Effect of surface roughness on methane hydrate formation and its implications in nucleation design.

Li, Mengyang; Fan, Shuanshi; Wang, Yanhong; Lang, Xuemei; Li, Gang

As a new form of energy with substantial potential, natural gas hydrate will play a crucial strategic role in the future due to its vast reserves and broad industrial application prospects. To better comprehend the nucleation and growth mechanism of clathrate hydrate, an enhanced thermodynamic model was proposed based on the wall roughness model and nucleation theory. In general, we discovered that the nucleation of hydrate on a smooth wall surface conforms to the conclusion of classical nucleation theory. However, curvature and surface roughness are frequently characterized by hydrophilicity's inhibition of hydrate and hydrophobicity's enhancement. The specific situation is more complex and requires specific analysis and discussion. Nonetheless, this also explains the uneven distribution of hydrate nucleation induction time. Our research reveals a fundamental method for designing or manipulating the heterogeneous nucleation of hydrates. We foresee promising applications in hydrate‐related technologies based on the fractal structure of the substrate's surface.

GAS hydrates; METHANE hydrates; NUCLEATION; HETEROGENOUS nucleation; DISCONTINUOUS precipitation; MODEL theory; FRACTAL dimensions

AIChE Journal, 2023, Vol 69, Issue 6, p1

0001-1541

Academic Journal

10.1002/aic.18069