Unlocking the role of lignin for preparing the lignin-based wood adhesive: A review

Kraft black liquor as a renewable source of value-added chemicals

Integrated system of anaerobic digestion and pyrolysis for valorization of agricultural and food waste towards circular bioeconomy: Review.

The lignin waste from lignocellulose biorefinery limits its green recycling development. Lignin is a kind of natural aromatic polymer with a complex three-dimensional amorphous structure. Catalytic pyrolysis technology has been employed to convert lignin waste into high-grade aromatic compounds, which can realize the full-component refining of biomass. However, the catalytic pyrolysis of lignin has faced problems such as low target product selectivity and poor catalyst stability, which affects the conversion efficiency and economy. This review aims to scope the latest developments the lignin waste valorization by catalytic pyrolysis from the aspects of lignin structure characteristics, catalytic pyrolysis mode, catalyst types, and catalytic pyrolysis reaction system, respectively. The latest aspects of catalyst and catalytic pyrolysis reaction system development in the lignin pyrolysis process have been emphatically analyzed. Based on a critical analysis of the scientific literature, the industrial symbiosis model of cross-industry comprehensive utilization of biorefinery lignin waste with a focus on catalytic pyrolysis technology was proposed for accurately incorporating catalytic pyrolysis technology into the biorefinery system. Finally, several perspectives on designing efficient and commercial application strategies of lignin waste energy utilization are addressed. This review can provide a scientific reference for further research studies on lignin waste residue produced by lignocellulose biorefinery. 

A review on lignin waste valorization by catalytic pyrolysis: Catalyst, reaction system, and industrial symbiosis mode

Recent updates in biohydrogen production strategies and life-cycle assessment for sustainable future.

Anaerobic digestion of sugarcane bagasse for biogas production and digestate valorization.

Recent advances in black liquor valorization.

Annually, huge amounts of microplastics (MPs) are added to farmlands through sewage sludge (SS)/biosolid applications as a fertilizer. Most research emphasizes the enormity of the problem and demonstrates the fate, impacts, and toxicity of MPs during SS treatment processes and land applications. None has addressed the management strategies. To address the gaps, the current review evaluates the performance analysis of conventional and advanced sludge treatment methods in eliminating MPs from sludge. The review uncovers that the occurrence and characteristics of MPs in SS are highly governed by factors such as population density, speed and level of urbanization, citizens’ daily habits, and treatment units in wastewater treatment plants (WWTPs). Furthermore, conventional sludge treatment processes are ineffective in eliminating MPs from SS and are accountable for the increased small-sized MPs or micro(nano)plastics (MNPs) along with altered surface morphology facilitating more co-contaminant adsorption. Simultaneously, MPs can influence the operation of these treatment processes depending on their size, type, shape, and concentration. The review reveals that research to develop advanced technology to remove MPs efficiently from SS is still at a nascent stage. This review provides a comprehensive analysis of MPs in the SS, by corroborating state-of-the-knowledge, on different aspects, including the global occurrence of MPs in WWTP sludge, impacts of different conventional sludge treatment processes on MPs and vice versa, and efficiency of advanced sludge treatment and upcycling technologies to eliminate MPs, which will facilitate the development of mitigation measures from the systematic and holistic level. 

/pdf/contemporary-drift-in-emerging-micro-nano-plastics-removal-2jjwwc9p.pdf

Contemporary Drift in Emerging Micro(nano)plastics Removal and Upcycling Technologies from Municipal Wastewater Sludge: Strategic Innovations and Prospects

Hydrothermal pretreatment of sugarcane bagasse pith for biogas production and digestate valorization to biochar

Screening and characterization of bioflocculant isolated from thermotolerant Bacillus sp. ISTVK1 and its application in wastewater treatment

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