A Uniaxial Compression Experiment with CO2-Bearing Coal Using a Visualized and Constant-Volume Gas-Solid Coupling Test System

Overview

This protocol demonstrates the preparation of a briquette sample and the execution of a uniaxial compression experiment under varying CO2 pressures. It aims to explore the physical and mechanical property changes in coal due to CO2 adsorption.

Key Study Components

Area of Science

• Geological sequestration
• Coalbed methane recovery
• Gas-solid interactions

Background

• This method addresses the relationship between coal properties and gas adsorption.
• Static and dynamic loads can be applied to briquettes in a constant volume state.
• The entire experimental process is visualized through photographic monitoring.
• The method is applicable to any porous rock species.

Purpose of Study

• To investigate the effects of CO2 on coal's physical and mechanical properties.
• To provide insights into carbon dioxide geological sequestration.
• To enhance understanding of coalbed methane recovery processes.

Methods Used

• Weigh 1000 grams of pulverized coal with a particle size of 0-1 mm and 300 grams with a size of 1-3 mm.
• Mix the coal in a beaker in a mass proportion of 0.76 to 0.24.
• Prepare cement by mixing sodium humate powder with distilled water.
• Conduct uniaxial compression experiments under controlled CO2 pressures.

Main Results

• The method allows for the visualization of the experimental process.
• Static and dynamic loads can be effectively applied to the briquette samples.
• Changes in coal properties due to CO2 adsorption were observed.
• The technique is versatile for testing various porous rocks.

Conclusions

• This protocol provides a reliable method for studying coal properties under CO2 conditions.
• It contributes valuable data for carbon sequestration and methane recovery research.
• The experimental setup can be adapted for different sample types.

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