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Online since: September 2012
Authors: Li Li Wang, Zheng Yang Yang, Min Zhu, Huan Guang Liu, Xu Ying Zhao, Yan Zhang
Influence of C/N Ratio on SND and Microbiological Analysis in Catching Bed Biofilm Reactor using Acrylic Resin Fiber as Carrier Materials in Civil Engineering
Yan Zhang1a, ZhengYang Yang1b, LiLi Wang1a, XuYing Zhao2a
HuanGuang Liu1a and Min Zhu1a
1Beijing Key Lab of Water Quality Science and Water Environmental Restoration Engineering
College of Arc. and Civ.
The results indicate that this process which was used in wastewater treatment of civil engineering can get better COD and nitrogen removing performance.
Introduction As an important wastewater treatment process of civil engineering, simultaneous nitrification and denitrification (SND) has lot of advantages compared with the other process for nitrogen removal[1-2].
[3] D.D.Zhou, F.Ma, S.S.Dong, H.Y.Wang, H.L.Wang: Chinese Journal of Environmental Engineering.N.04(2007), p.25.
(In Chinese) [6] S.Q.Xia, J.X.Li, R.C.Wang: Biochemical Engineering Journal.
The results indicate that this process which was used in wastewater treatment of civil engineering can get better COD and nitrogen removing performance.
Introduction As an important wastewater treatment process of civil engineering, simultaneous nitrification and denitrification (SND) has lot of advantages compared with the other process for nitrogen removal[1-2].
[3] D.D.Zhou, F.Ma, S.S.Dong, H.Y.Wang, H.L.Wang: Chinese Journal of Environmental Engineering.N.04(2007), p.25.
(In Chinese) [6] S.Q.Xia, J.X.Li, R.C.Wang: Biochemical Engineering Journal.
Online since: June 2013
Edited by: Guo Qun Zhao
Collection of selected, peer reviewed papers from the 2nd International Conference on Materials Engineering and Automatic Control (ICMEAC2013), May 18-19, 2013, Shandong, China.
The 200 papers are grouped as follows:
Chapter 1: Advanced Materials Engineering and Technology;
Chapter 2: Power System and Energy Engineering: Its Applications;
Chapter 3: Instrumentation, Measurement Technologies, Monitoring, Testing and Evaluation, Analysis and Methodology;
Chapter 4: Modern Control, Automation and Robotics;
Chapter 5: Design, Modelling Technology and Engineering;
Chapter 6: Manufacturing and Industrial Engineering, Management Applications;
Chapter 7: Technologies and Methods in Building, Civil and Structure Engineering;
Chapter 8: Signal Processing and Data Mining;
Chapter 9: Information Technologies and Networks;
Chapter 10: Related Topics.
The 200 papers are grouped as follows:
Chapter 1: Advanced Materials Engineering and Technology;
Chapter 2: Power System and Energy Engineering: Its Applications;
Chapter 3: Instrumentation, Measurement Technologies, Monitoring, Testing and Evaluation, Analysis and Methodology;
Chapter 4: Modern Control, Automation and Robotics;
Chapter 5: Design, Modelling Technology and Engineering;
Chapter 6: Manufacturing and Industrial Engineering, Management Applications;
Chapter 7: Technologies and Methods in Building, Civil and Structure Engineering;
Chapter 8: Signal Processing and Data Mining;
Chapter 9: Information Technologies and Networks;
Chapter 10: Related Topics.
Online since: July 2012
Authors: Stanisław Radkowski, Szymon Gontarz, Marcin Jasiński, Jarosław Seńko, Adam Gałęzia, Jędrzej Mączak
Distributed system for monitoring of the large scale infrastructure structures based on analysis of changes of its static and dynamic properties
Adam Gałęzia1,Szymon Gontarz1, Marcin Jasiński1, Jędrzej Mączak1,a,*,
Stanisław Radkowski1, Jarosław Seńko1
1 Institute of Vehicles, Warsaw University of Technology, Narbutta St. 84, 02-524 Warsaw, Poland
ajma@simr.pw.edu.pl, *corresponding author
Keywords: diagnostic systems, magnetic methods, construction monitoring, civil engineering, structural health monitoring
Abstract.
The complexity and diversity of civil engineering structures impose requirements on the monitoring systems, which are difficult to be satisfied.
Introduction Monitoring of civil engineering structures is an important issue due to a rapid development of the modern building techniques and growing fatigue wear.
In structural health monitoring of civil engineering structures various methods of technical state assessment could be used based on the comparative dynamic, tensometric (strain gauges), magnetic and optic fibres (FBG) measurements.
The truss that was a topic of the experiment was built out of general purpose low-carbon steel St3 (PN-EN 10025:2004) used typically in civil construction engineering.
The complexity and diversity of civil engineering structures impose requirements on the monitoring systems, which are difficult to be satisfied.
Introduction Monitoring of civil engineering structures is an important issue due to a rapid development of the modern building techniques and growing fatigue wear.
In structural health monitoring of civil engineering structures various methods of technical state assessment could be used based on the comparative dynamic, tensometric (strain gauges), magnetic and optic fibres (FBG) measurements.
The truss that was a topic of the experiment was built out of general purpose low-carbon steel St3 (PN-EN 10025:2004) used typically in civil construction engineering.
Online since: September 2014
Authors: Daria Vladimirovna Petrosova, Nikolay Vatin, Olga Sergeevna Gamayunova
For example, for many years the Civil Engineering Institute of the St.
For example, the Civil Engineering Institute of St.
Longtime partner of Civil Engineering Institute is Institute for Advanced Studies at the Union of Finnish construction industry Rateko (Helsinki, Finland).
Ustinovichius: A model for solving structural, technological and safety problems (2012) Journal of Civil Engineering and Management, 18 (1), pp.30-42
Rudenko: Protection of frame buildings of progressive collapse (2009) Magazine of Civil Engineering. 3. pp. 38-41.
For example, the Civil Engineering Institute of St.
Longtime partner of Civil Engineering Institute is Institute for Advanced Studies at the Union of Finnish construction industry Rateko (Helsinki, Finland).
Ustinovichius: A model for solving structural, technological and safety problems (2012) Journal of Civil Engineering and Management, 18 (1), pp.30-42
Rudenko: Protection of frame buildings of progressive collapse (2009) Magazine of Civil Engineering. 3. pp. 38-41.
Online since: October 2014
Authors: Hong Yuan Zhang
Research on Preparation of Soil and Water Conservation in Civil Engineering
Hongyuan Zhang
Changchun Institute of Technology, Changchun of Jilin, China,130021
Email:763360026@ qq.com
Key Words: Park Project; Water and Soil Conservation Scheme; preparation
Abstract: With the development of economic society and urbanization, there are more park projects in large and medium cities, and the preparation of soil and water conservation plan for thus construction should be mainly considered from equilibrium of earth-rock, flood control and drainage, temporary protection and greening consider, only this can we effectively control and reduce soil erosion of the park project.
Temporary soil accumulated place almost chooses the place which is used by engineering construction in later period, such as greenfield, square and phase II reserve zone so as not to affect the project construction in earlier period.
Leading rainwater in the simple gutter which is set near the temporary soil accumulated place to prevent the temporary stacked soils from running off. 4 Greening layout With rainwater and strong wind, the large area of bare surface of death which left after the completion of civil engineering of project construction in later period causes soil erosion easily, thus we should complete the civil engineering while cooperating with greening design of main works to take the layout of greening measures in time.
According to the industrial park of Longgang District of Huludao City, the implementation of various measures of soil and water conservation scheme, effectively controlling soil erosion because of engineering construction project caused soil erosion control, production operation period is 0.3.
Control standards and measures to prevent soil erosion quantities are given in Table 1, table 2 Table 1 Standards for the prevention and control of soil and water loss of Huludao City Industrial Park Longgang district project (level two) To prevent the standard Standard According to the rainfall correctio According to the erosion intensity correction Using standard Land reclamation rate disturbance 〉95% 〉95% Soil erosion degree(%) 〉85 2.8 〉87.8 Soil erosion control ratio 0.5 -0.2 0.3 Stopped slag rate(%) 95 95 Vegetation recovery rate(%) 〉95 2.8 〉97.8 Forest coverage rate(%) 〉20 2.8 〉22.8 Table 2 Engineering quantity of Huludao City Industrial Park, Longgang district soil erosion control measures Prevention and measures Company Number Remarks 1, Soil to plant trees and grass (1)Overburden amount M3 1120 (2)Sowing grass Hm2 0.56 2, Provisional Measures (1)Volume of excavation of drainage project M3 142.4 (2)Plastic film mulching m2 1250 In a word, if some impacts
Temporary soil accumulated place almost chooses the place which is used by engineering construction in later period, such as greenfield, square and phase II reserve zone so as not to affect the project construction in earlier period.
Leading rainwater in the simple gutter which is set near the temporary soil accumulated place to prevent the temporary stacked soils from running off. 4 Greening layout With rainwater and strong wind, the large area of bare surface of death which left after the completion of civil engineering of project construction in later period causes soil erosion easily, thus we should complete the civil engineering while cooperating with greening design of main works to take the layout of greening measures in time.
According to the industrial park of Longgang District of Huludao City, the implementation of various measures of soil and water conservation scheme, effectively controlling soil erosion because of engineering construction project caused soil erosion control, production operation period is 0.3.
Control standards and measures to prevent soil erosion quantities are given in Table 1, table 2 Table 1 Standards for the prevention and control of soil and water loss of Huludao City Industrial Park Longgang district project (level two) To prevent the standard Standard According to the rainfall correctio According to the erosion intensity correction Using standard Land reclamation rate disturbance 〉95% 〉95% Soil erosion degree(%) 〉85 2.8 〉87.8 Soil erosion control ratio 0.5 -0.2 0.3 Stopped slag rate(%) 95 95 Vegetation recovery rate(%) 〉95 2.8 〉97.8 Forest coverage rate(%) 〉20 2.8 〉22.8 Table 2 Engineering quantity of Huludao City Industrial Park, Longgang district soil erosion control measures Prevention and measures Company Number Remarks 1, Soil to plant trees and grass (1)Overburden amount M3 1120 (2)Sowing grass Hm2 0.56 2, Provisional Measures (1)Volume of excavation of drainage project M3 142.4 (2)Plastic film mulching m2 1250 In a word, if some impacts
Online since: March 2015
Authors: Jan Hurta, Vojtech Buchta, Roman Fojtik
Comparison of experimental tests of foundation slabs
Vojtech Buchta1, a, Jan Hurta2, b, Roman Fojtik3, c
1, 2, 3Fakulta stavebni, Ludvika Podeste 1875/17, 708 33 Ostrava-Poruba, Czech Republic
avojtech.buchta@vsb.cz, bjan.hurta@vsb.cz, croman.fojtik@vsb.cz
Keywords: Prestressing, Fiber concrete, foundation slab, sliding joint, interaction between construction and subsoil,
Abstract:n civil engineering we solve problems with interaction between the foundation base and the subsoil often.
This problematic is researching on the Faculty of Civil Engineering VSB - Technical University of Ostrava for long time.
In IABSE Conference on Role of Structural Engineers Towards Reduction of Powerty, February 19-22, 2005, New Delhi, India, ISBN 978-3-85748-111-6, WOS: 000245746100072
In: Proceedings of the Eight International Conference on Engineering Computional Technology, Civil-Comp Press, Stirlingshire, UK, Paper 114, doi:10.4203/ccp.100.114, (2012) [6] JANULIKOVA, M., CAJKA, R., MATECKOVA, P., BUCHTA, V.: Laboratory Testing of Asphalt Belts Rheological Properties Exposed to Shear Loads, Transactions of the VŠB - Technical University of Ostrava, Civil Engineering Series, vol.
In The 9th fib International PhD Symposium in Civil Engineering.
This problematic is researching on the Faculty of Civil Engineering VSB - Technical University of Ostrava for long time.
In IABSE Conference on Role of Structural Engineers Towards Reduction of Powerty, February 19-22, 2005, New Delhi, India, ISBN 978-3-85748-111-6, WOS: 000245746100072
In: Proceedings of the Eight International Conference on Engineering Computional Technology, Civil-Comp Press, Stirlingshire, UK, Paper 114, doi:10.4203/ccp.100.114, (2012) [6] JANULIKOVA, M., CAJKA, R., MATECKOVA, P., BUCHTA, V.: Laboratory Testing of Asphalt Belts Rheological Properties Exposed to Shear Loads, Transactions of the VŠB - Technical University of Ostrava, Civil Engineering Series, vol.
In The 9th fib International PhD Symposium in Civil Engineering.
Online since: July 2011
Authors: Er Ping Zhao, Xiao Bing Jia
Soil Mechanics is a very important fundamental course for the students majoring in Civil Engineering and Water Conservancy and Hydropower, and a bridge connecting common fundamental courses and specialized courses.
With the enlarging utilization of multimedia technology in the teaching process of the course of Civil Engineering, the teaching effect and efficiency have got increased.
As a basic course of Civil Engineering and Water Resources, Soil Mechanics is highly theoretical.
Based on the class content, combine multimedia teaching with traditional teaching.Soil Mechanics course can be divided into two parts: basic principles and engineering applications.
Innovative methods of teaching Typical engineering projects vividly to students.
With the enlarging utilization of multimedia technology in the teaching process of the course of Civil Engineering, the teaching effect and efficiency have got increased.
As a basic course of Civil Engineering and Water Resources, Soil Mechanics is highly theoretical.
Based on the class content, combine multimedia teaching with traditional teaching.Soil Mechanics course can be divided into two parts: basic principles and engineering applications.
Innovative methods of teaching Typical engineering projects vividly to students.
Online since: June 2011
Authors: Xiao Yan Zheng, Xue Gui, Xia Peng, Jian Wei Song
Background
Optimal Design of Civil Status
The traditional design actually refers to the structural analysis.
In the industrial civil construction, mechanical part design, harbor engineering and other fields, have been part of structural optimization can be achieved.
Artificial Intelligence Algorithm in Civil Engineering Artificial intelligence algorithms in the field of complex civil engineering issues have been some successful applications.
A book about the neural networks, genetic algorithms optimization technology in the cable tension, cable stayed bridge for the successful application of engineering optimization.
Civil Engineering Expert System Application and Development Trend As the National Key Basic Research of Ministry of Science and Special Projects (2004C CA03300) for expert systems in civil engineering are summarized and exploration.
In the industrial civil construction, mechanical part design, harbor engineering and other fields, have been part of structural optimization can be achieved.
Artificial Intelligence Algorithm in Civil Engineering Artificial intelligence algorithms in the field of complex civil engineering issues have been some successful applications.
A book about the neural networks, genetic algorithms optimization technology in the cable tension, cable stayed bridge for the successful application of engineering optimization.
Civil Engineering Expert System Application and Development Trend As the National Key Basic Research of Ministry of Science and Special Projects (2004C CA03300) for expert systems in civil engineering are summarized and exploration.
Online since: July 2014
Authors: Hong Bin Yu, Na Liu
Civil Aviation of China, 2012, 139:14
Statistical Analysis of Overrun of Transport Aircraft of Civil Aviation of China [J].
Application Research of New Arresting System[D].Civil Aviation University of China,2009
Runway Safety Areas Engineered Materials Arresting Systems[R]. 2005
Journal of Civil Aviation University of China, 2009,27(2):10-13
Statistical Analysis of Overrun of Transport Aircraft of Civil Aviation of China [J].
Application Research of New Arresting System[D].Civil Aviation University of China,2009
Runway Safety Areas Engineered Materials Arresting Systems[R]. 2005
Journal of Civil Aviation University of China, 2009,27(2):10-13
Online since: December 2012
Edited by: Xiong Zhou, Hong Hua Tan
The collection includes selected, peer-reviewed papers from the 2012 3rd International Conference on Applied Mechanics and Mechanical Engineering (ICAMME 2012) held in November 14-15, 2012 in Macau.
The 226 peer reviewed papers are grouped into the following chapters:
Chapter 1: Applied Mechanics and Measurement Technology of Detection and Monitoring,
Chapter 2: Mechanical Engineering, Manufacturing Technology and Application,
Chapter 3: Advanced Materials Science and Engineering,
Chapter 4: Rock, Civil and Structural Engineering,
Chapter 5: Control, Electronic, Automation Technology and Communication Engineering,
Chapter 6: Biomechanics Technology.
The 226 peer reviewed papers are grouped into the following chapters:
Chapter 1: Applied Mechanics and Measurement Technology of Detection and Monitoring,
Chapter 2: Mechanical Engineering, Manufacturing Technology and Application,
Chapter 3: Advanced Materials Science and Engineering,
Chapter 4: Rock, Civil and Structural Engineering,
Chapter 5: Control, Electronic, Automation Technology and Communication Engineering,
Chapter 6: Biomechanics Technology.