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But the physical prototype production will cost great labor power, material and time, and more unfavorable, the experiment with physical prototype is limited by the growth cycle of the sugarcane, this will undoubtedly increased development costs and extended development cycle.
The researchers can design the virtual prototype of the production by computer, and used it to conduct series experiments of Kinematic and dynamic, which decreased the cost of labor power, material resource and time[2].
The research is supported by: 1. key scientific and technological projects of Department of Science & Technology of Guangxi Zhuang minority Autonomous Region(project NO. 0992002-18) 2. scientists and engineers Serving for the enterprise projects of the ministry of science and technology of china PR(project NO.2009GJE10008) 3.Guangxi Key Laboratory of Manufacturing system and Advanced Manufacturing Technology Project(2007)(project NO.08034) References [1]Zhou JH The research of the small –scale track type sugarcane combined harvester based on virtual prototype technology [D ]:Nanning ,Guangxi University 2004:20-25(I n Chinese ) [2]Xiong GL , Li BH ,Chai XD.
Journal of system Simulation, 2001,13(1):110-117 [3]Zheng JR .ADAMS –ABC and improvement about virtual prototype technology [M].
[D].Beijing: University of Science and technology Beijing ,2002:100-103(In Chinese ) [5]Wang RX .

Application of Image Mosaic Method in the Detection of Grinding Wheel Topography Shengui Huang1,a,Nian Duan1,b,Xiuyu Chen1,c,Xipeng Xu1,d 1MOE Engineering Research Center for Brittle Materials Machining, Huaqiao University, Xiamen, 361021, P.R.
Acknowledgment This research was supported by Grant No.50825505 from the National Natural Science Foundation of China, by Grant No.2010J01296 from the Natural Science Foundation of Fujian Province/China, and by Projects from the Department of Science and Technology in Fujian Province/China (2008H2004).
[7] S.Smith，J Brady．A new approach to low-level image process，International Journal of Computer Vision，1997,23（1）:45-78．

The results obtained can offer theoretical direction and technological base for further optimization of modification process of multi-amino macromolecular materials.
Acknowledgement The authors greatly appreciate the financial supports of the National Natural Science Foundation of China (No.50874087 and No.50978212).
Vol. 236 (2005), p. 617 [5] Ai-qin Wang: Chitin Chemistry (Science Press, China 2008)
[15] Fan Jin shi, Liu Hong tian et al: Journal of Qingdao University of Science and Technology.

Journal Citation (to be inserted by the publisher) Copyright by Trans Tech Publications Impact of Phonon Drag Effect on Seebeck Coefficient in p-6H-SIC: Experiment and Simulation V.
Yakimova 5 1 Institute of Materials Science and Applied Research, Vilnius University, Sauletekio 10, LT-2054 Vilnius, Lithuania, vitalijus.bikbajevas@ff.vu.lt, vytautas.grivickas@ff.vu.lt 2 FB Physik, Martin Luther Univ., 06099 Halle, Germany, stoelzer@physik.uni-halle.de 3 Department of Electronics, Tallinn Technical University, Ehitajate tee 5, 19086 Tallinn, Estonia, audal@va.ttu.ee, evelmre@ttu.ee 4 Solid State Physics, Royal Institute of Technology, Electrum 229, SE-164 40 Kista-Stockholm, Sweden, paulius@imit.kth.se 5 Department of Physics and Measurement Technology, Linköping University, SE-581 83 Linköping, Sweden, msy@ifm.liu.se, roy@ifm.liu.se Keywords: p-6H-SiC, Seebeck coefficient, phonon drag effect Abstract.
Acknowledgment The SiCEP program, the Royal Swedish Academy of Sciences, the Swedish Institute Visby program and the Estonian Science Foundation (grant 5180) are acknowledged for financial support.

Optimization of Aflatoxin Production of Aspergillus Flavus on peanuts Zhang Chushu1, Sun Jie1, Yu Lina1,Bi Jie, Feng Jianxiong2,Yang Qingli1 * (1 Shandong Peanut Research Institute, Qingdao 266100, China. 2 Jiangxi Academy of Agricultural Sciences, Nanchang, 330200) Key words: Peanut; Aspergillus Flavus; Aflatoxin Production; Response surface methodology Abstract: To optimize aflatoxin production of Aspergillus flavus on peanut, the response surface methodology were applied based on previous experiment.
Materials and methods 2.1 Isolation and identification of Aspergillus flavus Strains of A. flavus were isolated from peanut-cropped soil collected from different provinces of China by dilution coating on modified rose Bengal agar (M-RB).
Acknowledgments This work was supported by the National Scientific Support Program Project (2012BAK17B13), the Qingdao People's Livelihood Science and Technology Project (13-1-3-71-nsh), and the National Natural Science Foundation of China (31100205), China.
Official Journal of the European Communities, 1998, 201:43-46

Legal system of standard about anaerobic fermentation engineering’s building and operation isn’t perfect, what make contract to build cheating on workmanship and materials, and influencing anaerobic fermentation engineering using effect.
Increase science and technology injection.
Wang et al: Jiangsu Agricultural Sciences, vol. 35 (2008) no. 1, p. 225-227.
Gu: Shandong Journal of Animal Science and Veterinary Medicine, vol. 159 (2010) no. 4, p. 67-68.

LDCS not only has the advantages of high accuracy, high resolution and high tomography, but also has the ability of bipolar absolute and accuracy tracing as well as aiming measurement, which is widely used for optical components detection, microelectronics manufacture, materials science, precision measurement and other fields [2-5].
Acknowledgments Thanks for the support of Natural Science Association Foundation of China (No.11076004), National Science Foundation of China (No.60927012) and National special development foundation of China for significant scientific instruments (No.2011YQ040136) for support.
Vol.32 (2007), p.1743 [6] Information on http://www.zeiss.de/lsm [7] Information on http://china.keyence.com/products/microscope/laser/laser.php [8] Xiaoying Zhou, Junping Su and Jian-hua Zhang: Journal of Mechanical Engineer.Vol.6(2010), p.1 (In Chinese) [9] Rilong Liu and Dekui Yin: Semiconductor Optoelectronics.

The Status Index Recognition and Screening Matrix Table Project phase Project activities The recognition of influence degree Natural resources Natural environment Social environment mineral resources animal and plant resources land resources water environment acoustic environment vibration Electro- magnetism Atmos- phere solid waste land- scape the local economy monuments The recognition of influence degree Ⅲ Ⅰ Ⅱ Ⅱ Ⅱ Ⅱ Ⅱ Ⅰ Ⅱ Ⅲ Ⅰ Ⅲ High-speed Railway construction period land requisition and demolishing Ⅲ -S -S -S Ⅱ -S -S -S -S construction of temporary works Ⅲ -S -S -S -S storage and transportation of construction materials Ⅲ -S -S -S -S -S earth and rock works Ⅱ -S -S -S -S +S -S subgrade protection works Ⅱ +S +S +S station building project Ⅲ +S +L -S -S -S +L +S -S afforestation and restoration project Ⅱ +S +S +S +S construction workers living Ⅲ -S -S -S -S +S operation period train operation Ⅱ - S - S -S +L station drainage
Acknowledgement The work is supported by the grant from the Humanities and Social Science Fund Project (11YJAZH121) of the Ministry of Educations, The Soft Science Research Project of Hebei Province (13456236D) and The High Level Talents Support Project of Hebei Province.
Journal of Peking University (natural science edition), 2011, 47(3):552-560

Acknowledgment The subject is sponsored by National Natural Science Foundation of China (50675184) and National Hi-Tech Research and Development Program of China (863 Program) (2007AA04Z308).
Materials today (2006), pp 40-50
Bulletin of the polish academy of sciences technical sciences (2005), pp 385-394
Journal of Applied Physics (2001), pp 3018-3026 [8] Sureeporn Koombhongse.

With double-layer insulation cover, it can significantly reduce the thermal radiation heat loss of hot pot .The lower the absorption rate of insulation cover material is, the thermal radiation loss will be smaller.
The material of metal radiation grid adopts strings of electric stove, and because the strings are spiral shape and are arranged compactly, thus the heating area will be larger than ceramic plate.
Acknowledgements This work was financially supported by the Hunan Natural Science Foundation (07JJ5069) and the Municipal mutual funds projects of Hunan natural science (09JJ9011), the third College Students' Research-type Learning and Innovation Experimental Projects.
(In Chinese) [4] Mingqin Fu, Wenling Jiao, Xuesi Meng: Urban Management Science and Technology, Vol.1, 1999, 31-37.
(In Chinese) [5] Tingzhe Nie, Changgui Duan, Shanbin Li: Journal of Harbin University of C.E. & Architecture, Vol.35, 2002, 77-80.