How to find ‘good oil’ at Sea: Study
Washington [US], July 25 (ANI): To save the world’s fish stocks and oceans, scientists are racing to find better and sustainable ways to make healthy nutritional products such as Omega-3 fatty acids, biodiesel, aquaculture and livestock food from fast-growing microalgae. New research has discovered a simple, low-cost and effective way to extract high-value bioactives from single-cell algae oil using waste sulfur from industries such as petrochemical production.
Washington [US], July 25 (ANI): To save the world’s fish stocks and oceans, scientists are racing to find better and sustainable ways to make healthy nutritional products such as Omega-3 fatty acids, biodiesel, aquaculture and livestock food from fast-growing microalgae. New research has discovered a simple, low-cost and effective way to extract high-value bioactives from single-cell algae oil using waste sulfur from industries such as petrochemical production.
New research at Flinders University has discovered a simple, low-cost and effective way to extract high-value bioactives from single-cell algae oil — using waste sulfur from industries such as petrochemical production.
The innovative algae oil production process, described in the international journal ACS Sustainable Chemistry & Engineering, outlines the new method of using waste sulfur to produce enriched saturated triglycerides from sustainably produced algae oil.
The process uses a single reaction to simultaneously produce valuable polymers from polyunsaturated triglycerides and enrich saturated triglycerides for various value-added applications.
The sulfur reaction can draw up to 90% of the unsaturated triglycerides from cultured single-cell algae.
“In this study, we build upon our body of work in sulfur chemistry to find an innovative way to process triglycerides from lipid-rich microalgae,” says Professor Justin Chalker, whose organic polymers have been adapted for environmental remediation, slow-release fertiliser, insulation and e-waste.
“In this case, the algae oil is reacted with sulfur. The polyunsaturated triglycerides form polymers with many established uses, such as environmental remediation. The saturated triglycerides remain unreacted in this process, for recovery and ultimate conversion to value-added substances such as biodiesel,” says Professor Chalker.
Associate Professor Munish Puri, from Flinders University’s Bioprocessing Lab in Medical Biotechnology, has been working on single-cell oils to produce new materials suitable for nutritional supplements, animal-free meats, biodiesel and other products.
“There is growing interest in the bio-based production of lipids from algae,” says Professor Puri, who has a background in industrial biotechnology and is leading the precision fermentation platform for producing such oils.
“Single-cell thraustochytrids are especially attractive in this regard, as they can produce over 50% of their weight as triglycerides.
“But despite their promise, there remains a need for versatile downstream processing to enrich these so-called ‘single-cell oils’ into fatty acid classes based on degree of unsaturation. And that’s what this novel approach is helping to address.” (ANI)