3D MODELING OF THE OFFSHORE WIND TURBINES INTEGRATED STRUCTURE FOR KAZAKHSTAN REGION

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Date

2017

Journal Title

Journal ISSN

Volume Title

Publisher

SDU University

Abstract

Abstract. In this scientific paper we examine meteorological characteristics of the field “Kashagan” located in the north Caspian Sea, the types of offshore oil and gas constructers, offshore wind turbine structure integrated for the middle depths of the Caspian shelf, and the load acting on them during operation on a shelf. Dimensional solid 3D model and 3D animation presentation of offshore wind turbine is built in the program Autodesk Maya 2012. Created the design scheme of supporting jacket for offshore wind turbine. Jacket designed for the field in the middle depths of the Caspian Sea. Carried out joint account of supporting columns and turbine structure on the static load—own weight of construction and the wind turbine weight of the structure, and the wind load by finite-elements. Also the calculations studied the stress-strain state of the structure. The finite element method are mastered and calculated by using a software package Autodesk Inventor Professional 2014. The calculation results can be used in the design of offshore wind turbine structures for oil and gas platforms. Also, the thesis presents the basic calculation of the estimated cost of construction and installation works supporting truss design and offshore wind turbine, its payback period. Sections health and the environment are considered potential risks to personnel and possible threats to the environment, and provide measures for their prevention and reduction.

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Keywords

Autodesk Maya, Autodesk Inventor, 3D Modelling, AutoCAD, Wind Turbines

Citation

Y. Amirgaliyev, D. Khassanov, M. Meraliyev / 3D MODELING OF THE OFFSHORE WIND TURBINES INTEGRATED STRUCTURE FOR KAZAKHSTAN REGION / СДУ хабаршысы - 2017