Surrounding Effects on the Evaporation Efficiency of a Bi-layered Structure in Solar Steam Generation: a Numerical Study

TL;DR

This numerical study investigates how various factors like water depth, temperatures, porosity, and thermal conductivity affect the evaporation efficiency of bi-layered solar steam generation systems, providing design insights.

Contribution

The paper develops a predictive model and analyzes the effects of multiple parameters on evaporation efficiency, offering new guidelines for designing high-performance bi-layered solar steam systems.

Findings

Thermal insulation is unnecessary when water depth is sufficient.

Evaporation efficiency linearly depends on ambient and water temperatures.

Porosity significantly influences thermal conductivity and efficiency.

Abstract

The bi-layered structure has drawn a wide interest due to its good performance in solar steam generation. In this work, we firstly develop a calculation model which could give a good prediction of experimental results. Then, this model is applied to numerically study the effects of the depth of the liquid water, the temperature of the ambient air, the temperature of the liquid water, the porosity and the thermal conductivity of the second-layer porous material on the evaporation efficiency. Results show that when the depth of the liquid water is large enough, the thermal insulation at the bottom of the liquid water is not needed. There is a linear dependence of the evaporation efficiency on the temperature of the ambient air or/and the temperature of the liquid water, and an equation has been given to describe this phenomenon in the text. Compared to the temperature of the ambient air, the temperature of the liquid water could have a much larger effect on the evaporation efficiency. The effective thermal conductivity of the second layer, which could impose important effect on the evaporation efficiency, mainly depends on the porosity rather than the thermal conductivity of the second-layer porous material. Thus, we do not need to take into consideration of the thermal conductivity when selecting second-layer materials. This study is expected to provide some information for designing a high-evaporation-performance bi-layered system.