Energy Return on Investment (EROI) and Life Cycle Analysis (LCA) of biofuels in Ecuador

In Ecuador, the net energy contribution of biofuels is unknown or unnoticed. To address this issue, we determined the Energy Return on Investment (EROI) for bioethanol and biodiesel. The selection of raw materials relied on their productive capacity, export and import records, and historical yields....

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Veröffentlicht in:Heliyon 2020-06, Vol.6 (6), p.e04213-e04213, Article e04213
Hauptverfasser: Chiriboga, Gonzalo, De La Rosa, Andrés, Molina, Camila, Velarde, Stefany, Carvajal C, Ghem
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Sprache:eng
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Zusammenfassung:In Ecuador, the net energy contribution of biofuels is unknown or unnoticed. To address this issue, we determined the Energy Return on Investment (EROI) for bioethanol and biodiesel. The selection of raw materials relied on their productive capacity, export and import records, and historical yields. Consequently, the scope included three raw materials for ethanol (sugar cane, corn, and forest residues) and four for biodiesel (African palm, pinion, bovine fat, and swine fat). Using a method based on the Life Cycle Analysis (LCA) of each biofuel, we assessed the entire production chain through statistical processing of primary and secondary information. Then we calculated the calorific values in the laboratory, compared energy inputs/outputs, and finally obtained the energetic returns. EROIs for bioethanol were: 1.797 for sugarcane, 1.040 for corn, and 0.739 for wood. The results for biodiesel were: 3.052 for African palm, 2.743 for pinion, 2.187 for bovine fat, and 2.891 for swine fat. These values suggest feasibility only for sugarcane in the case of ethanol. In contrast, biodiesel has better prospects because all the feedstocks analyzed had EROIs higher than two. Nevertheless, biodiesel is not available for trading in Ecuador because energy policy has overlooked systems based on higher energy return. Future studies should consider more comprehensive variables such as climate change, land use, and water management. Energy; Environmental chemical engineering; Biofuel; Energy economics; Energy sustainability; Energy return of investment; Life cycle analysis; Transport sector; Ecuador.
ISSN:2405-8440
2405-8440
DOI:10.1016/j.heliyon.2020.e04213