Adrian Mularczyk

TL;DR: An unobserved mechanism for superhydrophobicity breakdown is described: unlike for room temperature drops, where transition from bouncing to sticky (impaled) behavior occurs sharply at the condition of full texture penetration, under supercooled conditions, the full penetration velocity threshold is increased markedly and no bubble is entrapped.

TL;DR: It is found that several different parameters contribute to observed performance, including hydrophilicity, microstructure, electrochemical surface area, and surface chemistry, and it is important to note that not all of these properties improve with increasing pretreatment temperature.

TL;DR: In this article, the effect of ordered microstructures on the dynamics of gas-water dynamics in porous layers of fuel cells was not studied, but the importance of pore morphology on improving the two-phase flow dynamics was highlighted.

TL;DR: In this paper, a computational fluid dynamics model of a channel (one liquid inlet, one liquid-inlet and one two-phase outlet), applicable for PEFC gas channel water transport, is developed.

TL;DR: In this paper, three thermocline control (TCC) methods are evaluated for air and molten salt as heat transfer fluid (HTF) using simulations of stand-alone storages as well as Storages integrated into a concentrated solar power plant.