Computer Scientists and Energy Tech Experts Join Forces in Enhancing Solar Technology

The Enact Journal

Computer Scientists and Energy Tech Experts Join Forces in Enhancing Solar Technology

Published On : 25/05/2022

In 2021, the U.S. Department of Energy released a report that showed the rapid expansion of solar energy. Solar power is the country’s cheapest and fastest-growing renewable energy source, and it’s expected to be able to provide around 40% of the nation’s electricity by 2035. Tools like storage and advanced inverters, and transmission expansion can help increase grid flexibility by making solar energy available to more parts of the U.S. Various technologies like solar software are also being developed to make related processes more efficient, as well as further push the use of solar energy.

The development of this clean energy technology involves a multidisciplinary team of experts. Among the many professionals involved in the development of the solar industry, we’ll discuss two of the most crucial below:

Energy Technology Experts

Energy technology is the innovation or invention of technology that is involved in efficient and safe extraction, storage, transfer, and use of energy. This is an interdisciplinary engineering science, and experts in this field look for ways to better handle energy while also avoiding negative side effects on the environment. For solar energy, this can include the use of solar pv software in experiments to search for new solar cell materials that are scalable, cost-effective, and reliable — such as perovskite. In terms of storage, a relatively new development is a storage system called “sun in a box” — which consists of two tanks of white-hot molten silicon.

As for solar energy use, electric vehicles (EVs) are a big reason for the growth of the solar industry. In fact, 36% of solar owners are likely to have an EV. The U.S. is also slowly experiencing a rise in affordable, long-range models, which can add to their widespread adoption. Furthermore, the Biden administration is promoting EVs and even plans to build a thousand EV charging stations nationwide.

Computer Scientists

Computer scientists are known for designing and implementing computer-based systems, processes, and components. This means the different computer science fields can actually empower computer scientists to make a difference in the solar technology industry. With knowledge of trends like the internet of things and smart devices, they can create solar software solutions that best suit businesses. Cybersecurity training ensures that no cyber threats can compromise the company. Skills in computer architecture and programming in the fields of artificial intelligence, data science, and solid software principles can contribute to the growing interest in the use of quantum computing in solar energy.

Quantum computing can perform calculations faster than traditional computers — which can help improve energy system optimization. The concept behind quantum computing in solar energy is that it can automate processes such as aligning solar panels to get the most amount of sunlight. However, integrating quantum computing in solar energy software is a relatively new idea. There are also many other ways computer scientists can help push the growth of the solar energy industry. For instance, they can create the best solar design software that incorporates predictive maintenance for wind turbines, solar panel strings, and such to prevent unexpected downtime.

How energy technology experts and computer scientists are working together…

There are many ways energy technology experts and computer scientists have come together to use their expertise to forward solar technology. For one, those from Case Western Reserve University are working together to use artificial intelligence’s diagnostic power to make solar power plants more efficient. The team aims to do this with the help of machine learning and shared data. The plan is for computers to collect data from PV plants regarding how they’re performing — as well as their differences in performance in respect to their location and when they were built (which can also answer to how old or new their equipment are). This data from solar monitoring software is then evaluated by a pre-trained computer model. After which, a model will be created by solar software companies to improve the PV plants and be a guide to future systems.

The team also aims to offer the best solid modeling software to solar energy firms and power plants so they can analyze and enhance their systems on their own.

Since solar technology is still in its developmental stage, there are lots in store when it comes to the partnership between computer scientists and energy tech experts. These collaborations through solid software engineering principles aim to one day improve and make the use of solar energy more efficient and sustainable.

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by Therese Kendra