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Oldendorff study finds biofuels stability and degradation issues

A study commissioned by German shipowner Oldendorff Carriers shows stability and degradation issues for biofuels.

Marcus Hand, Editor

November 8, 2023

2 Min Read
Edwine O. CBH BioFuel Trial Loading barley in Albany AUS Jan 22 2
Photo: Oldendorff Carriers

Drop-in biofuels are growing in popularity as a way to reduce CO2 emissions from existing ships with making modifications to the vessel’s engines.

As part of a 2019 research agreement between Oldendorff and the Massachusetts Institute of Technology’s (MIT) Center for Bits and Atoms (CBA) the shipowner asked MIT to conduct a study on the long-term stability and degradation of a B20 advanced biofuel blend.

The study aimed to address concerns that biofuel blends would be more prone to oxidative degradation due to the presence of unsaturated fatty acids resulting in stability and degradation issues over time when the fuel is stored in a vessel’s tanks.

The study involved monitoring of 15 samples of B20 biofuel, consisting of a 20% bio-oil derived from used cooking oil, blended with very low sulphur fuel that were bunkered by the Edwine Oldenodorff in January 2022. The 15 samples were split into three separate storage groups at different temperatures. The samples were then tested regularly across eight different chemical parameters from May 2022 to April 2023.

After a thorough analysis, fuel degradation was observed:

  • Low levels (<10 CFU/ mL)1 of microbial contamination (MBC) were observed after the first month of storage in almost all samples, irrespective of storage conditions. MBC increased over time, reaching almost 50 CFU/mL in samples exposed to light. FAME content in biofuels encourages microbial growth as microorganisms biodegrade natural fats and oils. MBC can lead to operational problems, including fouling of tanks, pipes and filters, tank corrosion, and fuel injection equipment damage. Conclusion: biocide addition is highly recommended to preserve blended biofuel for an extended period.

  • Oxidative degradation, began from M3-M6 onward, as indicated by a significant increase in peroxide values, a slight increase in acid value, and a slight decrease in oxidation onset temperature. Addition of antioxidants is recommended together with regular monitoring of fuel quality for long-term onboard storage, especially with higher biofuel blends.

  • No sediment was generated after thermal ageing and there was no observed sediment formation or water increase over time.

  • Although exposure to air, water & light contributed significantly to fuel degradation, the impact of storage temperature on degradation remains unclear.

Related:HMM aims for 5 – 10% biofuel usage annually

About the Author

Marcus Hand

Editor

Marcus Hand is the editor of Seatrade Maritime News and a dedicated maritime journalist with over two decades of experience covering the shipping industry in Asia.

Marcus is also an experienced industry commentator and has chaired many conferences and round tables. Before joining Seatrade at the beginning of 2010, Marcus worked for the shipping industry journal Lloyd's List for a decade and before that the Singapore Business Times covering shipping and aviation.

In November 2022, Marcus was announced as a member of the Board of Advisors to the Singapore Journal of Maritime Talent and Technology (SJMTT) to help bring together thought leadership around the key areas of talent and technology.

Marcus is the founder of the Seatrade Maritime Podcast that delivers commentary, opinions and conversations on shipping's most important topics.

Conferences & Webinars

Marcus Hand regularly moderates at international maritime events. Below you’ll find a list of selected past conferences and webinars.

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