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Trend Analysis of China Flood Disaster and Challenges in the Future Liu Jianfen1,2, a, Zhang Xingnan1,3,b , Wang Huimin4,c 1 National Engineering Research Center of Water Resources Efficient Utilization and Engineering Safety, Hohai University, Nanjing, China 2 Nanjing Hohai Science and Technology Co Ltd.
Materials and Methods Study areas and data collection China is a country with frequent floods from ancient periods, caused by its complicate topology, higher in western regions, lower in eastern regions, consisting of three kinds of terraces, and precipitation variance at different seasons in a common, heavy or scare year.
Fig. 2 Progressive and retrograde series of Flood Damage (1950-2010) Acknowledgements This study was financially supported by National Natural Science Foundation of China (No. 41030636), the Non-profit Industry Financial Program of the Ministry of Water Resources of China (No. 200801027), National High-tech Research and Development Project of China(863) ( No. 2012AA12A309).
Journal of Hohai University (Natural Science), 32:14-17(in Chinese)

Acknowledgment The author would like to thank 《Advanced Materials Research》for providing this chance.
Financial support for this project was obtained from Natural Science Foundation of Fujian Province (2010J01327), Fujian Provincial Key Laboratory of Photonics Technology and Fujian Education Department Technology Foundation (JB07040), which are greatly acknowledged, and big thanks go to all colleagues who previously provided technical support.
Duan: Automatic Machine for Face Recognition (Science Publications, China 2008), pp.91-92 (In Chinese)
Wang: Research of automatic face recognition algorithm based on statistical learning (PhD thesis, University of science and technology, China 2007), pp.30-341 (In Chinese)
Li: Chinese Journal of Scientific Instrument, Vol.26 (2005), No.8, pp.412-415.

In this study, enhanced landfarming experiment was performed for efficiency evaluation by addition of mixed microbial inocula (isolated bacteria or sludge), addition of rice husks as bulking agent, and addition of organic materials (kitchen waste compost).
Morelli: Journal of Environmental Science and Health, Part A: Toxic/Hazardous Substances and Environmental Engineering.
Mccarthy: Environmental Science and Technology.
Department of Biological Science, National Sun Yat-Sen University, Kaohsiung, Taiwan, 2008

The sample materials were as such: 1.The construction of sample interview The investigation team carefully selected 16 on-the-job graduates in southern China area as the interview objects.
Jiao, in: The report on Chinese college graduates in 2012, Social Science Document Publishing House，2012
Xiaoming, in: Employment Competence Theory, Journal of China Youth University for Political Science, 2002, ( 3): 91- 92
Zhonglin, C.zijuan, in: Structural Equation Model and Its Applications, Beijing: Educaitonal Science Press (2004)

Acknowledgment The author acknowledge support from the Ministry of Science and Higher Education through Project ON501312638 conducted in the years 2010-2013.
Solid State Phenomena, vol.180, Mechatronics System, Mechanics and Materials, Trans Tech Publications Ltd, Switzerland 2012, ISBN-13: 978-3-03785-274-3, p.269-280 [4] Dziopa Z.: Modelling the Dynamics of Missile Launcher Based Onboard the Warship.
Journal of Theoretical and Applied Mechanics.
Science, Moscow 1967 [14] Svietlickij V.A.: Dynamics of the Flying Machines Take-Off.
Science, Moscow1963

., Qualimetric examination in the condition of urban areas evaluating, Internet Journal «Construction of Unique Buildings and Structures», 7 (12) (2013)
[7] Simankina, T.L., Popova, O.N., Neural Network Application for Scheduling of Building Constraction Repair, Applied Mechanics and Materials,  201, No Vols. 584-586, pp. 1944-1950, Information on http://www.scientific.net/AMM.584-586.1944 (date of browsing: 17.09.2014)
[9] Popova, O.N., Scheduling of construction works on the basis of technology elementwise operation using dynamic programming of physical deterioration, Digital scientific magazine «Modern problems of science and education». 1 (2014), Information on http://www.science-education.ru/115-12225  (date of browsing: 19.03.2014)
[11] Popova, O.N., Method scheduling repairs of residential buildings on the basis of their structural analysis, Dissertation of the candidate of technical sciences, St.

Environmental Risk Assessment and Environmental Management of Waste Organic Solvents in Electronics industry Ruxuan NIU1a, Yingqun MA1b, Qunhui WANG1, 2c, Bo YUE3d, Yufei YANG3e, Hongzhi MA1f 1 Civil and Environmental Engineering Scholl, University of Science and Technology Beijing, Beijing 100083, China 2 Beijing Key Laboratory on Resource-oriented Treatment of Industrial Pollutants, Beijing 100083, China 3 Chinese Research Academy of Environmental Science, Beijing 100021, China anrx1987@163.com bmayq0922@163.com cwangqh59@sina.com (corresponding author) dyuebo@craes.org.cn ecqyyf@163.com fmhz527@sina.com Keywords: Electronics industry; Waste organic solvents; Environmental risk assessment; Environmental management; Abstract.
Solid wastes are mainly included waste reagent bottle containers, waste ink tank, waste packaging materials, factory office waste, wastewater treatment sludge, waste silicon slag, waste glass, liquid crystal cell waste, waste resin powder, scrap circuit boards, electronic components waste, scrap tin slag, paint residues, etc.
Acknowledgement This work was financially supported by the National Environmental Protection Public Welfare Science and Technology Research Program of China (Project No.201309023) .
Chinese journal of industrial hygiene and occupational diseases, 2010, May, NO.28-5

For the construction of conservation-oriented campus, Construction and Science and Technology Department of the Ministry of Housing and Urban-Rural Development of the People’s Republic of China and Development and Planning Department of the Ministry of Education of the People’s Republic of China authorize Tongji University, Tianjin University, Chongqing University and Shenzhen Institute of Building Research to compile the Guidelines of Constructive Technology of Campus Building Energy Saving Supervisory System for Colleges and Universities, which is referred to as a guide rule.
The construction wall materials with low thermal conductivity can be used in the buildings [5].
Color figures are welcome for the online version of the journal.
References [1] Zhiguo huang: Exploration and Realization of Campus Architecture Energy Conservation Supervision System (Ningxia Engineering Technology, China 2011) In Chinese [2] Li Wan, and Peng Wang: Design and Application of Energy Conservation Monitoring System for Campus Buildings (Building Electricity, China 2010) In Chinese [3] Lanbin Liu: Energy Saving Supervision of Campus Building for Tsinghua University (Construction Science and Technology, China 2010) In Chinese [4] Konstantinos P.
Lighting (Renewable and Sustainable Energy Reviews, England 2012) [7] Hongwei Tan: The Demonstration University of “Conservation-Oriented Campus Construction” for the First Batch—the Demonstration of Conservation-Oriented Campus Construction for Tongji University (Construction Science and Technology, China 2009) In Chinese [8] Tongji University, Tianjin University, Chongqing University and Shenzhen Institute of Building Research: The Guidelines of Constructive Technology of Campus Building Energy Saving Supervisory System for Colleges and Universities (2009) In Chinese

Acknowledgments This material is based upon work funded by Zhejiang Provincial Natural Science Foundation of China under Grant No.Q12E010012 and Wenzhou Science and Technology Project under Grant No.2010G0307 and Funded Project of Zhejiang Provincial Education Department under Grant No.Y201122702.
Journal of Functional Materials. 1996, 27: 392 [5]J Y Zou, L Yan, Z Y Chen, et al.

Therefore, to improve safety on the work site, such conditions must be detected before an accident occurs [5].The physical aspects of safety on construction sites cover the unsafe work conditions could be summarized as follows [5]: 1) Fire prevention 2) Housekeeping 3) Scaffold/mobile tower 4) Sandblasting 5) Cartridge operated tools 6) Power tools/machine and equipment 7) Excavation 8) Heavy equipment 9) Concrete formwork 10) Gas/electric welding 11) Health and welfare 12) Compressed gas 13) Transportation 14) Air compressors 15) Cranes and lifting devices 16) Safety administration 17) Temporary electric 18) Special items Furthermore Poon, Wang and Zhang [4] have proposed following items from a safety point of view on the construction site: 1) Civilized construction site 2) Scaffolding 3) Excavation supports and formwork 4) Personnel protective equipment and protection at openings 5) Use of electrical appliances 6) Material hoist and external lift
Engineering means selection of techniques and material which are generally included design and technical specifications on the basis of strategic decisions and organizational policies of construction projects.
Hadikusumo, Critical success factors influencing safety program performance in Thai construction projects, Safety Science, vol. 46 (2008), pp. 709-727
Fong, Factors affecting performance on construction sites, International Journal of Project Management, vol. 17, no. 5 (1999), pp. 309-315
Assaf, Safety assessment in the built environment of Saudi Arabia, Safety Science, vol. 29 (1998), pp. 15-24