Accumulation of frozen hydrates or moisture restricts flow and prevents regulation in large-caliber liquefaction equipment. Eliminating these obstructions ensures continuous operation and prevents mechanical failure of control components.

Suboptimal thermal integration during phase changes leads to significant exergy loss in hydrocarbon processing. Minimizing these losses increases system-wide thermodynamic efficiency.

Inconsistent steam pressure and heat conversion rates lead to system inefficiencies and mechanical stress. Stabilizing these fluctuations prevents equipment degradation and energy loss.

Uneven distribution of low-temperature fluid phases causes thermal imbalances and reduced heat transfer efficiency. Resolving this prevents localized hot spots and ensures predictable thermodynamic cycle performance.