Sustainable Environmental Science and Water/Wastewater Treatment
Materialtyp:
ArtikelUtgivningsinformation: MDPI - Multidisciplinary Digital Publishing Institute 2024Innehållstyp: - text
- computer
- online resource
- 9783725815418
- 9783725815425
- Technology, Engineering, Agriculture, Industrial processes
- Technology: general issues
- Engineering: general
- Environmental science, engineering and technology
- 3D printing
- CO2 emissions
- Pond-in-Pond system
- Reactive Red 45 dye
- UV radiation
- advanced oxidation process
- artificial intelligence
- bacteriophage
- bioaugmentation
- biocover
- biomass ash recycling
- climate change
- cytotoxicity
- data modelling
- decentralization
- deep learning models
- eco-friendly
- economic feasibility
- environmental impacts
- environmental sustainability
- enzyme activity
- fine fraction
- fuzzy AHP
- fuzzy TOPSIS
- gamma radiation
- greywater treatment
- landfill mining
- landfills
- life cycle analysis (LCA)
- methane
- microbial community
- microcystin
- microplastics
- mixed-integer nonlinear programming
- multi-criteria decision making
- nature-based solutions
- nutrient availability
- optimization
- pipe material
- poly(ethylene terephthalate)
- pyrolysis
- reactive extrusion
- recycled thermoplastic
- sludge-to-energy
- smart city technologies
- smart sustainable waste management
- suspended solids
- sustainability
- sustainable environment
- sustainable water level management
- vermicomposting
- wastewater treatment
- water conservation
- water reuse
- water supply syst
Open Access Unrestricted online access star
In a rapidly globalizing world, it is crucial for industries to consider waste minimization and therefore adopt and implement environmentally friendly and sustainable/circular waste/water/wastewater management and treatment strategies. For this purpose, priority should be given to the reuse of the treated process stream, the recovery of beneficial nutrients, and the valorization of waste/wastewater-derived by-products to create a more eco-friendly and sustainable production model. On the other hand, due to the limiting high costs and the various process-related difficulties associated with traditional methods, there is a need to explore cost-effective, manageable, environmentally sound, and profitable treatment methods that will effectively remove/recover excess nutrients/contaminants from industrial waste streams. In this context, it is critical and urgent to deploy proper innovative and techno-sustainable water/wastewater treatment solutions from an environmental standpoint, while fulfilling the expanding industrial demands worldwide.
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eng
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