Nav: Home

Aluminum nitride to extend life of solar power plants

December 03, 2018

Today, solar power plants (SPP) are becoming increasingly popular, making it possible to collect and process solar energy on an industrial scale. So-called solar towers are among the most promising types of SPPs. This is a special structure that is a high tower with a water tank and a turbine system inside. The tower is surrounded by heliostats -- large spinning mirrors that absorb the sun`s rays and concentrate the total beam at a single point on the tower. The beam lands on the solar absorber-- a heat-absorbing element, which in turn heats a special salt solution up to 600°C. The water in the adjacent tank is heated from the salt solution and the steam rotates the turbines of the power plant.

Silicon carbide (SiC), a porous ceramic material with a number of useful characteristics--high density, strength, and resistance to oxidation among other things--is the traditional element for solar absorbers. However, silicon carbide has disadvantages -- for example, it is sensitive to the aggressive environment of salt melts.

Aluminum nitride (AIN) is a promising addition to silicon carbide -- it has high thermal conductivity, a low coefficient of thermal expansion, and high temperature resistance. Currently, Sic and AIN composites are mainly used in electronics, but they can potentially be used in a number of other fields, including the thermal transformation of solar energy.

Scientists from the Functional Nanosystems and High-Temperature Materials Department at NUST MISIS, in cooperation with colleagues from the Central Metallurgical R&D Institute (Cairo, Egypt), have developed porous composites based on SiC/AIN, which contain up to 40% aluminum nitride. The optimal compositions of additives and sintering regimes of new composites were selected during the course of the research. They significantly exceed the traditional ones due to the formation of a solid solution at the grain boundaries of silicon carbide. Along with high thermal conductivity and heat resistance, such composites have a low coefficient of thermal expansion, which significantly improves their performance.

"Solar energy requires durable materials without defects. Next, we are planning to test the developed material in solar installations", commented Dr. Emad Ewais, head of the Egyptian research group.

Thanks to positive thermochemical and thermomechanical properties, SiC/AIN composites are also promising for use in other high-temperature fields, such as metallurgy and aerospace engineering.

National University of Science and Technology MISIS

Related Research Articles:

Related Research Reading:

Best Science Podcasts 2019

We have hand picked the best science podcasts for 2019. Sit back and enjoy new science podcasts updated daily from your favorite science news services and scientists.
Now Playing: TED Radio Hour

Jumpstarting Creativity
Our greatest breakthroughs and triumphs have one thing in common: creativity. But how do you ignite it? And how do you rekindle it? This hour, TED speakers explore ideas on jumpstarting creativity. Guests include economist Tim Harford, producer Helen Marriage, artificial intelligence researcher Steve Engels, and behavioral scientist Marily Oppezzo.
Now Playing: Science for the People

#524 The Human Network
What does a network of humans look like and how does it work? How does information spread? How do decisions and opinions spread? What gets distorted as it moves through the network and why? This week we dig into the ins and outs of human networks with Matthew Jackson, Professor of Economics at Stanford University and author of the book "The Human Network: How Your Social Position Determines Your Power, Beliefs, and Behaviours".