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Online since: November 2011
Authors: Jun Xu, Chun Mei Gao
., which is subject to such issues as weak quantitative and qualitative analyses and waste of material resources, etc.
[3] Ma Xiangdong, “Important issues on the preparation of environmental sanitation facilities planning”, Science, p. 760
[5] Zhou Gang and Xie Zhiying, “Study on the rural living environment infrastructure construction of new countryside”, Journal of Anhui Agricultural Sciences, pp. 13864–13865
[3] Ma Xiangdong, “Important issues on the preparation of environmental sanitation facilities planning”, Science, p. 760
[5] Zhou Gang and Xie Zhiying, “Study on the rural living environment infrastructure construction of new countryside”, Journal of Anhui Agricultural Sciences, pp. 13864–13865
Online since: May 2007
Authors: K. Jia, S. Liu, H.H. Zhang, X.Q. Fan, X.P. Jiang
Liu
1
1
Institute of Micro-Systems, Huazhong University of Science and Technology,
Wuhan, 430074, China
a
iake_hust@163.com
Keywords: Lotus effect, Microchannel, Molecular dynamics simulation
Abstract.
Furthermore, high-precise measuring instruments probably cost huge human and material resources, and even cannot guarantee to meet the requirement of experiments.
Acknowledgement The National Natural Science Foundation of China under the NSFC Program #50475137 and the National Research Fund for the Doctorate Program of Higher Education under the program #20040487026 supported this work.
Kim: AIChE Journal, Vol.47 (2001), pp.1250
Furthermore, high-precise measuring instruments probably cost huge human and material resources, and even cannot guarantee to meet the requirement of experiments.
Acknowledgement The National Natural Science Foundation of China under the NSFC Program #50475137 and the National Research Fund for the Doctorate Program of Higher Education under the program #20040487026 supported this work.
Kim: AIChE Journal, Vol.47 (2001), pp.1250
Online since: August 2012
Authors: Hong Wan, Jun Fen Yang, Ruo Hui Qiang, Yi Liang Peng
Fig.4 shows constitutive relation to the multi-linear hardening model, Poisson's ratio is 0.3, elastic modulus, yield strength, tensile strength with the material test.
Acknowledgements This work was financially supported by the Shanxi Natural Science Foundation (2011JQ7008), the Special Research Foundation (11JK0965) from the Education Institution of Shaanxi, and the Fundamental Research Foundation (JC1105) from Xi’an University of Architecture & Technology.
Journal of Nanjing university of technology (Natural Science edition). 30(1) (2008) 92-96
Acknowledgements This work was financially supported by the Shanxi Natural Science Foundation (2011JQ7008), the Special Research Foundation (11JK0965) from the Education Institution of Shaanxi, and the Fundamental Research Foundation (JC1105) from Xi’an University of Architecture & Technology.
Journal of Nanjing university of technology (Natural Science edition). 30(1) (2008) 92-96
Online since: May 2012
Authors: Yue Wu, Xin Hai Li, Dong Xiang Hu
Research on the Space linking up Changsha-Zhuzhou-Xiangtan under the Background of Environmental-Friendly Society
Dongxiang Hu1, a, Yue Wu1 and Xinhai Li2
1 Hunan University of Science and Technology, Xiangtan , Hunan 411201 China
2 Xiangtan Urban Planning department, Xiangtan,Hunan 411100 China
ahdx71@163.com
Keywords: Environment-Friendly; CZT city group; open-space
Abstract.
It is rigidly controlled that urban sprawl and human activity erodes ecological pattern of natural landscape.So,diversity should be kept in the landscape construction of the space.Artificial landscape is guided to develop in the direction of natural succession so that the space of harmonious between man and nature is formed.: Extend for cultural vein Landscape planning of the space linking up three cities is to produce a living leisure space with beatiful surroundings and distinct features by controlling and molding material form which becomes the idyllic joint tie of CZT city group.Natural landscape maintaines the model of mountain-water which can preserve continuously green.
Journal of Central South Forestry University,2006(6).p.110 [2] X.C.Nie.Land & Resources Herald,2006(3).p.152
(Beijing:Science Press,China 2003)
It is rigidly controlled that urban sprawl and human activity erodes ecological pattern of natural landscape.So,diversity should be kept in the landscape construction of the space.Artificial landscape is guided to develop in the direction of natural succession so that the space of harmonious between man and nature is formed.: Extend for cultural vein Landscape planning of the space linking up three cities is to produce a living leisure space with beatiful surroundings and distinct features by controlling and molding material form which becomes the idyllic joint tie of CZT city group.Natural landscape maintaines the model of mountain-water which can preserve continuously green.
Journal of Central South Forestry University,2006(6).p.110 [2] X.C.Nie.Land & Resources Herald,2006(3).p.152
(Beijing:Science Press,China 2003)
Online since: May 2012
Authors: Yue Liang, Peter Scales, Wei He, Zhe Kun Li, Yu Jin Fan
The development and applications of microbubble generators especially for wastewater treatment
Wei He1,a, Zhekun Li1,2,b, Yujin Fan1,c Yue Liang2,d and Peter Scales3,e
1School of Mechanical and Electrical Engineering, Kunming University of Science and Technology (KUST), Kunming 650093, China
2School of Adult Education, KUST, Kunming 650093, China
3Department of Chemical and Biomolecular Eng., The Univ. of Melbourne, VIC. 3030, Australia
ahw_big@126.com, bzhekunlikust@sina.com bzhekun.li@unimelb.edu.au (Corresponding Author), cfanyujin@public.km.yn.cn, dliangy@kmust.edu.cn epeters@unimelb.edu.au
Keywords: Microbubble Generators, Development Tendency, Analysis Method, Water Treatment
Abstract.
There is some porous media material installed on the both sides of the vertical tube, and the structure is simple.
Acknowledgements This work was sponsored by China Natural Science Foundation project (No. 51168020) and KUST.
International Journal of Mineral Processing.
There is some porous media material installed on the both sides of the vertical tube, and the structure is simple.
Acknowledgements This work was sponsored by China Natural Science Foundation project (No. 51168020) and KUST.
International Journal of Mineral Processing.
Online since: October 2011
Authors: Fu Min Bao, Jian Qi Zhang, Mo Han Li
The practical running results show that the control system realizes automatic running and adapts to worksite production environment safely, steadily and greatly, thus meets all kinds of production requirements and greatly saves labor force and material resources.
[2] Su Tianyu, Chen Zhen, Liu Jinyong, Wang Yan, “Discussion on Automatic Stereo-warehouse,” Journal of Shenyang Institute of Engineering(Natural Science), vol.04, pp.391-392, April 2007
[4] Yang Jing,Gu Zhansong, ”The Overview and Application of CC-Link Network,” Electrical Automation, vol.01, pp.23-25, January 2005 [5] Yang Jian, Yuan Hao,” Design of industrial control system base on MITSUBISHI Q-PLC,” Laboratory Science, vol.02, pp.11-14, February 2010
[2] Su Tianyu, Chen Zhen, Liu Jinyong, Wang Yan, “Discussion on Automatic Stereo-warehouse,” Journal of Shenyang Institute of Engineering(Natural Science), vol.04, pp.391-392, April 2007
[4] Yang Jing,Gu Zhansong, ”The Overview and Application of CC-Link Network,” Electrical Automation, vol.01, pp.23-25, January 2005 [5] Yang Jian, Yuan Hao,” Design of industrial control system base on MITSUBISHI Q-PLC,” Laboratory Science, vol.02, pp.11-14, February 2010
Online since: December 2012
Authors: Guang Yong Wang, Lian Wei Ren, Jia Qi Guo
Based on the cave position, the mechanical analysis of corresponding water-inrush is conducted;
(3) rock between tunnel and cave is homogeneous and continuous isotropic elastic material, meantime, its formation meets small deformation theory.
Acknowledgements This work was financially supported by National Natural Science Foundation of China(50978018) and the Opening Project of Key Laboratory of Deep Mine Construction, Henan Polytechnic University(2011KF-02).
Chinese Journal of Geotechnical Engineering, 2003, 25(3):629-633 (In Chinese) [9] JiaqiGuo.
Beijing: Science press, 2010 (In Chinese)
Acknowledgements This work was financially supported by National Natural Science Foundation of China(50978018) and the Opening Project of Key Laboratory of Deep Mine Construction, Henan Polytechnic University(2011KF-02).
Chinese Journal of Geotechnical Engineering, 2003, 25(3):629-633 (In Chinese) [9] JiaqiGuo.
Beijing: Science press, 2010 (In Chinese)
Online since: December 2012
Authors: Tao Guan, Bing Yu Ren
The simulation entities and scene entities are defined as follows:
class SimEntity //Simulation entities
{
CID entityID; //Entity ID
State sim_state; //Simulation entity state
Property sim_pro; //Simulation property
Void ProcessLogic(); //Simulation logical calculation
Void ProcessScene(); //Process the entity
}
class SceneEntity //Scene entities
{
CID entityID; //Entity ID
Geometry shape_geo; // Model shape definition
Color shape_col; // Model Texture material data
Position shape_pos; // Model position calculation
void ProcessPos(); // Drawscene entity position
void ProcessShape(); // Draw scene entity
}
With the common entity ID, the simulation entity changes as the simulation result real-timely.
Acknowledgements This work was financially supported by the Foundation for Innovative Research Groups of the National Natural Science Foundation of China (No. 51021004), Tianjin Research Program of Application Foundation and Advanced Technology (No. 12JCZDJC29200) and “Twelfth Five-Year Plan” National Science &Technology Support Plan Key Project (No. 2011BAB10B06).
References [1] Zhong Denghua, Wu Kangxin: Journal of Tianjin University Vol40 (8), (2007), p.976 [2] David Heesom, Lamine Mahdjoubi: Construction Management and Economics Vol.22 (2), (2004), p.171 [3] Yang Zhang, Simaan M.
Acknowledgements This work was financially supported by the Foundation for Innovative Research Groups of the National Natural Science Foundation of China (No. 51021004), Tianjin Research Program of Application Foundation and Advanced Technology (No. 12JCZDJC29200) and “Twelfth Five-Year Plan” National Science &Technology Support Plan Key Project (No. 2011BAB10B06).
References [1] Zhong Denghua, Wu Kangxin: Journal of Tianjin University Vol40 (8), (2007), p.976 [2] David Heesom, Lamine Mahdjoubi: Construction Management and Economics Vol.22 (2), (2004), p.171 [3] Yang Zhang, Simaan M.
Online since: December 2014
Authors: Yi Jun Ji, Tan Zhu, Guo Zhu Huang, Tie Wen, Jun Hu
Exploring ecological land reclamation to Promote the ecological civilization construction in China
GuozhuHuang1, a,Tan Zhu1,b,Jun Hu2,c andTieWen2,d,Yijun Ji1,e
1College of Environmental Science and Engineering, Nankai University, Tianjin, China
2Tianjin Harbor Industrial Area Development Co., Ltd.
In recent years, technology and equipment modernization and make reclamation easily[4]. 1.1marine environmental protection consciousness is not strong, blind reclamation is serious In recent years, lots of cities implemented land reclamation projects,which much manpower, material resources to fill the large bay and the sea, without considering the consequences of the blind "reclamation".
[8]Ni JR, Qin Huapeng.Reclamation of intertidal wetland habitat loss, impact assessment [J].Journal of Environmental Science, 2003,23 (3) :345-349.
In recent years, technology and equipment modernization and make reclamation easily[4]. 1.1marine environmental protection consciousness is not strong, blind reclamation is serious In recent years, lots of cities implemented land reclamation projects,which much manpower, material resources to fill the large bay and the sea, without considering the consequences of the blind "reclamation".
[8]Ni JR, Qin Huapeng.Reclamation of intertidal wetland habitat loss, impact assessment [J].Journal of Environmental Science, 2003,23 (3) :345-349.
Online since: September 2014
Authors: Chao Yi Tan, Hai Hua Hu, Hui Zhu, Han Qing Wang, Gang Chen
Determination of the maximum length of the cooling pipeline used in the District Cooling System
Chaoyi Tan1, 2, a, Hui Zhu3 and Haihua Hu1, 2, Gang Chen4, Hanqing Wang1, 2, b
1 College of Civil Engineering, Hunan University of Technology, Zhuzhou, China, 412007
2 Collaborative Innovation Center, Hunan University of Technology, Zhuzhou, China, 412007
3 College of Energy Science and Engineering, Central South University, Chansha, China,410083
4 Hunan Tianyi Group Co., Ltd., Zhuzhou, China, 412007
a tanchaoyi123@126.com, b corresponding author: hqwang2011@126.com
Keywords: DCS; Maximum length; Energy efficiency grade; Maximum energy efficiency ratio
Abstract.
Namely d3=d2+2δ, where δ is the thickness of the insulation layer. λ1 and λ2 are the thermal conductivity coefficient of the pipe and thermal insulation material, respectively. αn is the convective heat transfer coefficient of the chilled water inside the pipe, usually with a value of 6000W/(m2.K).
(in Chinese) [6]Youhui PENG,Zhiwei LIAN,Haiming FU: Journal of donghua university natural science edition Vol.37(2011),p.109-114.
Namely d3=d2+2δ, where δ is the thickness of the insulation layer. λ1 and λ2 are the thermal conductivity coefficient of the pipe and thermal insulation material, respectively. αn is the convective heat transfer coefficient of the chilled water inside the pipe, usually with a value of 6000W/(m2.K).
(in Chinese) [6]Youhui PENG,Zhiwei LIAN,Haiming FU: Journal of donghua university natural science edition Vol.37(2011),p.109-114.