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dc.contributor.authorLuna-delRisco M
dc.contributor.authorMendoza-Hernández S
dc.contributor.authorDa Rocha Meneses L
dc.contributor.authorGonzález-Palacio M
dc.contributor.authorArrieta González C
dc.contributor.authorSierra-Del Rio J.
dc.date.accessioned2024-07-31T21:06:58Z
dc.date.available2024-07-31T21:06:58Z
dc.date.created2024
dc.identifier.issn17550084
dc.identifier.urihttp://hdl.handle.net/11407/8432
dc.descriptionThe specialized dairy cattle and porcine subsectors in the Region of Antioquia offer a sustainable and renewable energy source through anaerobic digestion of residual biomass. This process offers multiple advantages, including greenhouse gas emissions reduction, environmentally friendly fertilizer production, and the establishment of self-sustaining models for remote rural areas lacking access to traditional energy sources. Recent advancements in hydrogen production through methane conversion using biogas reforming technologies have garnered substantial attention as a viable fossil fuel alternative. The Colombian National Hydrogen Strategy, aimed at 2030, envisions an electrolysis capacity of 1–3 GW, requiring an estimated USD 5.5 billion investment in hydrogen production and demand projects, notably in mobility and refineries. This necessitates a specialized regulatory framework with incentives to drive lasting investments that align with decarbonization and reindustrialization objectives. This study conducted a comprehensive assessment of animal house boundary residual biomass sources to determine their biogas potential. Industrial livestock activities revealed substantial technical-energy potentials: 1,896 TJ/year for pig farming and 187 TJ/year for dairy cattle practices. The research's primary objective was a geospatial analysis pinpointing hotspots for biogas production from residual biomass within the dairy cattle and porcine subsectors in the specific region of Antioquia, in Colombia. This research is of great interest as it contributes to the growing field of sustainable energy production. It highlights the potential of utilizing residual biomass to transform local energy landscapes in alignment with global sustainability imperatives. © 2024 Elsevier Ltd
dc.language.isoeng
dc.publisherElsevier Ltd
dc.relation.isversionofhttps://www.scopus.com/inward/record.uri?eid=2-s2.0-85194400339&doi=10.1016%2fj.ref.2024.100591&partnerID=40&md5=5e111217c2ec9a266958c5aaa8d16cc4
dc.sourceRenewable Energy Focus
dc.sourceRenew. Energy Focus
dc.sourceScopus
dc.subjectAnaerobic digestioneng
dc.subjectAnimal house boundaryeng
dc.subjectBiogaseng
dc.subjectHydrogen producteng
dc.subjectLivestockeng
dc.subjectRenewable energyeng
dc.subjectAnaerobic digestioneng
dc.subjectBiomasseng
dc.subjectEmission controleng
dc.subjectFarmseng
dc.subjectFossil fuelseng
dc.subjectGas emissionseng
dc.subjectGreenhouse gaseseng
dc.subjectHydrogen productioneng
dc.subjectInvestmentseng
dc.subjectMammalseng
dc.subjectAnimal houseeng
dc.subjectAnimal house boundaryeng
dc.subjectColombiaeng
dc.subjectDairy cattleseng
dc.subjectGeo-spatial analysiseng
dc.subjectHydrogen producteng
dc.subjectLivestockeng
dc.subjectRenewable energieseng
dc.subjectResidual biomasseng
dc.subjectSubsectorseng
dc.subjectBiogaseng
dc.titleGeospatial analysis of hydrogen production from biogas derived from residual biomass in the dairy cattle and porcine subsectors in Antioquia, Colombiaeng
dc.typearticle
dc.rights.accessrightsinfo:eu-repo/semantics/restrictedAccess
dc.publisher.programIngeniería en Energíaspa
dc.type.spaArtículo
dc.identifier.doi10.1016/j.ref.2024.100591
dc.relation.citationvolume50
dc.publisher.facultyFacultad de Ingenieríasspa
dc.affiliationLuna-delRisco, M., Universidad de Medellín, Faculty of engineering, Carrera 87 No. 30-65, Medellín, Colombia
dc.affiliationMendoza-Hernández, S., Universidad de Medellín, Faculty of engineering, Carrera 87 No. 30-65, Medellín, Colombia
dc.affiliationDa Rocha Meneses, L., Wrocław University of Environmental and Life Sciences, Department of Applied Bioeconomy, Waste and Biomass Valorization Group (WBVG), Chełmońskiego St. 37a, Wrocław, 51-630, Poland
dc.affiliationGonzález-Palacio, M., Universidad de Medellín, Faculty of engineering, Carrera 87 No. 30-65, Medellín, Colombia
dc.affiliationArrieta González, C., Universidad de Medellín, Faculty of engineering, Carrera 87 No. 30-65, Medellín, Colombia
dc.affiliationSierra-Del Rio, J., Department of Mechatronics engineering - MATyER, Instituto Tecnológico Metropolitano. Medellín, Colombia
dc.relation.referencesAbbass, K., Qasim, M.Z., Song, H., Murshed, M., Mahmood, H., Younis, I., A review of the global climate change impacts, adaptation, and sustainable mitigation measures (2022) Environ. Sci. Pollut. Res., 29, pp. 42539-42559
dc.relation.referencesArrieta, A., Saba, M., Puello, A., Analysis of climate variability in a time series of precipitation and temperature data: a case study in Cartagena de Indias, Colombia (2022) Water, 14
dc.relation.referencesGonzalez, C.C., Peña-Vinces, J., A framework for a green accounting system-exploratory study in a developing country context, Colombia (2022) Environ. Dev. Sustain., pp. 1-25
dc.relation.referencesMilhorance, C., Howland, F., Sabourin, E., le Coq, J.F., Tackling the implementation gap of climate adaptation strategies: understanding policy translation in Brazil and Colombia (2022) Clim. Pol., 22, pp. 1113-1129
dc.relation.referencesHowland, F., Francois Le Coq, J., Disaster risk management, or adaptation to climate change? The elaboration of climate policies related to agriculture in Colombia (2022) Geoforum, 131, pp. 163-172
dc.relation.referenceshttps://www.minambiente.gov.co/cambio-climatico-y-gestion-del-riesgo/plan-nacional-de-adaptacion-al-cambio-climatico/, Ministerio de Ambiente y Desarrollo Sostenible, Plan Nacional de Adaptación al cambio climático (PNACC), (accessed 01 March 2023)
dc.relation.references(2022), OECD, Enabling Conditions for Bioenergy Finance and Investment in Colombia, Green Finance and Investment, doi: 10.1787/20f760d6-en
dc.relation.references(2010), H. Escalante Hernández, J. Orduz Prada, H.J. Zapata Lesmes, M.C. Cardona Ruiz, M. Duarte Ortega, Atlas del Potencial Energético de la Biomasa Residual en Colombia. Ministerio de Minas y Energía, Unidad de Planeación Minero Energética (UPME)
dc.relation.referencesOdega, C.A., Ayodele, O., Alagbe, O., Adewole, A., Adekunle, A., Review of anaerobic digestion process for biogas production (2022) Bioscientist J., 10, pp. 81-96. , http://bioscientistjournal.com/index.php/The_Bioscientist/article/view/108/112, accessed 03 October 2022
dc.relation.referencesKabeyi, M.J.B., Olanrewaju, O.A., Biogas production and applications in the sustainable energy transition (2022) J. Energy., 2022, pp. 1-43
dc.relation.referencesGarfí, M., Martí-Herrero, J., Garwood, A., Ferrer, I., Household anaerobic digesters for biogas production in Latin America: a review (2016) Renew. Sustain. Energy Rev., 60, pp. 599-614
dc.relation.referencesSagastume Gutiérrez, A., Cabello Eras, J.J., Hens, L., Vandecasteele, C., The energy potential of agriculture, agroindustrial, livestock, and slaughterhouse biomass wastes through direct combustion and anaerobic digestion. The case of Colombia (2020) J. Clean. Prod., 269
dc.relation.referencesSagastume Gutiérrez, A., Mendoza Fandiño, J.M., Cabello Eras, J.J., Sofan German, S.J., Potential of livestock manure and agricultural wastes to mitigate the use of firewood for cooking in rural areas. The case of the department of Cordoba (Colombia) (2022) Dev. eng., 7
dc.relation.referenceshttps://repository.udem.edu.co/handle/11407/6604, A.F. Jiménez Vásquez, Atlas del potencial técnico-energético aprovechable por digestión anaerobia de la biomasa residual pecuaria para los subsectores porcícola y ganadería de leche especializada en el Departamento de Antioquia, (accessed 06 February 2022)
dc.relation.referencesSahota, S., Shah, G., Ghosh, P., Kapoor, R., Sengupta, S., Singh, P., Vijay, V., Sahay, A., Review of trends in biogas upgradation technologies and future perspectives (2018) Bioresour. Technol. Rep., 1, pp. 79-88
dc.relation.referencesDurán Contreras, M., Sequeda Barros, R., Zapata, J., Vanegas Chamorro, M., Albis Arrieta, A., A look to the biogas generation from organic wastes in Colombia (2020) Int. J. Energy Econ. Policy, 10, pp. 248-254
dc.relation.referencesObaideen, K., Abdelkareem, M.A., Wilberforce, T., Elsaid, K., Taha Sayed, E., Maghrabie, H.M., Biogas role in achievement of the sustainable development goals: evaluation, challenges, and guidelines (2022) J. Taiwan Inst. Chem. eng., 131
dc.relation.referencesBarros, R.M., Tiago Filho, G.L., Moreira Santos, A.H., Ferreira, C.H., Pieroni, M.F., Sales Moura, J., de Souza Abe, H.S., Rocha de Freitas, J.V., A potential of the biogas generating and energy recovering from municipal solid waste (2018) Renew. Energy Focus., 25, pp. 12-25
dc.relation.referencesMonjurul Hasan, A.S.M., Ammenberg, J., Biogas potential from municipal and agricultural residual biomass for power generation in Hazaribagh, Bangladesh – a strategy to improve the energy system (2019) Renew. Energy Focus., 29, pp. 140-152
dc.relation.referencesBaruah, D., Baruah, D.C., Decision support system-based planning of biomass gasification system for decentralised energy generation (2021) Renew. Energy Focus., 38 (46), pp. 43-443
dc.relation.referencesLovrak, A., Pukšec, T., Grozdek, M., Duić, N., An integrated Geographical Information System (GIS) approach for assessing seasonal variation and spatial distribution of biogas potential from industrial residues and by-products (2022) Energy, 239
dc.relation.referencesMosleh Uddin, M., Wrigh, M., Anaerobic digestion fundamentals, challenges, and technological advances (2022) Phys. Sci. Rev., 8, pp. 2819-2837
dc.relation.referencesObileke, K., Nwokolo, N., Makaka, G., Mukumba, P., Onyeaka, H., Anaerobic digestion: technology for biogas production as a source of renewable energy—a review (2021) Energy Environ., 32, pp. 191-225
dc.relation.referencesTavera-Ruiz, C., Martí-Herrero, J., Mendieta, O., Jaimes-Estévez, J., Gauthier-Maradei, P., Azimov, U., Escalante, H., Castro, L., Current understanding and perspectives on anaerobic digestion in developing countries: Colombia case study (2023) Renew. Sustain. Energy Rev., 173
dc.relation.referencesKulkarni, I., Zang, J.W., Leandro, W.M., Parikh, P., Adler, I., Da Fonseca-Zang, W.A., Campos, L.C., Closed-loop biodigesters on small-scale farms in low- and middle-income countries: a review (2021) Water., 13
dc.relation.referencesJi-Qin, N., A review of household and industrial anaerobic digestion in Asia: biogas development and safety incidents (2024) Renew. Sustain. Energy Rev., 197
dc.relation.referencesMin-Ju, P., Ju-Hwan, K., Yong-Hee, L., Hak-Min, K., Dae-Woon, J., System optimization for effective hydrogen production via anaerobic digestion and biogas steam reforming (2020) Int. J. Hydrogen Energy, 45, pp. 30188-30200
dc.relation.referencesHajizadeh, A., Mohamadi-Baghmolaei, M., Cata Saady, N.M., Zendehboudi, S., Hydrogen production from biomass through integration of anaerobic digestion and biogas dry reforming (2022) Appl. Energy, 309
dc.relation.referencesKhan, I., Waste to biogas through anaerobic digestion: hydrogen production potential in the developing world - a case of Bangladesh (2020) Int. J. Hydrogen Energy, 45, pp. 15951-15962
dc.relation.referencesMinutillo, M., Perna, A., Sorce, A., Green hydrogen production plants via biogas steam and autothermal reforming processes: energy and exergy analyses (2020) Appl. Energy, 277
dc.relation.referencesMarin-Batista, J., Salazar, J., Castro, L., Escalante, H., Anaerobic co-digestion of vinasse and chicken manure: alternative for Colombian agrowaste management (2016) Rev. Colomb. Biotecnol., 18, pp. 6-12
dc.relation.referencesSagastume Gutierrez, A., Mendoza Fandino, J.M., Cabello Eras, J.J., Sofan German, S.J., Potential of livestock manure and agricultural wastes to mitigate the use of firewood for cooking in rural areas. The case of the department of Cordoba (Colombia) (2022) Dev. eng., 7
dc.relation.referencesArango-Osorio, S., Vasco-Echeverri, O., López-Jiménez, G., González-Sanchez, J., Isaac-Millán, I., Methodology for the design and economic assessment of anaerobic digestion plants to produce energy and biofertilizer from livestock waste (2019) Sci. Total Environ., 685, pp. 1169-1180
dc.relation.referencesRodriguez, A., Angel, J., Rivero, E., Acevedo, P., Santis, A., Cabeza Rojas, I., Acosta, M., Hernandez, M., Evaluation of the biochemical methane potential of pig manure, organic fraction of municipal solid waste and cocoa industry residues in Colombia (2017) Chem. eng. Trans., 57, pp. 55-60
dc.relation.referencesRamón, A., Vásquez, J., Delgado, J., Domínguez, D., Mosquera, A., Molina, F., Peñuela, M., Evaluation of potential substrates for biogas production in colombia using anaerobic digestion systems (2023) Ingeniería e Investigación., 43
dc.relation.referencesRocha-Meneses, L., Luna-delRisco, M., González, C.A., Moncada, S.V., Moreno, A., Sierra-Del Rio, J., Castillo-Meza, L.E., An overview of the socio-economic, technological, and environmental opportunities and challenges for renewable energy generation from residual biomass: a case study of biogas production in Colombia (2023) Energies, 16
dc.relation.referencesLuna-Derisco, M., Normak, A., Orupõld, K., Biochemical methane potential of different organic wastes and Biochemical methane potential of different organic wastes and energy crops from Estonia energy crops from Estonia (2011) Agron. Res., 9, pp. 331-342. , https://www.wellbeingintlstudiesrepository.org/bioche, accessed 22 February 2022
dc.relation.references(2022), https://www.ica.gov.co/areas/pecuaria/servicios/epidemiologia-veterinaria/censos-2016/censo-2018, Instituto Colombiano Agropecuario - ICA, Censos Pecuarios Nacional (accessed 06 March 2023)
dc.relation.referencesLuna-Del, M., Jiménez Vásquez, A., Zea Fernández, J.S., Marín, E., Arrieta González, C., Cardona Vargas, A., Mejías Brizuela, N.Y., Biogas production from the specialized dairy farming and porcine subsectors in Antioquia, Colombia: theoretical and technical-energy potential approach (2022) Agron. Res., 20, pp. 281-301
dc.relation.referencesLerner, A.M., Zuluaga, A.F., Chará, J., Etter, A., Searchinger, T., Sustainable cattle ranching in practice: moving from theory to planning in Colombia's livestock sector (2017) Environ. Manag., 60, pp. 176-184
dc.relation.referencesMøller, H.B., Sørensen, P., Olesen, J.E., Petersen, S.O., Nyord, T., Sommer, S.G., Agricultural biogas production—climate and environmental impacts (2022) Sustainability, 14
dc.relation.referencesRodríguez-Fontalvo, D., Quiroga, E., Cantillo, N.M., Sánchez, N., Figueredo, M., Cobo, M., Green hydrogen potential in tropical countries: the Colombian case (2024) Int. J. Hydrogen Energy, 54, pp. 344-360
dc.relation.referencesPatiño, J.J., Velásquez, C., Ramirez, E., Betancur, R., Montoya, J.F., Chica, E., Romero-Gómez, P., Jaramillo, F., Renewable energy sources for green hydrogen generation in Colombia and applicable case of studies (2023) Energies, 16
dc.relation.referencesSilva-Martínez, R.D., Sanches-Pereira, A., Ortiz, W., Gómez Galindo, M.F., Teixeira Coelho, S., The state-of-the-art of organic waste to energy in Latin America and the Caribbean: challenges and opportunities (2020) Renew. Energy, 156, pp. 509-525
dc.relation.referencesPlazas-Niño, F.A., Yeganyan, R., Cannone, C., Howells, M., Borba, B., Quirós-Tortós, J., Open energy system modelling for low-emission hydrogen roadmap planning: the case of Colombia (2024) Energ. Strat. Rev., 53
dc.relation.referencesCantillo, N.M., Rodríguez-Fontalvo, D., Quiroga, E., Manrique, J.M., Galvis, F., Riveros, P., Sánchez, J., Cobo, M., Chapter 2 - Hydrogen deployment potential in Colombia: an opportunity to decarbonize and diversify the economy (2024) Hydrogen Energy Convers. Manage., 2, pp. 35-77
dc.type.versioninfo:eu-repo/semantics/publishedVersion
dc.identifier.reponamereponame:Repositorio Institucional Universidad de Medellín
dc.identifier.repourlrepourl:https://repository.udem.edu.co/
dc.identifier.instnameinstname:Universidad de Medellín


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