
Chapter 1: Design and Researches in Area of Vehicle and General Mechanical Engineering;
Chapter 2: Mechatronics, Automation and Control;
Chapter 3: Measurement and Instrumentation, Monitoring and Detection Technologies, Fault Diagnosis;
Chapter 4: Computation Methods and Algorithms for Modeling, Simulation and Optimization, Data Mining and Data Processing;
Chapter 5: Information Technologies, WEB and Networks Engineering, Information Security, Software Application and Development;
Chapter 6: Power and Electric Systems, Electronics and Microelectronics, Embedded and Integrated Systems;
Chapter 7: Communication, Signal and Image Processing, Data Acquisition, Identification and Recognition Technologies;
Chapter 8: Information Technologies in Urban and Civil Engineering, Medicine and Biotechnology;
Chapter 9: Material Science and Manufacturing Technology;
Chapter 10: Information Technology
in Management Engineering, Logistics, Economics, Finance, Assessment;
Chapter 11: Related Themes.

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.