It is designed to simulate reservoir conditions
Credit: @SamaraPolytech
The original facility developed at Samara Polytech will help to explore the earth’s interior. Under laboratory conditions the mechanism recreates the physical parameters (for example, pressure and temperature) of a deposit located at different depths. With its help, it is possible to accurately determine the mechanical properties of a rock such as hardness, elasticity, plasticity, etc. Its technical characteristics are described in detail in an article published in the journal “Construction of Oil and Gas Wells On Land and Sea” (DOI: 10.33285/0130-3872-2021-1(337)-5-9).
“The development of the facility that we call the Monster machine was inspired by the invention of the Academician of the Russian Academy of Sciences, the founder of oil and gas geomechanics in the USSR, Sergey Alexeevich Khristianovich”, says Alexey Podyachev, the project manager, an associate professor of the Oil and Gas Well Drilling Department, Candidate of Technical Sciences. “Unfortunately, we did not see the “live” installation of the legendary scientist, we were content only with photographs on the Internet. But we knew the main principles of its work that formed the basis of our project.
Alexey Podyachev, together with the senior lecturer of the department Pavel Bukin, calculated the rigidity of the machine body, which was modeled and manufactured by engineers of a plant in St. Petersburg. When the body was delivered to Samara, the Polytech workers began to manufacture the inner part of the mechanism, where the rock sample directly interacts with the hydraulic cylinder rods (metal rods that transmit the force from the piston).
“The uniqueness of the machine is that the investigated core fragment is loaded independently from three sides. To do this, in the inner block, we designed a rather complex kinematics of a decreasing cube with 100% overlap of the edges”, explains Alexey. “As a rule, a cylinder with a diameter of 30 and a height of 30 (or 60) millimeters is considered the reference shape of the core being examined. However, it is impossible to provide a full-fledged orthogonal load along three axes on such a sample. Therefore, we decided to replace the cylinder with a cube. We cut a cube-shaped sample from a full-size cylindrical core and place it on a special pedestal inside the machine, where pressure plates press it from three sides. All the faces of the sample are completely covered, that is, there is no free areas. This means that it is loaded evenly over the entire face plane and has no “unloading” sections”.
So, you can simulate, for example, the pressure inside the well. For this, the sample is uniformly loaded, and then one of the sides is being gradually released. Thus, engineers calculate at what pressure, at what loads, plastic deformations of the rock appear, and its subsequent destruction occurs.
Thanks to the designed “monster”, it is possible to carry out unique research that allows to find out, in particular, the influence of the drilling fluid on the mechanical properties of the rock. For this, the sample is saturated with liquid and installed in the machine. An elastic wave is passed through the sample at a predetermined interval. All occurring deformations are monitored using special pressure and deformation sensors.
Since the rigidity of the casing of the Polytech installation allows creating large loads without reducing the accuracy of the results, a number of tests not related to drilling can be carried out on it, for example, the study of the strength of cement, metal and other materials.
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Samara Polytech as a flagship university offers a wide range of education and research programs and aims at development and transfer of high-quality and practically-oriented knowledge. The university has an established reputation in technical developments and focuses on quality education, scientific and pragmatic research, combining theory and practice in the leading regional businesses and enterprises. Education is conducted in 30 integrated groups of specialties and areas of training (about 200 degree programs including bachelor, master programs and 55 PhD programs) such as oil and gas, chemistry and petrochemistry, mechanics and energy, transportation, food production, defense, IT, mechanical and automotive engineering, engineering systems administration and automation, material science and metallurgy, biotechnology, industrial ecology, architecture, civil engineering and design, etc.
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