TY - JOUR
T1 - Extraction of palm carotene from crude palm oil by solvolytic micellization
T2 - economic evaluation and life cycle assessment
AU - Hoe, Boon Chin
AU - Arumugam, Priyangaa
AU - M.L, Irene Chew
AU - Tan, Jully
AU - Ooi, Chien Wei
N1 - Funding Information:
The authors thank Monash-Industry Palm Oil Education and Research Platform (MIPO) and for supporting the works. Ooi C.W. gratefully acknowledges the financial support provided by School of Engineering, Monash University Malaysia, under Industry Feasibility Grant (SIEC_FG0022021).
Publisher Copyright:
© 2022 Taylor & Francis Group, LLC.
PY - 2024
Y1 - 2024
N2 - Carotenoids are a class of commercially important phytonutrient and they are widely used as natural colorant and antioxidant in food formulation. Crude palm oil (CPO) contains the highest concentration of plant-derived carotenoids but most of them are destroyed during palm oil processing. Among the extraction methods used in the recovery of carotenoids from palm oil, solvolytic micellization is attractive in terms of extraction performance and scalability. However, the environmental and economic performances of solvolytic micellization for industrial-scale extraction of palm-based carotenoids have not been reported. In this study, economic evaluation and life-cycle assessment (LCA) were performed on the extraction of palm carotenes, covering CPO pretreatment, solvolytic micellization, product purification, and solvent recovery. A good profitability of this extraction scheme was demonstrated using a base-case scenario targeting 50000 kg CPO feedstock/day. CPO is the major contributor to the overall operating cost of the extraction scheme. The working capital was significantly lower than operating and capital costs because the extraction process does not involve solid particulate processing. A gate-to-gate LCA framework was performed based on ISO 14040 and eight midpoint impact categories. Global warming potential and fossil fuel scarcity are the two main environmental concerns of this extraction scheme, as majorly contributed by the methanol recovery process. Overall, solvolytic micellization shows good commercialization potential because of its simplicity, scalability, and inexpensive setup.
AB - Carotenoids are a class of commercially important phytonutrient and they are widely used as natural colorant and antioxidant in food formulation. Crude palm oil (CPO) contains the highest concentration of plant-derived carotenoids but most of them are destroyed during palm oil processing. Among the extraction methods used in the recovery of carotenoids from palm oil, solvolytic micellization is attractive in terms of extraction performance and scalability. However, the environmental and economic performances of solvolytic micellization for industrial-scale extraction of palm-based carotenoids have not been reported. In this study, economic evaluation and life-cycle assessment (LCA) were performed on the extraction of palm carotenes, covering CPO pretreatment, solvolytic micellization, product purification, and solvent recovery. A good profitability of this extraction scheme was demonstrated using a base-case scenario targeting 50000 kg CPO feedstock/day. CPO is the major contributor to the overall operating cost of the extraction scheme. The working capital was significantly lower than operating and capital costs because the extraction process does not involve solid particulate processing. A gate-to-gate LCA framework was performed based on ISO 14040 and eight midpoint impact categories. Global warming potential and fossil fuel scarcity are the two main environmental concerns of this extraction scheme, as majorly contributed by the methanol recovery process. Overall, solvolytic micellization shows good commercialization potential because of its simplicity, scalability, and inexpensive setup.
KW - Carotenoids
KW - crude palm oil
KW - environmental impact
KW - life-cycle assessment
KW - solvolytic micellization
UR - http://www.scopus.com/inward/record.url?scp=85126757738&partnerID=8YFLogxK
U2 - 10.1080/00986445.2022.2047664
DO - 10.1080/00986445.2022.2047664
M3 - Article
AN - SCOPUS:85126757738
SN - 0098-6445
VL - 211
SP - 336
EP - 349
JO - Chemical Engineering Communications
JF - Chemical Engineering Communications
IS - 3
ER -