Technological prospection of solid waste gasification applications in Brazil

Diogo Santos  Silva; Luiz Eduardo Pizarro  Borges

doi:10.33448/rsd-v12i1.39549

Authors

Diogo Santos Silva Instituto Militar de Engenharia https://orcid.org/0000-0002-9357-7663
Luiz Eduardo Pizarro Borges Instituto Militar de Engenharia https://orcid.org/0000-0002-2337-4238

DOI:

https://doi.org/10.33448/rsd-v12i1.39549

Keywords:

Gasification; Patent; Prospection; Urban Waste; Academic Research.

Abstract

Environmental issues weigh heavily on international economic relations with demands for stricter environmental regulations for the deforestation of forest areas and the generation of urban solid waste (USW). These demands drive research in the area of USW to reduce the waste volume and to its use in various fields such as power generation. In 2020, the legal milestone of the National Solid Waste Policy (NSWP) in Brazil was updated, opening space for private initiative in the management of systems related to USW. This work aims to carry out a technological prospection on gasification developed in Brazil using translational research and databases from CAPES, Web of Science, and ESPACENET portals to verify research incentives in universities, public and private, from 1984 to 2022. The search strategy first maps the search for dissertations (master's) and theses (doctoral) documents, called non-patented literature on biomass gasification, and it verifies the relationship with the production of articles in the area, and secondly, it correlates with the production of gasification patent documents. Implementation trends and factors that influenced gasification research were analyzed which generated 357 academic documents (thesis and dissertation), petitioners of patent applications and granted patents in Brazil, and academic research that reached society in the format of 189 articles and one patent.

References

Allesch, A., & Brunner, P. H. (2014). Assessment methods for solid waste management: A literature review. Waste Management & Research: The Journal for a Sustainable Circular Economy, 32(6), 461–473. https://doi.org/10.1177/0734242X14535653

Basu P. (2010). Biomass gasification and pyrolysis: practical design and theory. In A. Press (Ed.), Comprehensive Renewable Energy (1st ed.). Published by Elsevier Inc. https://doi.org/10.1016/B978-0-08-087872-0.00514-X

Barros, T. V., Lopez, G. de S., Santos, R. J. dos, Parizi, M. P. S., Cardozo-Filho, L., & Ferreira-Pinto, L. (2022). Gaseificação da biomassa em água supercrítica como tecnologia de produção de hidrogênio. Research, Society and Development, 11(9), e32511931296. https://doi.org/10.33448/rsd-v11i9.31296

Bosmans, A., & Helsen, L. (2010). ENERGY FROM WASTE: REVIEW OF THERMOCHEMICAL TECHNOLOGIES FOR REFUSE DERIVED FUEL (RDF) TREATMENT. 34. https://core.ac.uk/download/pdf/34478595.pdf

Brazil. (2010). LEI N 12.305 DE 2010. http://www.planalto.gov.br/ccivil_03/_ato2007-2010/2010/lei/l12305.htm

Brazil. (2020). LEI N 14.026 DE 2020. http://www.planalto.gov.br/ccivil_03/_ato2019-2022/2020/lei/L14026.htm

Cortazar, M., Lopez, G., Alvarez, J., Amutio, M., Bilbao, J., & Olazar, M. (2019). Behaviour of primary catalysts in the biomass steam gasification in a fountain confined spouted bed. Fuel, 253(March), 1446–1456. https://doi.org/10.1016/j.fuel.2019.05.094

Cucchiella, F., D’Adamo, I., & Gastaldi, M. (2014). Strategic municipal solid waste management: A quantitative model for Italian regions. Energy Conversion and Management, 77, 709–720. https://doi.org/10.1016/j.enconman.2013.10.024

Czajczyńska, D., Anguilano, L., Ghazal, H., Krzyżyńska, R., Reynolds, A. J., Spencer, N., & Jouhara, H. (2017). Potential of pyrolysis processes in the waste management sector. Thermal Science and Engineering Progress, 3, 171–197. https://doi.org/10.1016/j.tsep.2017.06.003

Diaz L. F. , Savage G. M., E. L. L. & G. C. G. (2019). Composting and Recycling Municipal Solid Waste: Composting and Recycling Municipal Solid Waste (1993). CRC Press.

Duan, Z., Scheutz, C., & Kjeldsen, P. (2021). Trace gas emissions from municipal solid waste landfills: A review. Waste Management, 119, 39–62. https://doi.org/10.1016/j.wasman.2020.09.015

EPA. (1998). On-Site Incineration: Overview of Superfund Operating Experience. https://www.epa.gov/remedytech/site-incineration-overview-superfund-operating-experience

EPA. (2018). Criteria for the Definition of Solid Waste and Solid and Hazardous Waste Exclusions. https://www.epa.gov/hw/criteria-definition-solid-waste-and-solid-and-hazardous-waste-exclusions

European Commission. (2020). Waste and recycling.

Finep. (2022). Internal Audit, Reports and Inspection Reports. http://www.finep.gov.br/auditoria

Ghosh, P., Shah, G., Sahota, S., Singh, L., & Vijay, V. K. (2020). Biogas production from waste: technical overview, progress, and challenges. In Bioreactors (pp. 89–104). Elsevier. https://doi.org/10.1016/B978-0-12-821264-6.00007-3

Hossain, M. Z. ., & Charpentier, P. A. (2015). Hydrogen production by gasification of biomass and opportunity fuels. In Compendium of Hydrogen Energy (pp. 137–175). Elsevier. https://doi.org/10.1016/B978-1-78242-361-4.00006-6

INPI. (2019). RESOLUTION INPI/PR No. 241 OF 3 JULY, 2019. Ministry of Economy. https://www.gov.br/inpi/pt-br/servicos/patentes/legislacao/legislacao/copy_of_ResoluoINPIPR241Ingls.pdf

Jeswani, H. K., & Azapagic, A. (2016). Assessing the environmental sustainability of energy recovery from municipal solid waste in the UK. Waste Management, 50, 346–363. https://doi.org/10.1016/j.wasman.2016.02.010

Kumar, A., & Samadder, S. R. (2017). A review on technological options of waste to energy for effective management of municipal solid waste. Waste Management, 69, 407–422. https://doi.org/10.1016/j.wasman.2017.08.046

MCT. (2008). MINISTRY OF SCIENCE AND TECHNOLOGY MULTI-ANNUAL PLAN 2008-2011. http://livroaberto.ibict.br/bitstream/1/828/1/Orientações Estratégicas do Ministério da Ciência e Tecnologia, plano plurianual 2008-2011.pdf

Millati, R., Cahyono, R. B., Ariyanto, T., Azzahrani, I. N., Putri, R. U., & Taherzadeh, M. J. (2019). Agricultural, Industrial, Municipal, and Forest Wastes. In Sustainable Resource Recovery and Zero Waste Approaches (pp. 1–22). Elsevier.

Miranda, M. R. da S., Veras, C. A. G., & Ghesti, G. F. (2020). Charcoal production from waste pequi seeds for heat and power generation. Waste Management, 103, 177–186. https://doi.org/10.1016/j.wasman.2019.12.025

MME. (2021). Studies of the Ten Year Energy Expansion Plan 2030: Consolidation of Results. https://www.gov.br/mme/pt-br/assuntos/noticias/CadernodeConsolidaodosResultados.pdf

Munasinghe, M. (1993). Environmental Economics and Sustainable Development (Issue 3). http://documents.worldbank.org/curated/en/638101468740429035/Environmental-economics-and-sustainable-development

Nixon, J. D., Wright, D. G., Dey, P. K., Ghosh, S. K., & Davies, P. A. (2013). A comparative assessment of waste incinerators in the UK. Waste Management, 33(11), 2234–2244. https://doi.org/10.1016/j.wasman.2013.08.001

Oliveira, N. (2016). Finep approaches 50 years without funds for investments in new projects. https://agenciabrasil.ebc.com.br/pesquisa-e-inovacao/noticia/2016-08/finep-se-aproxima-dos-50-anos-sem-recursos-para-investimentos-em

Puig-Arnavat, M., Bruno, J. C., & Coronas, A. (2010). Review and analysis of biomass gasification models. Renewable and Sustainable Energy Reviews, 14(9), 2841–2851. https://doi.org/10.1016/j.rser.2010.07.030

Saleem, W., Zulfiqar, A., Tahir, M., Asif, F., & Yaqub, G. (n.d.). Latest technologies of municipal solid waste management in developed and developing countries: A review. https://www.allsciencejournal.com/archives/2016/vol1/issue10/1-9-18

Saleem, W. (2018). Latest technologies of municipal solid waste management in developed and developing countries: A review Latest technologies of municipal solid waste management in developed and developing countries: A. 1, 22–29.

Santos, L. M. C., & Villac, T. (2019). Law and Public Management of Solid Waste in Brazil. In Sustainable Resource Recovery and Zero Waste Approaches (pp. 101–103). Elsevier. https://doi.org/10.1016/B978-0-444-64200-4.00007-4

Souza, A. E. C., Cerqueira, D. A., & Cardoso, C. R. (2022). Biorefinery for Elaeis guineensis fruits: a review on ecodiesel production and gasification for waste treatment. Research, Society and Development, 11(11), e357111133027. https://doi.org/10.33448/rsd-v11i11.33027

Tchobanoglous, G., & Kreith, F. (2002). Handbook of solid waste management. McGraw-Hill Education.

Valderrama Rios, M. L., González, A. M., Lora, E. E. S., & Almazán del Olmo, O. A. (2018). Reduction of tar generated during biomass gasification: A review. Biomass and Bioenergy, 108(July 2017), 345–370. https://doi.org/10.1016/j.biombioe.2017.12.002

Vieira Júnior, C. M., Santos, H. da S., Santos, S. T. O. dos;, & Silva, S. P. R. da. (2021). Aproveitamento energético a partir da gaseificação de resíduos do cultivo de milho (Zea mays) após três anos em estoque. Research, Society and Development, 10(15), e331101522672. https://doi.org/10.33448/rsd-v10i15.22672

Watson, J., Zhang, Y., Si, B., Chen, W. T., & de Souza, R. (2018). Gasification of biowaste: A critical review and outlooks. Renewable and Sustainable Energy Reviews, 83(October 2017), 1–17. https://doi.org/10.1016/j.rser.2017.10.003

Werle, S., & Sobek, S. (2019). Gasification of sewage sludge within a circular economy perspective: a Polish case study. Environmental Science and Pollution Research, 26(35), 35422–35432. https://doi.org/10.1007/s11356-019-05897-2

Youcai, Z., & Ran, W. (2021). Anaerobic fermentation engineering design for a vegetable waste treatment plant public-private partnership project. In Biomethane Production from Vegetable and Water Hyacinth Waste (pp. 337–486). Elsevier. https://doi.org/10.1016/B978-0-12-821763-4.00006-5

Yu, Z., He, P., Shao, L., Zhang, H., & Lü, F. (2016). Co-occurrence of mobile genetic elements and antibiotic resistance genes in municipal solid waste landfill leachates: A preliminary insight into the role of landfill age. Water Research, 106, 583–592. https://doi.org/10.1016/j.watres.2016.10.042

Technological prospection of solid waste gasification applications in Brazil

Authors

DOI:

Keywords:

Abstract

References

Downloads

Published

How to Cite

Issue

Section

License

JOURNAL METRICS

Language

Make a Submission