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Contact Number:0716-8316033
Email:clkjxs@cnclkj.com
Mobile:18672122616
Address: No. 8, Weiwu Road, Development Zone, Jingzhou City, Hubei Province
Multi-dimensional visual simulation platform for CO2 utilization and sequestration mechanisms
This platform uses computer technology, advanced sensing technology, precision analysis technology, new materials technology, etc., to simulate the changes in the physical and chemical properties of CO2 during the process of cyclic oil recovery under different temperatures, pressures, and formation conditions, providing an experimental research platform for technological promotion and application.
High-temperature, high-pressure, 3D visual oil displacement physical model system
This device can maximally simulate actual oilfield conditions indoors to conduct three-dimensional seepage research under high-pressure conditions, statically simulate the development characteristics of oil heterogeneity, determine experimental parameters based on similarity criteria, and dynamically simulate the formation process of reservoirs and the oil displacement process of water, gas, and chemical agents under different grid connection modes and different injection-production methods. It can visually observe and record the migration law of the displacement front and the change law of the saturation of multiphase fluids such as oil, gas, and water.
High-temperature, high-pressure, two-dimensional visual oil displacement physical model system
This device can maximally simulate actual oilfield conditions indoors to conduct two-dimensional seepage research under high temperature and high pressure, statically simulate the heterogeneous development characteristics of reservoirs, determine experimental parameters based on similarity criteria, dynamically simulate the formation process of reservoirs and the oil displacement process of water, gas, and chemical agents under different grid connection modes and different injection and production methods, visually observe and record the migration law of the displacement front and the change law of oil-gas-water multiphase fluid saturation, and obtain parameters such as injection-production pressure difference and displacement efficiency, evaluate the displacement efficiency and displacement characteristics under different injection methods, provide a feasible method for the oil displacement mechanism of different reservoir types, different injection media, and different injection and production methods, and further provide a reliable basis for reservoir engineering design.
High temperature and high pressure breakthrough pressure tester
Breakthrough pressure is the minimum pressure required for a non-wetting fluid to overcome the capillary pressure of a wetting fluid in a porous medium and form a continuous flow phase. When a rock sample is saturated with a wetting fluid, the non-wetting fluid must overcome the capillary resistance of the rock to displace the wetting fluid. The smaller the capillary radius of the rock, the greater the resistance and the higher the breakthrough pressure required.
High-temperature, high-pressure polymer oil displacement test device
This simulation system is based on the displacement mechanism and similarity principle. It designs schemes for oil fields according to a similar scale, and conducts polymer flooding physical simulation tests under simulated reservoir pressure and temperature conditions with the aid of computer technology, advanced sensor technology, and automatic control technology.
Multi-media dispersed system complex flow state simulation platform
To improve the experimental methods of functional water-gas system oil displacement technology, realize the simulation of complex flow patterns of multi-medium dispersed systems in industrial application environments, and the visualization of gas-liquid coupling mechanism and oil displacement experiment evaluation under reservoir conditions, provide an experimental research platform for the promotion and application of functional displacement technology, and develop a multi-medium dispersed system complex flow pattern simulation platform.
High-temperature, high-pressure two-phase relative permeability testing system
This system is used for conducting oil displacement efficiency research under reservoir conditions (high temperature and high pressure), steady-state or unsteady-state relative permeability tests (constant rate method, constant pressure method), and other displacement flow experiments.
High-temperature, high-pressure unconventional reservoir recovery evaluation device
This device is a newly developed multifunctional testing system designed to meet the urgent needs of unconventional oil and gas exploration and development. Combining supercritical extraction technology and utilizing supercritical extraction mechanisms, it addresses the challenges of low permeability and high working pressure in unconventional oil and gas reservoirs. It tests the morphology of unconventional core oil and gas reservoirs, reveals the hydrocarbon accumulation mechanisms of unconventional core oil and gas reservoirs, and provides important evaluation methods for the study of seepage mechanisms in unconventional oil and gas reservoirs.
Comprehensive testing platform for CO2 geological sequestration
This system evaluates CO2 geological sequestration for rock samples with specifications of Ø25mm×50mm and Ø50mm×100mm. It builds a comprehensive testing platform for CO2 geological sequestration that integrates intelligent temperature control, visual analysis, precise measurement, and lithological evaluation.
Multi-size high-temperature and high-pressure pore permeability testing device
This device is used to conduct tests on the sealing characteristics of surrounding rocks in underground gas storage, studying the pore and permeability characteristics of surrounding rocks under different loads and temperatures, and exploring various factors that induce reservoir leakage. Permeability measurements are conducted on high, medium, and low permeability cores using steady-state and transient methods, and porosity measurements are conducted on cores using the Boyle's law dual-chamber method.
High-temperature and high-pressure core seepage experiment device
1. High-precision control injection of various media, including gas and liquid phases; 2. Sensitive evaluation experiments can be performed on hardware with special requirements, such as acid sensitivity and stress sensitivity;
Crystallization Consolidation System
1. Liquid phase media can be mixed and prepared, and precisely injected; 2. Safe sampling under pressure can be achieved during the experiment; 3. The experimental needs of rapid heating and uniform temperature control can be met;
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Email:clkjxs@cnclkj.com
Mobile:18672122616
Address: No. 8, Weiwu Road, Development Zone, Jingzhou City, Hubei Province
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