Oman's significant consumption of dates led to a surplus of waste generated from the seeds. Traditionally used for coffee, an innovative idea sparked a determined seven-year research and development process, resulting in successful biodiesel production from date kernels.

The biofuel revolution in Oman stands as a shining example of innovation, collaboration, and perseverance in the face of daunting challenges. Dr. Al Haj's pioneering work exemplifies the transformative power of research and development in addressing pressing environmental issues and shaping a more sustainable and prosperous future for generations to come.

A Mwasalat bus in Oman is powered entirely by biodiesel derived from waste date Kernels.

Jomar Mendoza for Oman Observer | Business Economy | MUSCAT, MAY 13

A groundbreaking initiative is revolutionizing the way people think about energy production and waste management. Dr. Lamya al-Haj, an Associate Professor at the College of Science at Sultan Qaboos University, has spearheaded a remarkable project to transform waste date seeds into biodiesel, paving the way for a more sustainable future for the Middle East region.

Gaining traction, the World Economic Forum (WEF) recently featured a video of Dr. Al Haj’s work. In the featured video, the journey toward biofuel production from date kernels began in 2015 when Dr. Al Haj and her team recognized the vast potential of utilizing the oil content in date seeds to create biodiesel.

With Oman being a significant consumer of dates, there was an abundance of waste generated from the seeds, which were traditionally used for coffee. This innovative idea sparked a seven-year-long research and development process, culminating in successful biodiesel production from date kernels.

"The date seeds were used for coffee as coffee beans. We thought, can we utilize the oil content in the seeds to convert that into biodiesel because it has about 9 to 15% of oil in the seeds? And that's what sparked the idea in the very beginning," Dr. Al Haj explained.

The first tangible outcome of this groundbreaking research was the launch of a Mwasalat bus in Oman powered entirely by biodiesel derived from waste date kernels. This achievement marked a significant milestone, showcasing the potential for renewable energy solutions to replace traditional fossil fuels in the transportation sector.

"For me, it was a personal achievement because I wanted to drive home the point that research can go from the lab to the road, and it's a very strong message to send to our youth, to our students, to our society, that research should be focused on real problems in our countries and the world," Dr. Al Haj expressed.

Beyond the environmental benefits of reducing waste and carbon emissions, the biofuel production project in Oman carries wide-ranging social and economic implications. By creating a demand for date kernels as a raw material for biodiesel production, the project has the potential to generate new sources of income for farmers and create job opportunities in the agricultural sector.

"So this is going to create jobs for the farmers because instead of them throwing the seeds on in the farming industry, now they're going to be part of the solution for the collection," Dr Al Haj highlighted.

The biofuel revolution in Oman stands as a shining example of innovation, collaboration, and perseverance in the face of daunting challenges. Dr Al Haj's pioneering work exemplifies the transformative power of research and development in addressing pressing environmental issues and shaping a more sustainable and prosperous future for generations to come.