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A review of biological processing technologies for palm oil mill waste treatment and simultaneous bioenergy production at laboratory scale, pilot scale and industrial scale applications with technoeconomic analysis

Debbie Dominic, Siti Baidurah

2025Energy Conversion and Management X12 citationsDOIOpen Access PDF

Abstract

• Biological technologies for treating palm oil mill waste at lab, pilot, and industrial scales. • Integrated palm oil waste systems improve resource recovery and reduce pollution. • Potential of sustainable bioenergy production from palm oil mill wastes. • Economic feasibility of palm oil waste treatment using SuperPro Designer and Aspen Plus. • Adopting sustainable certifications promotes responsible palm oil operations. Palm oil production is one of the significant economic contributors to Malaysia, yet it poses serious environmental challenges, particularly in the management of palm oil mill waste. As the industry expands, the improper management of palm oil waste has raised alarms regarding environmental concerns. This review aims to address sustainable bioenergy production through biological processing technologies for palm oil mill waste treatment, focusing on biofuels such as biogas, bioethanol, and solid biomass pellets. Furthermore, the optimization of these technologies and their efficiency in removing pollutants like chemical oxygen demand (COD), biochemical oxygen demand (BOD), and total suspended solids (TSS) at laboratory, pilot, and industrial scales are also explored. Additionally, the technoeconomic analysis (TEA) of the treatment technologies using SuperPro Designer and Aspen Plus is discussed to provide insights into their economic viability and environmental benefits. This review presents a comprehensive approach to palm oil mill waste treatment integrated with bioenergy production and offers scalable and economically viable solutions for sustainable palm oil production. In the future, the development of hybrid biological treatment systems combining advanced technologies such as artificial intelligence (AI), internet of things (IoT), and nanotechnology could be proposed to further enhance operational efficiency, reduce costs, and maximize the recovery of bioenergy. Importantly, the adoption of sustainability certifications like Roundtable on Sustainable Palm Oil (RSPO) and Malaysian Sustainable Palm Oil (MSPO) is crucial in promoting responsible practices in palm oil production while ensuring compliance with environmental regulations, which would improve marketability.

Topics & Concepts

BioenergyPalm oilScale (ratio)Environmental scienceWaste managementEngineeringBiofuelAgricultural sciencePhysicsQuantum mechanicsBiofuel production and bioconversionOil Palm Production and SustainabilityBiodiesel Production and Applications
A review of biological processing technologies for palm oil mill waste treatment and simultaneous bioenergy production at laboratory scale, pilot scale and industrial scale applications with technoeconomic analysis | Litcius