Zhang Lab is dedicated to addressing a range of fundamental scientific and engineering challenges related to energy utilization and carbon neutrality. The lab's research is primarily focused on the following areas:

✔ CCS/CCUS Technologies: Development and optimization of nanoscale technologies in carbon capture and storage (CCS) and carbon capture, utilization, and storage (CCUS). We explore their potential applications under different geological conditions to support carbon neutrality goals.

✔ Multiscale Flow-Solid Interaction Studies: Through experimental analysis and theoretical modeling of flow-solid interactions in porous media, we investigate the migration and storage mechanisms of CO₂ in geological media. Special attention is given to the impact of nanoscale surface and interface structures on these mechanisms to enhance the efficiency and safety of carbon storage.

✔ Unconventional Subsurface Energy Development: Using multiscale numerical simulation techniques from the nanoscale to the macroscale, we study the extraction processes and optimization strategies for unconventional energy sources such as shale gas, hydrogen, and geothermal energy, promoting the sustainable development of clean energy.

✔ Energy Technology and System Optimization Models: We develop and apply advanced models to optimize the efficiency and environmental impacts of various energy systems. By integrating multiscale research from the micro- to the macroscale, we provide scientific evidence to inform energy policy decisions.

        Our team combines experimental analysis and theoretical calculations based on nanoscale geoscience principles. Through multiscale numerical simulations, we are committed to contributing innovative solutions to the goals of carbon neutrality and sustainable development.