STUDY OF CORRELATION BETWEEN THE ELASTIC PROPERTIES OF IGNEOUS AND SEDIMENTARY ROCK TO THE CRACK STRUCTURE CHARACTERISTICS BASED ON MICRO-CT
Currently, the world's energy needs are still dominated by hydrocarbon-based sources and also hydrothermal. Many hydrocarbons and hydrothermal compounds are stored in the reservoir but are difficult to obtain. To be able to do fluid extraction in the reservoir, various methods are carried ou...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/50125 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Currently, the world's energy needs are still dominated by hydrocarbon-based
sources and also hydrothermal. Many hydrocarbons and hydrothermal compounds
are stored in the reservoir but are difficult to obtain. To be able to do fluid extraction
in the reservoir, various methods are carried out by the oil and gas industry. Among
these is by making way for fluid flow by cracking which can be obtained by blowing
up various reservoir points. Based on the development of the industry, this study
wanted to find out crack patterns that can form in porous rocks by applying
pressure. In general, rock consists of solids and void space in the form of pores,
fissures, cracks, joints, and others that make rocks influenced by material and
discontinuity. Discontinuity is found in rock mass so that it affects the overall
mechanical behavior (strength, elastic modulus, and Poisson ratio) of the rock mass.
In this final project, a Uniaxial Compressive Strength (UCS) compressive test is
carried out on igneous and sedimentary rocks to analyze the correlation between
the elastic properties of the sample and the crack characteristics of the sample. The
digital image-based characterization method will be applied to the sample with the
help of a Micro-CT scan device. The results of the scan will be in the form of digital
images which can then be processed and analyzed to obtain the required physical
quantities. Thin section analysis is also performed to strengthen the analysis of rock
pore structures. Quantitatively it is said that there is a relationship between the
microscopic structure, which is related to the elastic properties of the sample with
crack properties. Structure thickness with compressive strength and Young's
modulus shows the greater the compressive strength and Young's modulus the
greater the structure of the thickness. Connectivity with compressive strength and
Young's modulus shows the greater the compressive strength and Young's modulus
the smaller the value of Connectivity. Connectivity density with compressive
strength and Young's modulus shows that the greater the compressive strength and
Young's modulus the smaller the value of connectivity density. |
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