Biofuel production from phytoremediation derived sunflower biomass

Ana P. G. C. Marques*, Nuno Prata, Paula M. L. Castro, Nídia S. Caetano

*Corresponding author for this work

Research output: Contribution to conferencePaper

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Abstract

There are presently more than 3 million contaminated sites all over EU, according to the EEA (report 25186 EN). Heavy metal contamination is of particular concern, as metals are not degradable. Phytoremediation is gaining attention from the public and is an attractive low cost alternative for soil requalification, by establishing a vegetation cover which will stabilize the site, avoiding dispersion of contamination and simultaneously removingpollutants. Although the fate of harvested biomass is a common obstacle for its implementation, it may represent an opportunity for producing energy. This work presents a novel integrated strategy comprising the utilization of all plant parts for the generation of biodiesel. Combinations of sunflower and plant growth promoting microbiota were assessed growing in agricultural and metal contaminated soils.
Harvested plant tissues were analysed and it was possible to observe that accumulation of Zn and Cd was made mainly in the roots, followed by the stems and the flowers, with the values registered for plants grown in contaminated soils being higher than the reported phytotoxic levels described in literature. Also, plants grown in the agricultural soil presented higher biomass rates. Sunflower seeds were then used for oil extraction and it was possible to observe efficiencies of up to 20 ml oil/m2, with only the oil from plants grown in industrial soil presenting levels of 1.8 mg Zn/l. Plant stems were used for bioethanol fermentation with yields of up to 280 and 162 ml/m2 for plants growing respectively in agricultural and industrial soils. Once again only plants grown in the industrial soil presented detectable levels of 1.1 mg Zn/l (and no Cd). Biodiesel was then produced via transterification of the extracted oil with the produced ethanol, allowing the complete production of a biofuel from this phytoremediation derived biomass. Reference parameters and heavy metal levels were determined and compared for both the biodiesel derived from plants grown in industrial and agricultural soils.
Original languageEnglish
Number of pages21
Publication statusPublished - Jun 2021
Event2nd Global Webinar on Plant Science and Research -
Duration: 26 Feb 202127 Feb 2021
https://irisscientificgroup.com/conferences/plantscience/webinar/

Conference

Conference2nd Global Webinar on Plant Science and Research
Period26/02/2127/02/21
Internet address

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