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Small-scale desalination made easy with solar evaporators

Small-scale desalination made easy with solar evaporators

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In recent research, engineers have successfully prototyped an inexpensive solar evaporator, made of wood, for affordable small-scale desalination.

According to the study published in Advanced Materials, the evaporator generates steam with high efficiency and minimal need for maintenance.

About a billion people around the world lack access to safe drinking water. Desalinating salty water into drinkable water can help to fill this dangerous gap. But traditional desalination systems are far too expensive to install and operate in many locations, especially in low-income countries and remote areas.

The design employs a technique known as interfacial evaporation, “which shows great potential in response to global water scarcity because of its high solar-to-vapour efficiency, low environmental impact, and portable device design with low cost. These features make it suitable for off-grid water generation and purification, especially for low-income countries,” said Liangbing Hu, senior author of the study.

Interfacial evaporators are made up of thin materials that float on saline water. Absorbing solar heat on top, the evaporators continuously pull up the saline water from below and convert it to steam on their top surface, leaving behind the salt, explained Hu.

However, over time salt can build up on this evaporative surface, gradually degrading performance until it is removed, he said.

Hu and his colleagues minimised the need for this maintenance with a device made out of basswood that exploits the wood’s natural structure of the micron-wide channels that carry water and nutrients up to the tree.

The researchers supplement these natural channels by drilling a second array of millimetre-wide channels through a thin cross-section of the wood, said Yudi Kuang, the lead author of the study. The investigators then briefly expose the top surface to high heat, which carbonises the surface for greater solar absorption.

In operation, as the device absorbs solar energy, it draws up salty water through the wood’s natural micron-wide channels. Salt is spontaneously exchanged from these tiny channels through natural openings along their sides to the vastly wider drilled channels, and then easily dissolves back into the water below.

“In the lab, we have successfully demonstrated excellent anti-fouling in a wide range of salt concentrations, with the stable steam generation with about 75 per cent efficiency,” said Kuang.

“Using natural wood as the only starting material, the salt-rejecting solar evaporator is expected to be low-cost,” added research associate Chaoji Chen.

The evaporator approach is also effective in other types of wood with similar natural channels. The researchers now are optimising their system for higher efficiency, lower capital cost, and integration with a steam condenser to complete the desalination cycle.

Hu’s lab also recently developed another solar-heated prototype device that takes advantage of carbonised wood’s ability to absorb and distribute solar energy–this one created to help clean up spills of hard-to-collect heavy oils.

“Our carbonised wood material demonstrates rapid and efficient crude oil absorption, as well as low cost and scalable manufacturing potential,” said Kuang.

“Wood is an intriguing material scaffold, with its unique hierarchically porous structure, and it is a renewable, abundant and cost-effective resource. In our lab, the fundamental understanding of biomaterials (especially wood) leads us to achieve extraordinary performance that is competitive with widely used but non-sustainable materials,” Hu said.

Source: business-standard
Anand Gupta Editor - EQ Int'l Media Network

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