In-silico production of bioactive enrichment soil fertilizer from agricultural by-products towards bioeconomics perspectives

Objective: To evaluate production facilities biorefinery design of bioactive enrichment soil fertilizer using
food waste generated by farms in Baja California Sur (BCS), México, of five agricultural commodities towards
bioeconomic perspectives.
Design/methodology/approach: BCS state was the study area. A mathematical model biorefinery design
was made using a Mixed Integer Linear Program approach. Four layers of decision were used, Biomass,
Production facilities, Storage and Consumer location. SuperPro Designer was used to biorefinery design and
model was formulated in Phyton.
Results: Model shows two optimal production facilities: Valle de Vizcaino (VV) and Valle de Santo Domingo
(VSD). VV processes strawberry and tomato with net profit of 50.28. While VSD processes orange and
asparagus with net profit of 35.48. Production line goes from May to April. Ascorbic acid and quercetin were
considered to enrichment the soil fertilizer.
Limitations on study/implications: This study did not produce bioactive compounds in industrial way only
use mathematical modeling program and equations to predict the optimal scenario to production facilities
location in an agricultural region.
Findings/conclusions: Model showed the importance of consider four interconnected decision layers. The
framework was developed for capturing food waste generation dynamics. These dynamics display a very
important role in all other dimensions’ decisions and that an efficient biorefinery design must account for these
dynamics.