Separation Techniques and Circular Economy
Materialtyp:
ArtikelUtgivningsinformation: Basel MDPI - Multidisciplinary Digital Publishing Institute 2024Beskrivning: 1 electronic resource (176 p.)Innehållstyp: - text
- computer
- online resource
- 9783725824298
- 9783725824304
- Medicine
- Clinical & internal medicine
- Diseases and disorders
- Oncology
- Technology, Engineering, Agriculture, Industrial processes
- Technology: general issues
- acetaldehyde removal
- adsorption
- affinity
- agricultural biogas plant
- amino acid
- bead-type activated carbon
- calcium alginate
- ceramic membranes
- coagulation
- concentration of lactose and whey permeate
- dead-end filtration
- demineralization
- desorption
- digestate
- electrospinning nanofiber membrane
- electrospun nanofiber membrane
- extracellular polymeric substance
- fermentation broth
- flat-sheet module
- flushing
- forward osmosis
- heavy-metal ion
- humic-like substance
- integrated processes
- ion-exchange membrane
- kitchen waste
- lactic acid
- ligand
- membrane
- membrane processes
- microfiltration
- modeling
- molecular weight cut-off (MWCO)
- municipal waste biogas plant
- nanofiltration (NF)
- neutralization dialysis
- nitric acid
- organic matters
- phenylalanine losses
- piperazine
- plasmid DNA
- polymeric membrane
- polymeric membranes
- process parameters
- recovery
- refinement
- reverse solute diffusion
- scale-up
- secondary effluent
- soluble microbial products
- spiral wound module
- surface modification
- thin film composite forward osmosis membrane
- ultrafiltration
- water
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Efficient separation techniques play an important role in the process of resource recovery, and these techniques include physical, chemical, physicochemical, and/or biological methods that are selected for their low cost and low energy consumption and for being free of secondary pollution. Additionally, the highest possible value added of the separated products is obtained to enhance the economy. This reprint presents novel separation technologies involving the recovery of extracellular polymeric substances, calcium alginate in wastewater treatment, plasmid DNA in gene therapy, lactose in the dairy industry, lactic acid in the fermented broth of kitchen waste, phenylalanine losses in neutralization dialysis, the removal of secondary effluent organic matter, acetaldehyde in the atmosphere, and the purification of the liquid fraction of digestates.
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eng
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