Кафедра скважин бурения

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Геология и разведка нефтяных и газовых месторождений» кафедра скважин бурения составе каф. Технология нефти и газа» в составе каф. Транспорт и хранение нефти и газа» в составе каф. Технология нефтяного аппаратостроения» в составе каф.

Нефтетехнологический факультет создан в 1947 году. В настоящее время коллектив факультета — это более 300 сотрудников: 21 профессор, 89 доцентов, 46 старших преподавателей, 34 ассистента, около 100 инженеров, техников и лаборантов. Среди преподавателей и научных сотрудников свыше 20 докторов наук и более 88 кандидатов наук. В настоящее время на нефтетехнологическом факультете учится 363 студента-специалиста, 1034 студентов-бакалавров, 6 магистрантов и 55 аспирантов.

У факультета налажены контакты и заключены договоры о сотрудничестве с университетами, исследовательскими центрами и предприятиями, в том числе зарубежными участниками европейского проекта TEMPUS и Erasmus. Студенты проходили стажировку в зарубежных университетах или научных центрах г. Satellite radar data for surface deformation monitoring are gaining increasing attention, and not only within the oil and gas community. They provide a powerful tool for remotely measuring extremely small surface displacements over large areas and long periods of time, without requiring the installation of in-situ equipment. Time-lapse seismic surveys or 4D seismic offers snapshots of a producing hydrocarbon reservoir and its surroundings and is the most common seismic surveillance technique in the oil and gas industry. The problems of three-dimensional computer models of geological oil and gas fields are discussed. Methodological and technological approaches to model creation in the different stages of modelling are described taking into account the exploration maturity, amount and quality of the initial geological and geophysical data.

Different aspects of building the models are explained with a large number of illustrative material. The book presents the various seismic imaging methods currently in use in the Oil and Gas industry in a unified and almost equation-free approach. The state of stress within the earth has a profound effect on the propagation of seismic and borehole acoustic waves, this leads to many important applications of elastic waves for solving problems in petroleum geomechanics. In this publication the author pays special attention to the cross-disciplinary problems of the geosciences: seismic processing and interpretation, geological and hydrodynamic modelling and he analyses the contradictions of the applied methods.

The author states that narrow specialization in geosciences has hindered unbiased subsurface investigation. There is a need for new specialists who are able to integrate knowledge from the different fields. This book presents a systematic approach to imaging of acoustic reflection measurements and the extraction of media property information from the image amplitudes, based on wave theory. Although the approach is valid for a wide range of acoustical frequencies and applications, there is a bias towards seismic imaging, because imaging the earth is one of the most challenging of all acoustical imaging applications. This book explains how geophysicists in the energy industry measure, interpret, and use seismic anisotropy. The book is designed for geophysicists who want to enhance their understanding of the subsurface and learn about modern techniques for extracting more information from seismic data.

Заказать скважину можно по телефону

+7 (996) 40-999-40

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