Circular economy approach of enhanced bifunctional catalytic system of CaO/CeO2 for biodiesel production from waste loquat seed oil with life cycle assessment study

Ala'a H. Al-Muhtaseb, Ahmed I. Osman *, Paskalis Sahaya Murphin Kumar, Farrukh Jamil, Lamya Al-Haj, Abdulrahman Al Nabhani, Htet Htet Kyaw, Myo Tay Zar Myint, Neha Mehta, David W. Rooney

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

Abstract

Herein, we utilised Loquat seed oil as a waste resource to produce biodiesel over a novel bifunctional catalyst system based on CaO loaded on a ceria oxide support. The catalysts were characterised using XRD, SEM-EDX, SBET STEM, and TPD analyses, followed by parametric analysis to optimise the catalyst performance. The XPS analysis showed a strong synergistic effect between CaO and CeO2 support. The parametric study revealed that the most active catalyst (15 wt% CaO-CeO2) showed optimum biodiesel yield was 90.14 (±0.1) wt% at a temperature of 70 ◦C, methanol: oil of 9, time of 90 min and 4 wt% of catalyst. The reusability test showed that when the most active catalyst was calcined and reused, the biodiesel yield was almost the same ±0.5%; however, when biodiesel production was used without calcination, the biodiesel yield was reduced by 15%. The quality of the produced biodiesel was investigated by the American Society for Testing and Materials (ASTM) and European Union (EU) Standards. It showed that it satisfied all standards and could be used as potential alternative fuel instead of fossil diesel from novel Loquat seed oil. The Life cycle Assessment (LCA) was condcuted to assess environmental feasibility of the process with 1000 kg of biodiesel as 1 functional unit (FU). The LCA using midpoint indicators (from CML-IA baseline V3.06 method) showed the cumulative abiotic depletion of fossil resources over the entire process of biodiesel production was 26349 MJ, global warming potential was 1129 kg CO2 eq, and human health toxicity was 422 kg 1,4-DB eq (kg 1,4 dichlorobenzene equivalent) per FU. The highest damage in most environmental categories was observed during catalyst preparation and regeneration. This was confirmed in endpoint LCA findings (ReCiPe 2016 Endpoint (E) V1.04), where catalyst preparation contributed to human health (119.2 Point (Pt)), ecosystems damage (9.3 Pt) and resources depletion (0.5 Pt). Furthermore, the net energy ratio was 2.23 for the biodiesel production process (computed as output energy/ input energy) by considering allocation of output energy due to biodiesel and glycerol.
Original languageEnglish
Article number114040
Number of pages17
JournalEnergy Conversion and Management
Volume236
Early online date01 Apr 2021
Publication statusEarly online date - 01 Apr 2021

Keywords

  • Biodiesel
  • bifunctional catalyst
  • circular economy
  • life cycle assessment (LCA)

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