Optimal design and planning multi resource-based energy integration in process industries

• Published in: Computer Aided Chemical Engineering Vol. 46; pp. 1075 - 1080
• Main Authors: Morakabatchiankar, Shabnam, Mele, Fernando D., Graells, Moisés, Espuña, Antonio
• Format: Book Chapter
• Language: English
• Published: 2019
• Subjects: closed-loop energy integration; Multi resource-based energy; Optimization under uncertainty; renewable energies; closed-loop energy integration; Multi resource-based energy; Optimization under uncertainty; renewable energies
• ISBN: 9780128186343; 0128186348
• ISSN: 1570-7946
• DOI: 10.1016/B978-0-12-818634-3.50180-6

Recently, process industries have experienced a significant pressure to shift from centralized energy supplying systems to the in-situ exploitation of renewable resources. Special attention has been paid to multi resource-based energy systems, a particular case of distributed generation where processing nodes include energy generation and can operate either grid-connected or isolated. This work proposes a general model to determine the optimal retrofitting of a supply chain integrating renewable energy sources under uncertain conditions and to analyze the effect of different planning horizons in the solution. The proposed mixed integer linear programming (MILP) formulation allows determining the best combination of available technologies that satisfies the internal energy demand of a given set of scenarios while addressing total expected cost and expected environmental impact minimization. The potential of the approach is illustrated through a case study from the sugar cane industry proposed by Mele et al. (2011).