Processed seaweed and winemaking waste co-fermentation for biogas extraction: pilot study

Zaimis, Uldis; Jurmalietis, Roberts; Jansone, Anita

doi:10.22616/erdev2018.17.n497

Cited by 3 publications

(4 citation statements)

References 7 publications

(5 reference statements)

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“…Further research is needed to make the final material suitable for practical use. 5. Besides economic gains, Furcellaria lumbricalis bioplastic projects would facilitate the Baltic Sea coastal environment quality improvement through beach cleaning from seaweed waste.…”

Section: Discussionmentioning

confidence: 99%

“…Seaweed communities on Western Latvia coast (the site of the current research) are represented predominantly by black carrageen Furcellaria lumbricalis populations. Dead carrageen is washed ashore by waves and frequently piles up on a seashore and, accordingly, has been perceived as an annoying garbage by local community (according to rough calculations, about 300-400 tons of seaweed detritus have been removed from Liepaja beach annually [5]). Nevertheless, dead seaweed biomass could be recognized not as a waste but, on the contrary, as an underestimated valuable multipurpose feedstock for biogas, ethanol, agar, cosmetic products, bioplastics, etc.…”

Section: Introductionmentioning

confidence: 99%

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Production of seaweed derived bioplastics

Zaimis

Ozolina

Jurmalietis

2021

20th International Scientific Conference Engineering for Rural Development Proceedings

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Since worldwide distribution of non-degradable plastic waste causes serious environmental pollution, growing efforts have been made to replace traditional petroleum derived plastics with biological ones. The present paper focuses on seaweed (macroalgae) detritus as a potential feedstock for bioplastic production, since significant quantities of seaweed residues are available in the research site -Kurzeme coast (Western Latvia). This study aims to adapt the method for polylactic acid (PLA) plastics manufacturing from red seaweed Furcellaria lumbricalis (black carrageen) and to manipulate properties of the plastic material produced. Furcellaria material has been gathered on Kurzeme coast in Liepaja city and brought to the Liepaja University for carrageenan substances isolation/separation. The samples were thoroughly washed with tap water, then boiled for 2 hours and hot filtered into cold isopropanol and subsequently blended with plasticizers (glycerine, potato starch, seaweed particles) in order to achieve the desirable physical and thermomechanical properties of the carrageenan product. At the end, the samples were dried at temperature 25 ºC for 24 hours. Carrageenan material was improved through combining two plasticizers (potato starch and glycerine)bioplastic was suitable now for manufacturing spoons, cups, packaging boxes, etc. Still, research results should be considered as preliminary onesfurther studies are necessary to develop compatible bioplastic from Furcellaria.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Production of seaweed derived bioplastics

Zaimis

Ozolina

Jurmalietis

2021

20th International Scientific Conference Engineering for Rural Development Proceedings

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“…So more attention should be given towards the extraction of nutraceuticals and bioactive compounds from agar processing industrial waste. Such ingredients having health beneficial value can be introduced in the formulation of novel food products with specified health beneficial effects and pharmaceutical value [55][56][57][58][59][60].…”

Section: Examines Mar Biol Oceanogrmentioning

confidence: 99%

Valorisation of Seaweed Waste from Agar Processing Industry

2023

EIMBO

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“…A gas storage tank, connected to the gas outlet pipe and featuring a valve for closure. Setup installation included a pressure relief valve/siphon [6]. On February 20, 2022, a biomass collecting, and drainage procedure was carried out, extracting biomass from the anaerobic fermentation equipment.…”

Section: Anaerobic Fermentationmentioning

confidence: 99%

Anaerobic fermented algae furcellaria lumbricalis tablets as a dual-purpose fertilizer and substrate for sustainable seedling growth

Ozolina

2023

E3S Web Conf.

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This article presents a study focused on the creation, evaluation of anaerobic fermented algae Furcellaria lumbricalis pressed biomass tablets as a dual-purpose fertilizer and substrate for sustainable seedling growth. The research aims to address the need for more sustainable agricultural practices by exploring alternative solutions to chemical fertilizers. The methodology involved collecting and preparing Furcellaria Lumbricalis algae from the Baltic Sea coast, followed by anaerobic fermentation in a small-scale bioreactor. The resulting digestate was formed into tablets using a designed press and template. A growth experiment was conducted using basil seeds, comparing the performance of seedlings grown with the algae tablets to those grown with traditional substrate. The results showed that the seedlings grown using the anaerobic fermented algae tablets exhibited comparable growth rates and biomass to those grown with conventional methods. Effectiveness of the tablets can be attributed to the breakdown of organic matter during the fermentation process, which makes nutrients more accessible to plants and improves their uptake. However, further research is necessary to optimize the concentrations and formulations of the anaerobic fermented algae tablets. The effectiveness of these tablets should be evaluated in different plant species and growing conditions. In conclusion, this study provides promising evidence that anaerobic fermented algae Furcellaria Lumbricalis tablets could serve as an effective and sustainable solution for fertilizer and substrate needs in seedling growth.

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Processed seaweed and winemaking waste co-fermentation for biogas extraction: pilot study

Cited by 3 publications

References 7 publications

Production of seaweed derived bioplastics

Production of seaweed derived bioplastics

Valorisation of Seaweed Waste from Agar Processing Industry

Anaerobic fermented algae furcellaria lumbricalis tablets as a dual-purpose fertilizer and substrate for sustainable seedling growth

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