Simulation of Water Influx and Gasified Gas Transport during Underground Coal Gasification with Controlled Retracting Injection Point Technology

Abstract: Underground coal gasification (UCG) may change the energy consumption structure from coal-dominated to gas-dominated in the years to come. Before that, three important problems need to be solved, including failure of gasification due to large amounts of water pouring into the gasifier, environmental pollution caused by gas migration to the surface, and low calorific value caused by poor control of the degree of gasification. In this study, a geological model is first established using the computer modeling gro… Show more

“…Examples of these newer technologies include supercritical water gasification, plasma gasification, and chemical-looping gasification. Another notable approach is underground coal gasification (UCG), which offers flexibility in gas production and utilization while utilizing unmineable coal reserves and minimizing environmental impact . However, challenges for coal gasification include high operational and capital costs, the need for advanced infrastructure, and proper management of CO 2 emissions and solid waste products generated during the process. − …”

“…Another notable approach is underground coal gasification (UCG), which offers flexibility in gas production and utilization while utilizing unmineable coal reserves and minimizing environmental impact. 56 However, challenges for coal gasification include high operational and capital costs, the need for advanced infrastructure, and proper management of CO 2 emissions and solid waste products generated during the process. 57−59 Water electrolysis is a versatile hydrogen production method that employs various electrolyzers.…”

Bipolar Membrane Seawater Splitting for Hydrogen Production: A Review

“…Examples of these newer technologies include supercritical water gasification, plasma gasification, and chemical-looping gasification. Another notable approach is underground coal gasification (UCG), which offers flexibility in gas production and utilization while utilizing unmineable coal reserves and minimizing environmental impact . However, challenges for coal gasification include high operational and capital costs, the need for advanced infrastructure, and proper management of CO 2 emissions and solid waste products generated during the process. − …”

“…Another notable approach is underground coal gasification (UCG), which offers flexibility in gas production and utilization while utilizing unmineable coal reserves and minimizing environmental impact. 56 However, challenges for coal gasification include high operational and capital costs, the need for advanced infrastructure, and proper management of CO 2 emissions and solid waste products generated during the process. 57−59 Water electrolysis is a versatile hydrogen production method that employs various electrolyzers.…”

Bipolar Membrane Seawater Splitting for Hydrogen Production: A Review

“…China's resource endowment of “rich coal, poor oil and little gas” determines that it is difficult for China to fundamentally change its coal-based energy structure in the short term. In order to build a “clean, low-carbon, safe and efficient” modern energy system, and achieve a “win-win” between economic development and ecological protection, China should actively develop the UCG industry, and increase the scale of natural gas production while realizing the effective and clean development of underground coal resources [ [3] , [4] , [5] , [6] , [7] ].…”

Research on evaluation technology system of mid-deep underground coal gasification based on researchers from China

A coupled thermal-force-chemical-displacement multi-field model for underground coal gasification based on controlled retraction injection point technology and its thermal analysis