References
- AGER. (2010). Ager-MT supervises generation and distribution of electric energy in the State. http://www.ager.mt.gov.br/-/ager-mt-fiscaliza-geracao-e-distribuicao-de-energia-eletrica-do-estado
- AGER. (2012). ELECTRIC POWER: Inspection of Ager-MT points out irregularities in energy distribution and generation. http://www.ager.mt.gov.br/-/energia-eletrica-fiscalizacao-da-ager-mt-aponta-irregularidades-na-distribuicao-e-geracao-de-energia?inheritRedirect=true
- AGER. (2013, Abril 24). Report of inspection RF – PCH São Tadeu I – 0005/2013 – AGER. Protocolo n.: 121292/2013 (Process AGER-PRO-2022/02307, Process AGER-TER-2022/04906), Regulatory Agency for Delegated Public Services of the State of Mato Grosso (AGER).
- AGER. (2017, May 30). Report of inspection RF – PCH São Tadeu I – 0014/2017 – AGER. Protocolo n.: 169835/2017 (Process AGER-PRO-2022/02307, Process AGER-TER-2022/04906), Regulatory Agency for Delegated Public Services of the State of Mato Grosso (AGER).
- AGER. (2021). 2021. Annual activity report 2021 (Report No. 2). Regulatory Agency for Delegated Public Services of the State of Mato Grosso (AGER).
- Alencar, A., Shimbo, J. Z., Lenti, F., Marques, C. B., Zimbres, B., Rosa, M., Arruda, V., Castro, I., Ribeiro, J. P. F. M., Varela, V., Alencar, I., Piontekowski, V., Ribeiro, V., Bustamante, M. M. C., Sano, E. E., & Barroso, M. (2020). Mapping three decades of changes in the Brazilian savanna native vegetation using landsat data processed in the Google Earth engine platform. Remote Sensing, 12(6), 924. https://doi.org/10.3390/rs12060924
- Alligné, S., Nicolet, C., Chabloz, P., & Chapuis, L. (2019). Dynamic closing modelling of the penstock protection valve for pipe burst simulations. IOP Conference Series: Earth and Environmental Science, 405, 012021. https://doi.org/10.1088/1755-1315/405/1/012021
- Anderson, E. I. A., & Johnson, G. R. (1990). Effect of tube ovalling on pressure wave propagation speed. Proceedings of the Institution of Mechanical Engineers, Part H: Journal of Engineering in Medicine, 204(4), 245–251. https://doi.org/10.1243/pime_proc_1990_204_263_02
- ANEEL. (2009). Implementation follow-up of PCH São Tadeu I, São Tadeu Energética Ltda. – MT: Process 48500.0001190/2003-95. http://www.consultaesic.cgu.gov.br/busca/_layouts/15/DetalhePedido/DetalhePedido.aspx?nup=48700004681201428
- Assis, A. P. (2009, December 12). Technical report on the accident that occurred in the tunnel of PCH São Tadeu I on November 11, 2009. Protocolo n.: 139641/2006 (Process AGER-PRO-2022/02307, Process AGER-TER-2022/04906), Regulatory Agency for Delegated Public Services of the State of Mato Grosso – AGER, Cuiabá, Mato Grosso, Brazil.
- Ateliê Perola Negra. (2022, July 16). Disc made with chamfered rustic wood trunk. https://img.elo7.com.br/product/zoom/434CF1F/bolacha-tronco-de-madeira-rustica-chanfrada-decoracao-festa-tronco-pra-fotos.jpg
- B&B Objetos. (2020, August 5). Natural board – Ipe disc. https://img.elo7.com.br/product/zoom/31C4353/tabua-natural-bolacha-de-ipe-ipe.jpg
- Bar-Cohen, Y. (2005). Biomimetics: biologically inspired technologies. CRC Press. https://doi.org/10.1201/9780849331633.
- Bermad. (2020). 700 Sigma series: Engineering Data. https://catalog.bermad.com/BERMAD%20Assets/Waterworks/700%20Series%20-%20SIGMA%20-%20EN-ES/-%20App%20Eng.%20tools/Engineering/WW_700-SIGMA_Engineering_English.pdf?_gl=1*72e0uf*_ga*MTY3NzkzNDI5NC4xNjkzNzQ3Njk3*_ga_WB72NLMX0D*MTY5Mzc0NzY5Ny4xLjEuMTY5Mzc0Nzc2OC4wLjAuMA
- Bomfim, E. (2015, October 19). Ipê Amarelo. Edenilson Bomfim. https://flic.kr/p/A1LKTn
- Borges, H. B. N., Silveira, E. A., & Vendramin, L. N. (2014). Tree flora of Mato Grosso: plant typologies and their species, Entrelinhas.
- Brekke, H. (2014). Hydraulic turbines: design, erection and operation. https://www.ntnu.no/documents/381182060/1267681377/HYDRAULIC+TURBINES_Hermod+Brekke+-+2015.pdf
- Cassano, S., Nicolet, S., & Sossan, F. (2020). Reduction of penstock fatigue in a medium-head hydropower plant providing primary frequency control. 2020 55th International Universities Power Engineering Conference (UPEC), 1–6. https://doi.org/10.1109/UPEC49904.2020.9209857
- Cognet, V., du Pont S., C., Dobrev, I., Massouh, F., & Thiria, B. (2017). Bioinspired turbine blades offer new perspectives for wind energy. Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences, 473(2198), 20160726. https://doi.org/10.1098/rspa.2016.0726
- EPE. (2019). Generation expansion: repowering and modernization of hydroelectric power plants; gains in efficiency, energy and installed capacity. https://www.epe.gov.br/sites-pt/publicacoes-dados-abertos/publicacoes/PublicacoesArquivos/publicacao-432/EPE-DEE-088_2019_Repotencia%C3%A7%C3%A3o%20de%20Usinas%20Hidrel%C3%A9tricas.pdf
- EPE. (2020). National Energy Plan 2050. https://www.epe.gov.br/sites-pt/publicacoes-dados-abertos/publicacoes/PublicacoesArquivos/publicacao-227/topico-563/Relatorio%20Final%20do%20PNE%202050.pdf
- EPE. (2022). Energy and electrical matrix. https://www.epe.gov.br/pt/abcdenergia/matriz-energetica-e-eletrica
- Fathi-Moghadam, M., Haghighipour, S., & Samani, H. M. (2013). Design-variable optimization of hydropower tunnels and surge tanks using a genetic algorithm. Journal of Water Resources Planning and Management, 139(2), 200–208. https://doi.org/10.1061/(ASCE)WR.1943-5452.0000243
- Fayemi, P. E., Wanieck, K., Zollfrank, C., Maranzana, N., & Aoussat, A. (2017). Biomimetics: process, tools and practice. Bioinspiration & Biomimetics, 12(1), 011002. https://doi.org/10.1088/1748-3190/12/1/011002
- Gebeshuber, I. C. (2022). Biomimetics—Prospects and Developments. Biomimetics, 7(1), 29. https://doi.org/10.3390/biomimetics7010029
- Gomes, L., Miranda, H. S., Soares-Filho, B., Rodrigues, L., Oliveira, U., & Bustamante, M. M. C. (2020). Responses of plant biomass in the brazilian savanna to frequent fires. Frontiers in Forests and Global Change, 3, 507710. https://doi.org/10.3389/ffgc.2020.507710
- Guidicini, G., Mello, F. M., & Carvalho, N. S. (2022). Pathology of hydraulic tunnels: accidents and incidents in Brazil. Oficina de Textos.
- Hachem, F. E., & Schleiss, J. (2012). Effect of drop in pipe wall stiffness on water-hammer speed and attenuation. Journal of Hydraulic Research, 50(2), 218–227. http://doi.org/10.1080/00221686.2012.656838
- IBRAM. (2016). Cerrado trees. https://www.ibram.df.gov.br/images/%C3%81rvores%20do%20Cerrado.pdf
- Iouguina, A., Dawson, J. W., Hallgrimsson, B., & Smart, G. (2014). Biologically informed disciplines: a comparative analysis of bionics, biomimetics, biomimicry, and bio-inspiration among others. International Journal of Design & Nature and Ecodynamics, 9(3), 197–205. https://doi.org/10.2495/DNE-V9-N3-197-205
- Jenkner, W. R. (1971). Über die Druckstossgeschwindigkeit in Rohrleitungen mit quadratischen und rechteckigen Querschnitten. Schweizerische Bauzeitung, 89, 99–103. http://doi.org/10.5169/seals-84747
- Junior, O. (2021, August 23). City Hall of Franco da Rocha. Fighting the fire in Juquery State Park. https://www.flickr.com/photos/prefeituradefrancodarocha/51397707348/
- Kubrak, M., & Kodura, A. (2020). Theoretical analysis of the reduction of pressure wave velocity by internal circular tubes. In M. B. Kalinowska, M. M. Mrokowska & P. M. Rowiński (Eds.), Recent Trends in Environmental Hydraulics: 38th International School of Hydraulics (pp. 117–125). GeoPlanet: Earth and Planetary Sciences. https://doi.org/10.1007/978-3-030-37105-0_10
- Kubrak, M., Malesinska, A., Kodura, A., Urbanowicz, K., Bury, P., & Stosiak, M. (2021). Water Hammer Control Using Additional Branched HDPE Pipe. Energies, 14(23), 8008. https://doi.org/10.3390/en14238008
- Larock, B. E., Jeppson, R. W., & Watters, G. Z. (2000). Hydraulics of Pipeline Systems. CRC Press LLC.
- Meyers, M. A., Chen, P. Y., Lin, A. Y. M., & Seki, Y. (2008). Biological materials: structure and mechanical properties. Progress in Materials Science, 53(1), 1–206. https://doi.org/10.1016/j.pmatsci.2007.05.002
- MMA. (2007). Biodiversity of the Cerrado and Pantanal: areas and priority actions for conservation. Ministry of the Environment (MMA.
- NIEPE. (2019). Strategic Plan for the Development of Renewable Energies in Mato Grosso, PEDER-MT 2050. https://www.unido.org/sites/default/files/files/2020-04/Plano%20Estrat%C3%A9gico%20para%20o%20Desenvolvimento%20de%20Energias%20Renov%C3%A1veis%20em%20Mato%20Grosso%20PEDER-MT%202050.pdf
- Pejovic, S., Boldy, A. P., & Obradovic, D. (1987). Guidelines to hydraulic transient analysis. Gower Technical Press Ltd., Brookfield.
- Pereira, B. A. S. (2022, August 1). Strychnos pseudoquina A.St.-Hil. Taxonomic Hierarchy http://reflora.jbrj.gov.br/reflora/floradobrasil/FB8680
- Ramos, H. (2000). Guideline for design of small hydropower plants. http://www.civil.ist.utl.pt/~didia/FCT2009/book-SHP.pdf
- Sano, E. E., Rodrigues, A. A., Martins, E. S., Bettiol, G. M., Bustamante, M. M. C., Bezerra, A. S., Couto, A. F. Jr., Vasconcelos, V., Schüler, J., & Bolfe, E. L. (2019). Cerrado ecoregions: A spatial framework to assess and prioritize Brazilian savanna environmental diversity for conservation. Journal of Environmental Management, 232, 818–828. https://doi.org/10.1016/j.jenvman.2018.11.108
- Sartorelli, P. A. R., & Campos Filho, E. M. (2017). Regeneration plants guide natural from the Cerrado and Atlantic forest. Agroicone.
- Schmitt, O. H. (1969). Some interesting and useful biomimetic transforms. In 1969 3th International Biophysics Congress of the International Union for Pure and Applied Biophysics (pp. 297).
- Silva, P. S., Nogueira, J., Rodrigues, J. A., Santos, F. L. M., Pereira, J. M. C., DaCamara, C. C., Daldegan, G. A., Pereira, A. A., Peres, L. F., Schimit, I. B., & Libonati, R. (2021). Putting fire on the map of Brazilian savanna ecoregions. Journal of Environmental Management, 296, 113098. https://doi.org/10.1016/j.jenvman.2021.113098
- Simon, M. F., & Pennington, T. (2012). Evidence for adaptation to fire regimes in the tropical savannas of the Brazilian Cerrado. International Journal of Plant Sciences, 173(6), 711–723. https://doi.org/10.1086/665973
- STE. (2013, January 1). Operating instructions. Protocolo n.: 139641/2006 (Process AGER-PRO-2022/02307, Process AGER-TER-2022/04906), Regulatory Agency for Delegated Public Services of the State of Mato Grosso (AGER).
- Stephenson, D. (1989). Developments in water science: Pipeline design for water engineers (3 ed). Elsevier Science Publishers B.V.
- Tullis, J. P. (1989). Hydraulic of pipelines: pumps, valves, cavitation, transients. John Wiley & Sons.
- Ulhøi, J. P. (2021). From innovation-as-usual towards unusual innovation: using nature as an inspiration. Journal of Innovation and Entrepreneurship, 10(2), 1–21. https://doi.org/10.1186/s13731-020-00138-0
- Vergueiro, M. (2020). Government of Mato Grosso. Cerrado – Mato Grosso. https://www.flickr.com/photos/governodematogrossoimagem/50191530073/
- Vincent, J. F. V., Bogatyreva, O. A., Bogatyrev, N. R., Bowyer, A., & Pahl, A. K. (2006). Biomimetics: its practice and theory. Journal of the Royal Society Interface, 3(9), 471–482. https://doi.org/10.1098/rsif.2006.0127
- Watters, G. Z. (1979). Modern analysis and control of unsteady flow in pipelines. Ann Arbor Science Publishers Inc.
- Wommer, K., & Wanieck, K. (2022). Biomimetic research for applications addressing technical environmental protection. Biomimetics, 7(4), 182. https://doi.org/10.3390/biomimetics7040182
- Wylie, E. B., & Streeter, V. L. (1978). Fluid transients. McGraw-Hill Inc.
- Zhang, H., & Aggidis, G. A. (2018). Nature rules hidden in the biomimetic wave energy converters. Renewable and Sustainable Energy Reviews, 97, 28–37. https://doi.org/10.1016/j.rser.2018.08.018
- Zhang, H., Sheng, W., Zha, A., & Aggidis, G. A. (2022). A Preliminary Study on Identifying Biomimetic Entities for Generating Novel Wave Energy Converters. Energies, 15(7), 2485. https://doi.org/10.3390/en15072485