Valorization of camelina oil to biobased materials and biofuels for new industrial uses: a review

Global environmental pollution is a growing concern, especially the release of carbon dioxide from the use of petroleum derived materials which negatively impacts our environment's natural greenhouse gas level. Extensive efforts have been made to explore the conversion of renewable raw material...

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Bibliographic Details
Published in:RSC advances 2022-09, Vol.12 (42), p.2723-27245
Main Authors: Arshad, Muhammad, Mohanty, Amar K, Van Acker, Rene, Riddle, Rachel, Todd, Jim, Khalil, Hamdy, Misra, Manjusri
Format: Article
Language:English
Subjects:
Alkyd resins
Biodiesel fuels
Biofuels
Biopolymers
Carbon dioxide
Chemistry
Cosmetics
Food
Greenhouse gases
Industrial applications
Natural gas
Polymer matrix composites
Raw materials
Vegetable oils
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Summary:Global environmental pollution is a growing concern, especially the release of carbon dioxide from the use of petroleum derived materials which negatively impacts our environment's natural greenhouse gas level. Extensive efforts have been made to explore the conversion of renewable raw materials (vegetable oils) into bio-based products with similar or enhanced properties to those derived from petroleum. However, these edible plant oils, commonly used for human food consumption, are often not suitable raw materials for industrial applications. Hence, there is an increasing interest in exploring the use of non-edible plant oils for industrial applications. One such emerging oil seed crop is Camelina sativa , generally known as camelina, which has limited use as a food oil and so is currently being explored as a feedstock for various industrial applications in both Europe and North America. Camelina oil is highly unsaturated, making it an ideal potential AGH feedstock for the manufacture of lower carbon footprint, biobased products that reduce our dependency on petroleum resources and thus help to combat climate change. This review presents a brief description of camelina highlighting its composition and its production in comparison with traditional plant oils. The main focus is to summarize recent data on valorization of camelina oil by various chemical means, with specific emphasis on their industrial applications in biofuels, adhesives and coatings, biopolymers and bio-composites, alkyd resins, cosmetics, and agriculture. The review concludes with a discussion on current challenges and future opportunities of camelina oil valorization into various industrial products. This review gathers current research work, and strategies for valorization of an emerging non-food camelina oil seed crop into renewable polymers building blocks for industrial applications, current challenges, and future opportunities.
ISSN:2046-2069
2046-2069
DOI:10.1039/d2ra03253h