Optimal design of the supply chain for cogeneration of energy from forest biomass

  • Salomé Rodriguez Instituto de Desarrollo Tecnológico para la Industria Química, INTEC (UNL - Conicet)
  • Diego Broz Facultad de Ciencias Forestales - Universidad Nacional de Misiones
  • Luis Zeballos Instituto de Desarrollo Tecnológico para la Industria Química, INTEC (UNL - Conicet)
  • Rodolfo Dondo Instituto de Desarrollo Tecnológico para la Industria Química, INTEC (UNL - Conicet)

Resumen

In the forestry industry, residues are generated when the stands are exploited and during the production of wood. The residues can be used to obtain incomes and generate thermal and electrical energy. This work presents a MILP formulation aimed at optimizing the topology of the supply chain and the material flows of a forestry-industrial company that has a power generation plant. The objective function of the formulation aims at  maximizing the company profit while its constraints set the supply chain configuration. Optimal material flows within the chain are consequently fixed. The model of the supply-chain was solved with GAMS and the optimal configuration and flows for several scenarios were obtained. Analyzing these variations, it can be affirmed that considering a new structure in the supply chain allows improving the profitability of the organization.

Publicado
2022-12-16
Cómo citar
Rodriguez, S., Broz, D., Zeballos, L., & Dondo, R. (2022). Optimal design of the supply chain for cogeneration of energy from forest biomass. Memorias De Las JAIIO, 8(13), 131-144. Recuperado a partir de https://publicaciones.sadio.org.ar/index.php/JAIIO/article/view/337
Número
Vol. 8 Núm. 13 (2022): SIIIO 2022 - Simposio Argentino de Informática Industrial e Investigación Operativa
Sección
SIIIO - Simposio Argentino de Informática Industrial e Investigación Operat