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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

Carbon fiber (CF) is an essential functional material focused on widely, especially in civil engineering.
Introduction Structure health monitoring (SHM) is an essential problem widely studied in civil engineering[1].
Application of piezoelectric materials in structual health monitoring of civil engineering structures[J].
Sensor characteristics of carbon fiber mat .Key Engineering Materials, 2006,v 326-328 II：1451-1454

Introduction Thin-walled steel sections are widely used in various fields of industrial and civil engineering [1-6, 39].
The finite elements for design of building walling made of thin-walled beams (2011) Magazine of civil engineering, 8(26), pp. 69-80
The finite elements research for calculation of thin-walled bar (2012) Magazine of civil engineering, 1(27), pp. 53-73
A new version, new features] (2009) Magazine of Civil Engineering, 2, pp. 10-12.
Designing of flanged joints of frame structures (2010) Industrial and Civil Engineering, 2, pp. 33-37

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.

Preface SREE Workshop on Applied Mechanics and Civil Engineering (AMCE) aims to bring together academic scientists, leading engineers, industry researchers and scholar students to exchange and share their experiences and research results about all aspects of applied mechanics and civil engineering, and discuss the practical challenges encountered and the solutions adopted.
AMCE 2011 aims to provide a forum for theoretical and technical exchanges regarding the advanced theories, methodologies and techniques about all aspects of applied mechanics and civil engineering.
AMCE 2011 received about 230 submissions, which are involved in the fields as follows: a)applied mechanics; b)architecture; c)hydraulic engineering; d)environmental engineering and safety; e)mechanical engineering and instrumentation; f)civil engineering; g)transportation engineering. 77 selected papers are published in the AMCE 2011 proceedings, which are divided into five topics: applied mechanics; civil engineering; hydraulic engineering; environmental engineering and safety; others.
Sponsor Sponsored by Society for Resources, Environment and Engineering（SREE）

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.

Selected, peer reviewed papers from the Second International Conference on Engineering and Technology Innovation 2012, November 2 - 6, 2012, Kaohsiung, Taiwan ROC.

The papers are grouped as follows:
Chapter 1: Materials Engineering and Processing Technologies of Materials;
Chapter 2: Machine Parts and Mechanisms: Design and Manufacturing;
Chapter 3: Energy and Power Engineering;
Chapter 4: Architecture, Civil and Industrial Engineering;
Chapter 5: Environmental Sciences and Engineering;
Chapter 6: Medical Machinery and Technologies, Innovative Developments;
Chapter 7: Sensors, Mechatronics and Robotics;
Chapter 8: Automation and Control;
Chapter 9: Electronics, Electrical Engineering and Power Electronics;
Chapter 10: Communication, Optoelectronics and Optical Systems;
Chapter 11: Methods and Algorithms for Processing and Analysis of Data;
Chapter 12: Computer and Information Technologies;
Chapter 13: Innovation Management, Product Design and Engineering Management.

The issue is a platform for presenting cutting edge fundamental research in chemistry and physics of materials and processes associated with fast chemical processes, frontal high energy reactions, supersonic reactions, ageing, thermal decomposition and mechanical damage of energetics, as well as utilisation and safety of energetic materials, new materials for anti-terroristic activity, new materials for space transportation systems, new technologies of energetic materials in medicine, forensic, mining and civil engineering Steel, Alloys, Ceramics, Composites, Polymers, Surface, Coatings, Welding, Plating, Sintering, Plasma Treatment, Extrusion, Machinability, Extraction, Bacterial Resistance, Building Materials, Concrete, Brick, Wooden Components, Pile, Soil Failure, Structures, Mechanical Properties, Pavement, Mineral Processing, Flotation, Environmental Engineering, Water Quality, Groundwater, Soil Remediation

Preliminary Qualitative Findings: Challenges in Large Infrastructure Projects Towards Development of Innovative Performance Measurement Md Asrul Nasid Masrom1, a *,Mohd Hilmi Izwan Abd Rahim2,b, Sulzakimin Mohamed3,c and Riduan Yunus4,d 1,2,3Faculty of Technology Management and Business UniversitiTun Hussein Onn 86400 Parit Raja, BatuPahat, Johor, Malaysia 4Faculty of Civil Engineering and Environment UniversitiTun Hussein Onn 86400 Parit Raja, BatuPahat, Johor, Malaysia aasruln@uthm.edu.my, bhilmi.uthm@gmail.com, czakimin@uthm.edu.my driduan@uthm@edu.my Keywords: Challenges; Large Infrastructure; Performance Measurement, Qualitative Abstract.
Interview sessions were involved ten experience respondents that were purely selected from civil engineering background.
Details of Respondents Respondent Position Background Experience Type of Project R1 Assistant Director Masters in Civil Engineering 20 Years University R2 Assistant Director Degree in Civil Engineering 18 Years University R3 Civil Engineer Degree in Civil Engineering 10 Years Building R4 Civil Engineer Masters in Civil Engineering 10 Years Water front R5 Engineer Degree in Civil Engineering 5 Years Residential R6 Project Engineer Professional Engineer (Ir) 17 Years University R7 Civil Engineer Degree in Civil Engineering 6 Years Electric Power Station R8 Project Engineer Degree in Civil Engineering 11 Years Road Construction R9 Project Engineer Degree in Civil Engineering 13 Years Road Construction R10 Civil Engineer Degree in Civil Engineering 6 Years Residential Data collected from interview was analyzed using content analysis.
Sturup, Megaprojects and Governability, World Academy of Science, Engineering and Technology, 54, 2009
Built Environment Research Unit School of Engineering and Built Environment.

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.