Data from the Ministry of Energy and Water indicate that in Angola only 70% of the population has access to electricity, with rural areas being the least covered. The rural environment, however, has local energy resources that, once harnessed, can contribute to solving the problem of electricity production, as an essential asset for the production of goods and an increase in the population's standard of living. The fact that large amounts of cattle, goats, pigs and others are found in rural Angola, particularly in the various agricultural farms, biogas can be an alternative for generating energy in rural areas. The objective of this work is to show the possibility of producing biogas through animal manure to use it as fuel for heat production and for engines and consequently the generation of electricity. Finally, encourage the country to obtain energy through this route. The methodology used was the bibliographic review carried out within the scope of the project “Construction and experimentation of biogas energy installations for rural territories. Case study: Bairro Caimama located in Plantações da Ganda, municipality of Ganda, province of Benguela, Angola”, which served as support for the discussion and even the necessary understanding of the biodigester being a fundamental part for the production of biogas, as well as the elaboration of the final project for the Mechanical Engineering Degree. In the project, necessary calculations are made for the production of biogas from cow manure to later be used to operate the motor-generator, with the possibility of burning the biogas for cooking food. The motor-generator produces electrical energy that would be sent to the local grid for consumption. The operation of the engine-generator with biogas replaces the use of fossil fuels, which in fact represents a very high cost center for the localities. In addition to the high costs of fossil fuels that are reduced to zero with the production of biogas, the production of biofertilizer in this process is also highlighted, which can be used for crops on farms, thus providing greater productivity in the fields and constituting another gain. Thus, the rural environment will solve the problem of waste management using the biodigester and gaining with lower fuel, energy and biofertilizer costs.
| Published in | International Journal of Sustainable and Green Energy (Volume 11, Issue 4) |
| DOI | 10.11648/j.ijrse.20221104.11 |
| Page(s) | 66-74 |
| Creative Commons |
This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited. |
| Copyright |
Copyright © The Author(s), 2024. Published by Science Publishing Group |
Cow Manure, Biodigester, Biogas Prodution, Electricity Generation
| [1] | Abrelpe. (2016). Overview of solid wast in Brazil. São Paulo. |
| [2] | Angola. Ministry of Energy and water. (2016). Angola Energy 2025. Luanda. |
| [3] | Barichello, R.(2010). The use of biodigesters in small and medium-sized rural properties with an emphasis on adding value: A case study of the northwest region of Rio Grande do Sul (Master's Dissertation). Santa Maria, RS, Brazil: Federal University of Santa Maria. |
| [4] | Battista, F., Fino, D., Emquens, F., Mancin, G., & Ruggen, V. (2015). Scaled-up experimental biogas production from two agro-food waste mixture having high inhibitory compound. Concentrations Renewable Energy. Obtained on August 2, 2022, from http://www.sciencedirect.com/science/article/pii/S0960148115001895 |
| [5] | Bayr, S., Pakarinen, O., Korppoo, A., Liuksia, S., Vaisãnen, A., kaparaju, P., & Rintala, J. (2012). Effect of additives on process stability of mesophilic anaerobic monodigestion of pig slaughter hause waste. Bioresource technology. Obtained on August 2, 2022, from http://www.sciencedirect.com/science/article/pii/S0960852412009133 |
| [6] | Bley Jr, C. (2015). Biogas: the invisible energy (2nd ed.). São Paulo: Studio Atol. |
| [7] | Coskun, C., Bayralctar, M., Oktay, Z., & Dincer, I. (2012). Investigation of biogas and hydrogen production from waste water of milk-processing industry in Turkey. International Journal of Hidrogen Energy. Obtained on August 2, 2022, from http://www.sciencedirect.com/science/article/pii/S0360319912005393 |
| [8] | Galinkin, M., Junior, C. B., Líbâno, J. C., & Oliveira, M. M. (2009). Agroenergy from residual biomass: energy, socio-economic and environmental perspectives (2nd ed.). Brasilia: Technopolitik. Obtained from http://www.academia.edu |
| [9] | Goldenergy. (2022). Biomass Energy. Obtained on April 03, 2022, from https://goldenergy.pt/glossario/energia-biomassa |
| [10] | Junqueira, S. L. (2014). Energy generation through biogas from bovine manure: A case study in a landfilled farm. (Bachelor in Mechanical Engineering, Federal University of Rio de Janeiro). Obtained on May 12, 2021, from www.pdfdrive.com |
| [11] | Lima, G. M. (2017). Alternative energy sources. Lonrina: S. A. |
| [12] | Lourinho, G. (2012). Evaluation of the energetic potential in biomass of Alto Alentejo. (Polytechnic Institute of Portalegre). Obtained on May 12, 2021, from http://www.pdfdrive.com |
| [13] | Lustosa, G. N., & Madeiros, Í. H. (2014). Proposal of a modified anaerobic digester for the production of biogas and biofertilizer from organic solid waste (Bachelor of Civil Engineering). University of Brasilia. Obtained on April 11, 2021, from www.bdm.unb.br |
| [14] | Macintyre, A. J. (2012). Hydraulic Installations: building and industrial (4th ed.). Rio de Janeiro: LTC. |
| [15] | Muhongo, V. R. (2019). Selection of energy generation facilities for isolated territories. Case study: Municipality of Ganda, province of Benguela, Angola (Doctoral Thesis). Havana Technological University. |
| [16] | Oliver, A. d., Neto, A. d., Quadros, D. G., & Valladares, R. E. (February 2008). Biodigestion Training Manual. Brazil. Obtained on May 06, 2021, from Instituto Winrock: www.winrock.org.br |
| [17] | Ortner, M., Woss, D., Schumergruber, A., Proll, T., & Fuch, F. (2015). Energy self-supply of large abattoir br sustainable waste utilization based on anaerobic monodigestion. Applied Energy. Obtained on August 02, 2022, from http://www.sciencedirect.com/science/article/pii/S030626191500458 |
| [18] | Pacheco, F. (2006). Situation and Planning. Salvador: SEI. |
| [19] | Pfann, J. M. (2012). Integrated Systems with Renewable Sources to Heat Water up to Low and Medium Temperature Level in Isolated Regions (Bachelor, Renewable Energy research center, Technical University of Havana)). |
| [20] | Pitk, P., Kaparajub, P., Palatsic, J., Affesc, R., & Vilua, R. (2013). Co-digestion of sewage sludge and sterilized solid slaughterhause waste: Methane production efficiencyand process limitations. Bioresource Technologr. Obtained on August 02, 2022, from http://www.sciencedirect.com/science/article/pii/S0960852413002526 |
| [21] | Salas, J. M. (2015). Model for the dimensioning, simulation and selection of integrated renewable energy systems in isolated areas (Doctorate Thesis in Technical Sciences). Higher Polytechnic Institute José Antonio Echeverría. Havana. Obtained on July 18, 2021, from http://scielo.sld.cu/scielo.php?script=sci_arttext&pid=S1815-59442015000200008 |
| [22] | Silva, F. P. (2015). Possibility of energy autonomy and sovereignty through anaerobic biodigestion in agrarian reform settlement: a case study in the Pequeno Willian-DF settlement project. (Master's Dissertation in Environment and Rural Development). Planaltina-DF: University of Brasília-UnB. Obtained on July 18, 2021, from www.pdfdrive.com |
| [23] | Silva, M. L., Alcócer, J. C., & Queiroz, D. M. (2019). Building a Biodigester: Guidance Guide. Retrieved from http://www.academia.edu |
| [24] | Silva, R. d., & Lopes, C. R. (2017). Production of Electric Energy via Biomass. Fluminense. |
| [25] | Sobral, J. l. (2011). Assessment of the Energy Potential of Biomass in the Dão-Lafões Region (Master's Thesis, School of Technology and Management of Viseu). Obtained on August 28, 2022, from http://bibliotecas.esev.ipv.pt/cgi-bin/koha/opacdetail.pl?biblionumber=44130&shelfbrowse_itemnumber=56189 |
| [26] | Tolmasquim, M. T. (2016). Renewable Energy: Hydraulic, Biomass, Wind, Solar, Oceanic. Rio de Janeiro. |
APA Style
Valente Ribeiro Muhongo, Guido Joaquim Prego, Agostinho Frederico Valentim. (2022). Production of Biogas and Electric Energy in the Rural Environment. International Journal of Sustainable and Green Energy, 11(4), 66-74. https://doi.org/10.11648/j.ijrse.20221104.11
ACS Style
Valente Ribeiro Muhongo; Guido Joaquim Prego; Agostinho Frederico Valentim. Production of Biogas and Electric Energy in the Rural Environment. Int. J. Sustain. Green Energy 2022, 11(4), 66-74. doi: 10.11648/j.ijrse.20221104.11
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Download@article{10.11648/j.ijrse.20221104.11,
author = {Valente Ribeiro Muhongo and Guido Joaquim Prego and Agostinho Frederico Valentim},
title = {Production of Biogas and Electric Energy in the Rural Environment},
journal = {International Journal of Sustainable and Green Energy},
volume = {11},
number = {4},
pages = {66-74},
doi = {10.11648/j.ijrse.20221104.11},
url = {https://doi.org/10.11648/j.ijrse.20221104.11},
eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.ijrse.20221104.11},
abstract = {Data from the Ministry of Energy and Water indicate that in Angola only 70% of the population has access to electricity, with rural areas being the least covered. The rural environment, however, has local energy resources that, once harnessed, can contribute to solving the problem of electricity production, as an essential asset for the production of goods and an increase in the population's standard of living. The fact that large amounts of cattle, goats, pigs and others are found in rural Angola, particularly in the various agricultural farms, biogas can be an alternative for generating energy in rural areas. The objective of this work is to show the possibility of producing biogas through animal manure to use it as fuel for heat production and for engines and consequently the generation of electricity. Finally, encourage the country to obtain energy through this route. The methodology used was the bibliographic review carried out within the scope of the project “Construction and experimentation of biogas energy installations for rural territories. Case study: Bairro Caimama located in Plantações da Ganda, municipality of Ganda, province of Benguela, Angola”, which served as support for the discussion and even the necessary understanding of the biodigester being a fundamental part for the production of biogas, as well as the elaboration of the final project for the Mechanical Engineering Degree. In the project, necessary calculations are made for the production of biogas from cow manure to later be used to operate the motor-generator, with the possibility of burning the biogas for cooking food. The motor-generator produces electrical energy that would be sent to the local grid for consumption. The operation of the engine-generator with biogas replaces the use of fossil fuels, which in fact represents a very high cost center for the localities. In addition to the high costs of fossil fuels that are reduced to zero with the production of biogas, the production of biofertilizer in this process is also highlighted, which can be used for crops on farms, thus providing greater productivity in the fields and constituting another gain. Thus, the rural environment will solve the problem of waste management using the biodigester and gaining with lower fuel, energy and biofertilizer costs.},
year = {2022}
}
TY - JOUR T1 - Production of Biogas and Electric Energy in the Rural Environment AU - Valente Ribeiro Muhongo AU - Guido Joaquim Prego AU - Agostinho Frederico Valentim Y1 - 2022/11/14 PY - 2022 N1 - https://doi.org/10.11648/j.ijrse.20221104.11 DO - 10.11648/j.ijrse.20221104.11 T2 - International Journal of Sustainable and Green Energy JF - International Journal of Sustainable and Green Energy JO - International Journal of Sustainable and Green Energy SP - 66 EP - 74 PB - Science Publishing Group SN - 2575-1549 UR - https://doi.org/10.11648/j.ijrse.20221104.11 AB - Data from the Ministry of Energy and Water indicate that in Angola only 70% of the population has access to electricity, with rural areas being the least covered. The rural environment, however, has local energy resources that, once harnessed, can contribute to solving the problem of electricity production, as an essential asset for the production of goods and an increase in the population's standard of living. The fact that large amounts of cattle, goats, pigs and others are found in rural Angola, particularly in the various agricultural farms, biogas can be an alternative for generating energy in rural areas. The objective of this work is to show the possibility of producing biogas through animal manure to use it as fuel for heat production and for engines and consequently the generation of electricity. Finally, encourage the country to obtain energy through this route. The methodology used was the bibliographic review carried out within the scope of the project “Construction and experimentation of biogas energy installations for rural territories. Case study: Bairro Caimama located in Plantações da Ganda, municipality of Ganda, province of Benguela, Angola”, which served as support for the discussion and even the necessary understanding of the biodigester being a fundamental part for the production of biogas, as well as the elaboration of the final project for the Mechanical Engineering Degree. In the project, necessary calculations are made for the production of biogas from cow manure to later be used to operate the motor-generator, with the possibility of burning the biogas for cooking food. The motor-generator produces electrical energy that would be sent to the local grid for consumption. The operation of the engine-generator with biogas replaces the use of fossil fuels, which in fact represents a very high cost center for the localities. In addition to the high costs of fossil fuels that are reduced to zero with the production of biogas, the production of biofertilizer in this process is also highlighted, which can be used for crops on farms, thus providing greater productivity in the fields and constituting another gain. Thus, the rural environment will solve the problem of waste management using the biodigester and gaining with lower fuel, energy and biofertilizer costs. VL - 11 IS - 4 ER -
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