Fluid dynamics has been advanced as prevention to explosion of batteries in vehicles other machines otherwise known as thermal runaway incidents.
An expert and doctoral student specialising in fluid dynamics, Adetokunbo Awonusi disclosed that his research on fluid dynamics is aimed at improving battery thermal management systems.
According to him, “The research addresses critical safety concerns linked to thermal runaway incidents, which can lead to explosions and pose significant risks to human health and the environment, adding that, with the increasing reliance on electric and hybrid vehicles, his research has become increasingly vital.
Awonusi, in an interview with Nigerian Tribune at the weekend, noted that: “the increase in electric and hybrid vehicle usage necessitates further improvements in battery thermal management to mitigate risks associated with thermal runaway.”
“Proper battery thermal management is essential to prevent thermal runaway, which can have catastrophic consequences.”
Awonusi’s research focuses on innovating techniques to enhance the safety and efficiency of lithium-ion batteries, which are central to modern energy storage solutions.
He recalled that his fascination with fluid dynamics began during his undergraduate studies at the University of Ibadan, where he earned a Bachelor of Science in Petroleum Engineering.
Awonusi further noted that his academic journey was shaped by the mentorship of esteemed professors, fueling his passion for applying fluid mechanics to real-world challenges.
After gaining practical experience in the oil industry, he said, he returned to the University of Ibadan to pursue a Master’s in Mechanical Engineering, where he distinguished himself as the top student in his cohort.
Currently, Awonusi is pursuing his doctoral studies at Oklahoma State University, delving into particle capture and filtration mechanisms in marine suspension feeders.
This research, he said, not only enhances understanding of ecological interactions but also contributes to advancements in environmental sustainability.
“My goal is to focus my expertise on improving battery thermal management systems to prevent thermal runaway and reduce the release of toxic particles during such events,” he stated.
In addition to his research endeavours, Awonusi added that he is active in mentoring young scholars and aspiring engineers, emphasising the importance of nurturing curiosity and innovation in the next generation.
“It’s crucial to encourage young minds to explore their interests and pursue their passions in engineering and research,” he remarked, believing that fostering a culture of inquiry will drive progress in science and technology.
Awonusi has presented his findings at various prestigious conferences across the United States, discussing topics such as filtration by marine organisms and the effects of deformation on colony-scale flow.
He said his ability to communicate complex ideas effectively has inspired both peers and students alike.
Awonusi pointed out that he will continue to explore the frontiers of fluid dynamics, which the academic community eagerly anticipated as his innovative contributions, which promised to significantly impact energy systems, biological sciences, and environmental sustainability.
“With the growing demand for artificial intelligence and better energy solutions, my research is aimed at not just innovation but responsibility towards our planet,” he concluded, as his commitment to advancing technology while safeguarding human health embodies a vision for a sustainable future.
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