Ehsan Khorshidi Nazloo scite author profile

Food processing is among the greatest water-consuming industries with a significant role in the implementation of sustainable development goals. Waterconsuming industries such as food processing have become a threat to limited freshwater resources, and numerous attempts are being carried out in order to develop and apply novel approaches for water management in these industries. Studies have shown the positive impact of the new methods of process integration (e.g., water pinch, mathematical optimization, etc.) in maximizing water reuse and recycle. Applying these methods in food processing industries not only significantly supported water consumption minimization but also contributed to environmental protection by reducing wastewater generation. The methods can also increase the productivity of these industries and direct them to sustainable production. This interconnection led to a new subcategory in nexus studies known as water-food-environment nexus. The nexus assures sustainable food production with minimum freshwater consumption and minimizes the environmental destructions caused by untreated wastewater discharge. The aim of this study was to provide a thorough review of water-food-environment nexus application in food processing industries and explore the nexus from different aspects.The current study explored the process of food industries in different sectors regarding water consumption and wastewater generation, both qualitatively and quantitatively. The most recent wastewater treatment methods carried out in different food processing sectors were also reviewed. This review provided a comprehensive literature for choosing the optimum scenario of water and wastewater management in food processing industries. K E Y W O R D Scircular economy, food processing, nexus, wastewater treatment, water management INTRODUCTIONIncreased global demand for freshwater due to population growth has put the water resources under stress for the recent decades. Water scarcity is predicted to get more intensive in the forthcoming years (Piesse, 2020). Statistical data demonstrated that annual water consumption in three main different sectors of agriculture, industries, and

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Graphene-based catalysts for biodiesel production: Characteristics and performance

Nazloo

Moheimani²,

Ennaceri³

2023

Science of The Total Environment

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Biomass quantification and 3-D topography reconstruction of microalgal biofilms using digital image processing

et al. 2021

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Biodiesel production from wet microalgae: Progress and challenges

2022

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