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  4. Proposal for the use of biogas obtained from the biodigestion sargassum: an alternative to conventional fuels in the Domenican Republic
 
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Proposal for the use of biogas obtained from the biodigestion sargassum: an alternative to conventional fuels in the Domenican Republic

Citation Link: https://doi.org/10.15480/882.14254
Publikationstyp
Conference Paper
Date Issued
2024-07
Sprache
English
Author(s)
Ramos Ciprián, Rubén Darío  
Villanueva Rosario, Alexis
Körner, Ina  orcid-logo
Abwasserwirtschaft und Gewässerschutz B-2  
Deipster, Anna
Salavert Fernández, José Miguel
TORE-DOI
10.15480/882.14254
TORE-URI
https://tore.tuhh.de/handle/11420/52991
Start Page
1502
End Page
1514
Citation
28th International Congress on Project Management and Engineering, CIDIP 2024
Contribution to Conference
28th International Congress on Project Management and Engineering, CIDIP 2024  
Publisher DOI
10.61547/2405020
Scopus ID
2-s2.0-85212918181
Publisher
Congress on Project Management and Engineering, CIDIP
ISBN
978-8-4096-3877-2
In the production of renewable energy, one of the most abundant sources is organic matter, known as Biomass. One of the best ways to generate renewable energy is through residual biomass such as Sargassum. This source of biomass has several advantages over terrestrial crops, as it does not compete for land use and does not consume the amount of water necessary to grow food. Considering that in 2022 18 tons of Sargassum invaded Dominican beaches, this biomass is presented as an alternative with great potential to produce biofuels. Life cycle analyzes (LCA) confirmed the environmental benefits of the biogas production system. The organic waste from the biodigester can be used as organic fertilizer, while the biogas can be used for combined heat and power production. After collecting all the data on the input variables, the simulation began. The simulation was carried out using 18.09 kg of dry matter or total solids as input material. Taking the organic dry matter content of 27.49% from laboratory results and with an incubation temperature of 30 degrees Celsius, for a simulated time of 90 days.
Subjects
Biodigestion | Renewable energy | Sargasso
DDC Class
572: Biochemistry
Lizenz
https://creativecommons.org/licenses/by-nc-nd/4.0/
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AT05-020_24.pdf

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