AI Drives Sustainable Change in Waste Coal Usage, Transforming it into Clean Energy

AI, waste coal

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  • Cutting-edge technologies harness artificial intelligence to turn coal waste into hydrogen, mitigating environmental hazards.
  • Lehigh and ERCo’s collaborative effort integrates laser-induced breakdown spectroscopy (LIBS) and machine learning to optimize gasifier feedstock composition in real-time.
  • Commercial Viability: Building on success, the ML Enhanced LIBS process aims to make the leap from research to practical application, revolutionizing waste coal utilization.

In a groundbreaking move towards sustainable energy solutions, researchers are leveraging artificial intelligence to revolutionize the treatment of coal waste. This shift not only addresses environmental hazards but also taps into the latent energy potential of waste coal, presenting a transformative solution for a longstanding issue. With 2,907 million tons of coal waste generated in 2019 alone, the stakes are high, and innovative technologies are taking center stage.

The breakthrough comes in the form of gasification, a process that harnesses coal waste, biomass, and waste plastics, transforming them into hydrogen through a combination of oxygen and high heat in a gasifier. This environmentally beneficial method supports the Biden Administration’s objectives of lowering greenhouse gas emissions through the utilization of hydrogen while also reducing the risks associated with coal waste, such as hazardous metal leaching and spontaneous fires.

LIBS and ML revolutionizing gasification control

ERCo and the ERC have collaborated on crosscutting technologies, integrating AI into the energy and power-generation sectors. In Phase I, the focus was on developing a system capable of characterizing feedstock blends in real-time before entering the gasifier. Leveraging laser-induced breakdown spectroscopy (LIBS) and machine learning (ML), the team identified crucial parameters in coal waste and biomass, enhancing gasifier operators’ ability to optimize oxygen use and reduce downtime.

LIBS, utilizing a laser beam on flowing feedstock, produces plasma emitting element-specific radiation. ML algorithms enhance accuracy, enabling real-time monitoring of feedstock properties. This fusion of spectroscopy and AI is a game-changer, offering precise control over gasifier operations.

Commercializing ML enhanced LIBS in phase II

The results of Phase I were promising, showcasing high accuracy across diverse samples. This success paved the way for Phase II, where the focus is on making the ML Enhanced LIBS process commercially viable. By utilizing ERCo’s commercial gasifier, the technology aims to measure material blends’ composition on a conveyor belt, incorporating various materials into the machine-learning algorithms’ training.

With the groundwork laid in Phase I, Phase II aims to optimize the ML Enhanced LIBS process for real-life conditions. The focus is on achieving commercial viability, ensuring the technology can seamlessly integrate into industries beyond energy. ERCo envisions applications not only in coal waste and biomass processing but also in diverse fields such as mining, cement, additive manufacturing, and beyond.

Waste coal’s Global resurgence aided by AI

As the Phase II efforts unfold, stretching beyond the realms of waste coal and biomass, the researchers envision a ripple effect across diverse sectors. Beyond mining and cement, possibilities extend to additive manufacturing and biomass utilization, showcasing the adaptability of AI-driven solutions in revolutionizing industrial processes.

In this evolving landscape, the AI-driven transformation of waste coal into clean energy not only signifies a turning point but also sets the stage for a paradigm shift in how we approach energy generation. The fusion of LIBS and AI not only promises a greener future but beckons industries worldwide to embrace innovation for a sustainable tomorrow. The question now isn’t merely about redefining energy landscapes—it’s about catalyzing a global shift towards a cleaner, more efficient, and sustainable energy paradigm. Can AI-driven gasification be the catalyst we need to unlock the latent potential of waste coal on a scale that transforms our global energy narrative?

Disclaimer. The information provided is not trading advice. Cryptopolitan.com holds no liability for any investments made based on the information provided on this page. We strongly recommend independent research and/or consultation with a qualified professional before making any investment decisions.

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Aamir Sheikh

Amir is a media, marketing and content professional working in the digital industry. A veteran in content production Amir is now an enthusiastic cryptocurrency proponent, analyst and writer.

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