Evaporation-Induced Diffusion Acceleration in Liquid-Filled Porous Materials

Wang, Xuefeng; Jia, Pengpeng; Sun, Shanyouming; He, Xiaocong; Lu, Tian Jian; Xu, Feng; Feng, Shangsheng

doi:10.1021/acsomega.1c03052

Cited by 13 publications

(2 citation statements)

References 67 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…This form of a single interfacial solar evaporation layer greatly increases the evaporation rate compared to bulk heating, but the entire bottom of the photothermal membrane is in direct contact with the bulk water and has a large heat dissipation area. − To reduce heat dissipation, photothermal layers are designed as multilayered or porous structures. − However, photothermal layers still have unavoidable heat loss to bulk water. To further improve the evaporation rate, the evaporation interface can be separated from the original bulk water surface to obtain better solar radiation concentration, such as jellyfish mode, hollow cone mode, arch mode, hanging mode, etc. − In one of them, Liu et al used a polyaniline-coated cotton fabric that was hung in an arc mode with the central portion lingering in the air, which exhibited efficient double-surface evaporation at a rate of 1.94 kg·m –2 ·h –1 under a solar illumination of 1.0 kW·m –2 .…”

Section: Introductionmentioning

confidence: 99%

Hanging Photothermal Fabric Based on Polyaniline/Carbon Nanotubes for Efficient Solar Water Evaporation

Wang,

Lin,

et al. 2023

ACS Omega

View full text Add to dashboard Cite

Solar-driven water evaporation is essential to provide sustainable and ecofriendly sources of fresh water. However, there are still great challenges in preparing materials with broadband light absorption for high photothermal efficiency as well as in designing devices with large evaporation areas and small heat dissipation areas to boost the water evaporation rate. We designed a hanging-mode solar evaporator based on the polyaniline/carbon nanotube (PANI/CNT) fabric, in which the photothermal fabric acts as the solar evaporator and the micropores on the cotton fabric act as the water transfer channels. The hanging mode provides efficient evaporation at both interfaces by greatly reducing the heat dissipation area. The hanging mode PANI/CNT fabric solar evaporator can achieve an evaporation rate of 2.81 kg•m −2 •h −1 and a photothermal efficiency of 91.74% under a solar illumination of 1 kW•m −2 . This high-performance evaporator is designed by regulating the photothermal material and evaporation device, which provides a novel strategy for sustainable desalination.

show abstract

Section: Introductionmentioning

confidence: 99%

Hanging Photothermal Fabric Based on Polyaniline/Carbon Nanotubes for Efficient Solar Water Evaporation

Wang,

Lin,

et al. 2023

ACS Omega

View full text Add to dashboard Cite

show abstract

“…Another significant parameter that controls the liquid wicking in porous media is the evaporation effect. , The evaporation rate is high in the liquid present in porous media under high-temperature and low-humidity conditions . Due to the evaporated mass, the liquid cannot reach the height considered in the L–W model .…”

Section: Introductionmentioning

confidence: 99%

Imbibition of Liquids through a Paper Substrate in a Controlled Environment

Mahapatra

2022

Langmuir

View full text Add to dashboard Cite

Liquid spreading on open surfaces is a widely observed phenomenon. The physics of liquid spreading has become more complex when the surface is porous like paper or fabrics due to the evaporation of the liquid and swelling of the fibers. In this study, we have performed liquid imbibition experiments on paper strips in a controlled environment with and without using hydrophobic boundaries. The experimental results are compared to the existing analytical models that account for each effect separately. The existing models were found to be inaccurate in predicting the experimental results. We developed new analytical models by modifying existing models to predict the capillary rise of the liquid through the paper substrate accurately. Different effects, such as the barrier (hydrophobic boundary), evaporation, and swelling, are considered simultaneously while developing the modified models to mimic the exact practical situation for the first time. We discovered that the modified models predict the experimental results more accurately than the existing models. For cases with and without barriers, the final models considering several effects simultaneously predict the data with a maximum error range of 7 and 10%, respectively. Finally, we conducted capillary rise experiments with volatile (water) and non-volatile (silicon oil) liquids at various temperatures and under various relative humidity conditions to validate the analytical results.

show abstract

Experimental study on the influence of environment conditions on the performance of paper-based microfluidic fuel cell

Zhang

et al. 2023

Applied Thermal Engineering

View full text Add to dashboard Cite

Evaporation-Induced Diffusion Acceleration in Liquid-Filled Porous Materials

Cited by 13 publications

References 67 publications

Hanging Photothermal Fabric Based on Polyaniline/Carbon Nanotubes for Efficient Solar Water Evaporation

Hanging Photothermal Fabric Based on Polyaniline/Carbon Nanotubes for Efficient Solar Water Evaporation

Imbibition of Liquids through a Paper Substrate in a Controlled Environment

Experimental study on the influence of environment conditions on the performance of paper-based microfluidic fuel cell

Contact Info

Product

Resources

About