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Supercritical steam cycles and biomass integrated gasification combined cycles for sugarcane mills

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  • Pellegrini, Luiz Felipe
  • de Oliveira Júnior, Silvio
  • Burbano, Juan Carlos

Abstract

Back in 1970s and 1980s, cogeneration plants in sugarcane mills were primarily designed to consume all bagasse, and produce steam and electricity to the process. The plants used medium pressure steam boilers (21 bar and 300°C) and backpressure steam turbines. Some plants needed also an additional fuel, as the boilers were very inefficient. In those times, sugarcane bagasse did not have an economic value, and it was considered a problem by most mills. During the 1990s and the beginning of the 2000s, sugarcane industry faced an open market perspective, thus, there was a great necessity to reduce costs in the production processes. In addition, the economic value of by-products (bagasse, molasses, etc.) increased, and there was a possibility of selling electricity to the grid. This new scenario led to a search for more advanced cogeneration systems, based mainly on higher steam parameters (40–80 bar and 400–500°C). In the future, some authors suggest that biomass integrated gasification combined cycles are the best alternative to cogeneration plants in sugarcane mills. These systems might attain 35–40% efficiency for the power conversion. However, supercritical steam cycles might also attain these efficiency values, what makes them an alternative to gasification-based systems. This paper presents a comparative thermoeconomic study of these systems for sugarcane mills. The configurations studied are based on real systems that could be adapted to biomass use. Different steam consumptions in the process are considered, in order to better integrate these configurations in the mill.

Suggested Citation

  • Pellegrini, Luiz Felipe & de Oliveira Júnior, Silvio & Burbano, Juan Carlos, 2010. "Supercritical steam cycles and biomass integrated gasification combined cycles for sugarcane mills," Energy, Elsevier, vol. 35(2), pages 1172-1180.
    • Handle: RePEc:eee:energy:v:35:y:2010:i:2:p:1172-1180
    DOI: 10.1016/j.energy.2009.06.011
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    References listed on IDEAS

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    1. Pellegrini, Luiz Felipe & de Oliveira, Silvio, 2007. "Exergy analysis of sugarcane bagasse gasification," Energy, Elsevier, vol. 32(4), pages 314-327.
    2. Rodrigues, Monica & Walter, Arnaldo & Faaij, André, 2003. "Co-firing of natural gas and Biomass gas in biomass integrated gasification/combined cycle systems," Energy, Elsevier, vol. 28(11), pages 1115-1131.
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    2. Copa Rey, José Ramón & Tamayo Pacheco, Jorge Jadid & António da Cruz Tarelho, Luís & Silva, Valter & Cardoso, João Sousa & Silveira, José Luz & Tuna, Celso Eduardo, 2021. "Evaluation of cogeneration alternative systems integrating biomass gasification applied to a Brazilian sugar industry," Renewable Energy, Elsevier, vol. 178(C), pages 318-333.
    3. Dias, Marina O.S. & Junqueira, Tassia L. & Jesus, Charles D.F. & Rossell, Carlos E.V. & Maciel Filho, Rubens & Bonomi, Antonio, 2012. "Improving second generation ethanol production through optimization of first generation production process from sugarcane," Energy, Elsevier, vol. 43(1), pages 246-252.
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    5. Bhattacharya, Abhishek & Manna, Dulal & Paul, Bireswar & Datta, Amitava, 2011. "Biomass integrated gasification combined cycle power generation with supplementary biomass firing: Energy and exergy based performance analysis," Energy, Elsevier, vol. 36(5), pages 2599-2610.
    6. João Paulo Guerra & Fernando Henrique Cardoso & Alex Nogueira & Luiz Kulay, 2018. "Thermodynamic and Environmental Analysis of Scaling up Cogeneration Units Driven by Sugarcane Biomass to Enhance Power Exports," Energies, MDPI, vol. 11(1), pages 1-23, January.
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    10. Pina, Eduardo A. & Palacios-Bereche, Reynaldo & Chavez-Rodriguez, Mauro F. & Ensinas, Adriano V. & Modesto, Marcelo & Nebra, Silvia A., 2017. "Reduction of process steam demand and water-usage through heat integration in sugar and ethanol production from sugarcane – Evaluation of different plant configurations," Energy, Elsevier, vol. 138(C), pages 1263-1280.
    11. Velásquez, H.I. & De Oliveira, S. & Benjumea, P. & Pellegrini, L.F., 2013. "Exergo-environmental evaluation of liquid biofuel production processes," Energy, Elsevier, vol. 54(C), pages 97-103.
    12. Sansaniwal, S.K. & Rosen, M.A. & Tyagi, S.K., 2017. "Global challenges in the sustainable development of biomass gasification: An overview," Renewable and Sustainable Energy Reviews, Elsevier, vol. 80(C), pages 23-43.
    13. Son, Seongmin & Lee, Jeong Ik, 2018. "Application of adjoint sensitivity analysis method to supercritical CO2 power cycle optimization," Energy, Elsevier, vol. 147(C), pages 1153-1164.
    14. González, Arnau & Riba, Jordi-Roger & Puig, Rita & Navarro, Pere, 2015. "Review of micro- and small-scale technologies to produce electricity and heat from Mediterranean forests׳ wood chips," Renewable and Sustainable Energy Reviews, Elsevier, vol. 43(C), pages 143-155.
    15. Fioranelli, Anselmo & Bizzo, Waldir A., 2023. "Generation of surplus electricity in sugarcane mills from sugarcane bagasse and straw: Challenges, failures and opportunities," Renewable and Sustainable Energy Reviews, Elsevier, vol. 186(C).
    16. Díaz Pérez, Álvaro A. & Escobar Palacio, José C. & Venturini, Osvaldo J. & Martínez Reyes, Arnaldo M. & Rúa Orozco, Dimas J. & Silva Lora, Electo E. & Almazán del Olmo, Oscar A., 2018. "Thermodynamic and economic evaluation of reheat and regeneration alternatives in cogeneration systems of the Brazilian sugarcane and alcohol sector," Energy, Elsevier, vol. 152(C), pages 247-262.
    17. Grisi, Edson F. & Yusta, Jose M. & Dufo-López, Rodolfo, 2012. "Opportunity costs for bioelectricity sales in Brazilian sucro-energetic industries," Applied Energy, Elsevier, vol. 92(C), pages 860-867.
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