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On several occasions the soil conditions had proven to be a key area for offshore wind farm.
The procedure schedule on investigation, which is proven to be a key area for engineering investigation on offshore wind farm, should be considered to arrange the normal work and combine with the experience of similar engineering before.
These materials are enough for the design of foundation and structure but only adaptable to explore the position in where few generator groups located.
It should point out that engineering investigation, design and construction ought to be combined and integrated, which begin with the acquirement of source material.
The consistency of these materials is favorable of confirming the site load, and relates to the cost and credibility of the engineering.

The science of surface engineering has been one of the most important components in the field of hi-tech new materials.
The majority of offshore engineering equipments are made from metal materials.
Coating technique and electrochemical protection technique are to emphasize particularly on cutting off the relationship between material and its corrosive environment. 3 Anticorrosion Techniques in Surface Engineering Surface engineering techniques are used to prepare corrosive-proof materials and coating materials.
According to international development of surface engineering technology, it is indicated that corrosion control over engineering equipment by means of surface engineering techniques is regarded as a kind of System Engineering where materials can be optimally designed.
Equipment Environmental Engineering, Vol.3, No.1, 81-84, (2006) (in Chinese) [5] Engineering & Materials Scientific Department with the Committee of National Nature Science Fund.

Industrial Scale Engineering of Photocatalytic Nanomaterials by Flame Spray Pyrolysis (F.S.P.)
Areti Zindrou1, a, Asterios Mantzanis1, b and Yiannis Deligiannakis1,c,* 1Laboratory of Physical Chemistry of Materials & Environment, Department of Physics, University of Ioannina, Ioannina, Greece aa.zindrou@uoi.gr, ba.mantzanis@uoi.gr, cideligia@uoi.gr Keywords: Photocatalysis, Artificial Photosynthesis, Water-splitting, H2, O2, Doping, Flame Spray Pyrolysis, Industrial Engineering, Nanomaterials, BiVO4, TiO2.
Key-Performance-Indicators that allow transition of Lab-Scale to Industrial-Scale engineering of semiconductors are discussed, including cost-analysis and environmental impact of the production process.
Due to these high local temperatures, highly crystalline and homogeneous materials are produced[9].
Especially, in the case of gas-phase synthesis where FSP provides an easy and one-step process for the engineering of multicomponent and/or doped materials for catalytic applications the setup configuration plays a critical role[27].

Analysis on Whole Life Cycle Cost Management of Highway Engineering Huihong Fenga, Xiaoping Dingb, Jingsi Chenc and Yu Chend School of Civil Engineering and Architecture, Southwest Petroleum University, Chengdu, Sichuan, 610500, China afenghh163@163.com, bdingxiaopingshu@163.com, csummer68123@126.com d694595905@qq.com Keywords: Highway Engineering, the Whole Life Cycle, Engineering Cost Management.
Design phase is an important influence stage of engineering cost control, it plays a key role to the entire engineering cost control, however, the designers do not pay attention to the combination of technology and economy, making comparison programs often only study the advanced technology, but for the economy rationality is considered insufficient, and awareness of cost control is also very weak.
Thus the engineering cost will lose control finally.
In the construction stage, the contractor should formulate reasonable and scientific engineering cost control objective, and take the advanced material price administration method, take care of the best material purchase opportunity and the reliable material market purchasing price.
Secondly, it should to do well the materials management.

This paper describes the method to integrate the reverse engineering and rapid prototyping and analysis the characters and some key problems in the integration.
Tong, ect: Reverse Engineering Technology (Machinery Industry Press, Beijing 2003)
Woo, Use of Reverse Engineering Method For Rapid Product Development, Computers and Industrial Engineering, Vol. 38(1), 2000, p. 21 [4] X.F.
Sun: The Application of Reverse Engineering and Rapid Prototyping (Machinery Industry Press, Beijing 2009)
Li: Research of Reverse Engineering CAD Modeling.

Development of New-Type Similar Materials of Geomechanics Models Test for Geotechnical Engineering Q.
The iron ore powder, blanc fix and quartz sand among them are main materials.
The raw materials chosen are iron ore powder, blanc fix, quartz sand, gypsum powder, rosin alcohol solution, of which iron ore powder, blanc fix and quartz sand are the key ones.
Chinese Journal of Rock and Engineering.
Chinese Journal of Northwest Water Resource and Water Engineering.

The course of Electronics in Electrical Engineering is a basic course for marine engineering majors.
Forward In marine schools, the course for marine engineering major, Electronics in Electrical Engineering, can be classified into three parts by teaching contents, Electrical Engineering, Analog Electronic Technique and Digital Electronic Technique.
In this major, Electronics in Electrical Engineering is an important basic course for marine engineering majors, is the former course of Marine Electric and Automation for Oceangoing Seafarers Competency Test.
In addition, because the students are not familiar with the entities of electronic element from the teaching materials, the dull lecture cannot make students grasp the structure and characteristic of various elements.
The Reform of Electrical Engineering Teaching and Practice Under the New Situation.

This article also argues the strategy of earthquake resistant materials and structural strategy, the role of seismic designs in ecological safety strategies, reliable technology and conceptual design of earthquake engineering, etc. 1.
According to the theory of ecosystem and system theory, the working strategy in the architecture design and building materials engineering should be interdisciplinary working and integrated collaboration of designers and building materials engineers.
Some ecological knowledge and disasters prevention technology should be collected and extracted from ecology and restoration ecology, biology and biotechnology, green building materials engineering, environmental engineering, earthquake disaster reduction planning, building fire protection and prevention, structures against lightning etc.
Therefore earthquake engineering is lifeline engineering and ecological project.
In conceptual design of earthquake engineering, appropriate and reliable tech should be paid attention to.

Study on Modeling Technique about Complex Valve Body Based on Reverse Engineering Qu Li-ganga , Qin Zheng-qi b School of Mechanical &Electrical Engineering, Shenyang Institute of Aeronautical Engineering, Liaoning, Shenyang, P.R.China, 110136, a qulg@syiae.edu.cn, bqinzhengqi1974@163.com Keywords: Reverse engineering; valve body with complex structure; internal cavity duplication; data processing, modeling Abstract.The reverse modeling solution and its key technologies about complex part with internal cavity are introduced in this paper, taken the casting valve body for an example.
Introduction Reverse Engineering(RE) is becoming one of the important modern manufacturing technologies combined with measuring and CAD techniques.
But there are many kinds of parts with complex internal cavity in practice, valve body for example shown as Fig.1, measuring the engineering data of internal cavity or surface is becoming the technical bottleneck in course of implementing reverse engineering[4].
It is not easy to measure the data of the internal cavity of valve body while the reverse engineering technology is employed to develop it.
The liquid silicon rubber, mixed with proper vulcanizator, is filled into the internal cavity of the valve body, taken out after solidification, and smoothening the surface of the entity to prepare for measuring and collecting engineering data, the silicon rubber entity is illustrated in Fig. 2.

However, figuring out the necessary material information is a difficult and time consuming process for the plant engineers, especially if they have little expertise in material science and engineering.
The overall database system is largely divided into 4 subdatabase systems; materials, facilities, technical reports, and engineering term's dictionary database.
l Technica l Technica l ReportReportReportReport TitleTitleTitleTitle SubjectSubjectSubjectSubject Material/ Facility Material/ Facility Material/ Facility Material/ Facility Report NoReport NoReport NoReport No AuthorAuthorAuthorAuthor ContentsContentsContentsContents SummarySummarySummarySummary Link to Original Report Link to Original Report Link to Original Report Link to Original Report Engineering Engineering Engineering Engineering Dictiona rDictiona rDictiona rDictiona ryyyy Bills of Material Bills of Material Bills of Material Bills of Material Ma teria l Engineering Ma teria l Engineering Ma teria l Engineering Ma teria l Engineering Dictiona ry Dictiona ry Dictiona ry Dictiona ry Material Designation Types Forms Standard Equivalent Standards Previous Standard Organization Country Chemical Composition Component Minimum Maximum Material Property Number of Inputs Property Item Unit Test Conditon Min.
Therefore, plant engineers, who have little expertise in material engineering, have the difficulties in using these material information systems at their convenience.
In the course of development, KEPRI took into account of the key characteristics of materials data as the basis of the other engineering systems.