Masdar develops biodiesel chemical reactor

A team of researchers from the Masdar Institute, in collaboration with Tadweer, are testing an integrated chemical reactor they have designed to produce high-quality biodiesel from fats, including waste cooking oil

Biodiesel, Masdar, News

A team of researchers from the Masdar Institute of Science and Technology, in collaboration with Tadweer - Abu Dhabi’s Centre of Waste Management, are testing an integrated chemical reactor they have designed to produce high-quality biodiesel from fats, including waste cooking oil.

The product is expected to use less energy and potentially cost lower than traditional biodiesel reactors, a Wam report said.

Masdar Institute’s Dr Isam Janajreh, associate professor of mechanical and materials engineering, heads the Tadweer-sponsored project that also includes Mohammed Hussain, a student completing his MSc in mechanical engineering, and Masdar Institute MSc alumna Tala El Samad.

The biodiesel reactor developed by the Masdar Institute team integrates mixing by soundwave agitation, flow mixing by a static mixer, and separation, recovery, and purification for efficient conversion of waste cooking oil into its two main components – biodiesel and glycerol. This process yields much less of the unwanted glycerol and more biodiesel than the high-power mixing method employed by previous reactors and conventional industrial methods, the report said.

"The ultrasound method makes biodiesel quickly in a continuous process. Our reactor can produce just as much biodiesel as the large conventional chemical reactors, but at a much smaller spatial footprint," Hussain explained.

Hussain and El Samad co-authored two papers on the optimised biodiesel reactor that were published in the journal of Applied Energy and the International Journal of Thermal & Environmental Engineering, along with three papers that were presented at international conferences.

The biodiesel reactor can produce 50 litres of biodiesel per hour continuously, while a typical industrial-sized reactor may produce 500 litres every 10 hours in a batch process, which is a slower type of manufacturing process that produces products in groups instead of in a continuous flow. Although the production quantities possible are similar, the Masdar Institute reactor has a much smaller physical footprint (occupying 85 percent less area than conventional reactors) and very importantly can produce a high quality biodiesel.

"We determined the biodiesel’s quality by running it through qualitative tests, then followed with engine performance testing. We found that the biodiesel produced by our reactor generated less soot, nitric oxide, carbon dioxide and sulphur dioxide when compared to the biofuel produced by conventional reactors and petroleum-derived diesel with no compromises in power," Dr Janajreh said.

Because of the reactor’s small and compact size, the production capacity is suitable for a large number of organisations that have an interest in sustainable waste transformation. Furthermore, volume can be easily scaled up by linking several reactors together in series to produce the desired quantity of biodiesel.


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