Modernisierungsstrategien für die Wasserwirtschaft 3.0

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Cover of Volume: wwt Wasserwirtschaft Wassertechnik Volume 74 (2025), Edition Modernisierungsreport
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Praxismagazin für Trink- und Abwassermanagement

Volume 74 (2025), Edition Modernisierungsreport

Authors:
, , , , , , , , , , , , , , , , ,
Publisher
dfv Mediengruppe, Frankfurt am Main
Publication year
2025
ISSN-Online
1438-5716
ISSN-Print
1438-5716

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Volume 74 (2025), Edition Modernisierungsreport

Modernisierungsstrategien für die Wasserwirtschaft 3.0

Authors:
,
ISSN-Print
1438-5716
ISSN-Online
1438-5716
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Bibliography

  1. 1. Sturm, M. T.; Myers, E.; Schober, D.; Korzin, A.; Schuhen, K. (2023): Development of an Inexpensive and Comparable Microplastic Detection Method Using Fluorescent Staining with Novel Nile Red Derivatives. In: Analytica 2023, 4, S. 27–44 Open Google Scholar
  2. 2. Sturm, M. T.; Myers, E.; Korzin, A.; Polierer, S.; Schober, D.; Schuhen, K. (2023): Fast Forward: Optimized Sample Preparation and Fluorescent Staining for Microplastic Detection. In: Microplastics 2023, 2, S. 334–349 Open Google Scholar
  3. 3. Sturm, M. T.; Myers, E.; Korzin, A.; Schober, D.; Schuhen, K. (2024): Long-Term Monitoring of Microplastics in a German Municipal Wastewater Treatment Plant. In: Microplastics 2024, 3, S. 492–502 Open Google Scholar
  4. 4. Sturm, M. T.; Argyropoulou, D.; Myers, E.; Korzin, A.; Ronsse, P.; Zernikel, O.; Schober, D.; Schuhen, K. (2025): Comparative Long-Term Monitoring of Microplastics in the Effluent of Three Different Wastewater Treatment Plants with Two, Three, and Four Treatment Stages. In: Water 2025, 17, S. 711 Open Google Scholar
  5. 5. Sturm, M. T.; Korzin, A.; Ronsse, P.; Myers, E.; Zernikel, O.; Schober, D.; Schuhen, K. (2025): Reliable River Microplastic Monitoring Using Innovative Fluorescence Dyes – A Case Study. In: Microplastics 2025, 4, S. 63. Open Google Scholar
  6. 6. Tang, K. H. D.; Hadibarata, T. (2021): Microplastics removal through water treatment plants: Its feasibility, efficiency, future prospects and enhancement by proper waste management. In: Environ Chall. 2021, 5, S. 100264 Open Google Scholar
  7. 7. Kwon H. J.; Hidayaturrahman, H.; Peera, S. G.; Lee, T. G. (2022): Elimination of microplastics at different stages in wastewater treatment plants. Water. 2022, 14(15), S. 2404 Open Google Scholar
  8. 8. Iordachescu, L.; Papacharalampos, K.; Barritaud, L. et al (2024): Microplastics in an advanced wastewater treatment plant: sustained and robust removal rates unfazed by seasonal variations. In: Microplastics and Nanoplastics. 2024, 4(1), S. 18 Open Google Scholar
  9. 9. Korzin, A.; Sturm, M. T.; Myers, E.; Schober, D.; Ronsse, P.; Schuhen, K. (2025): Upstream Microplastic Removal in Industrial Wastewater: A Pilot Study on Agglomeration-Fixation-Reaction Based Treatment for Water Reuse and Waste Recovery. In: Clean Technologies, 7(3), S. 67 Open Google Scholar
  10. 10. Sturm, M. T.; Horn, H.; Schuhen, K. (2021): Removal of Microplastics from Waters through Agglomeration-Fixation Using Organosilanes - Effects of Polymer Types, Water Composition and Temperature. In: Water, 13(5), S. 675 Open Google Scholar
  11. 11. Sturm, M. T.; Myers, E.; Schober, D.; Korzin, A.; Schuhen, K. (2024): Beyond Microplastics: Implementation of a Two-Stage Removal Process for Microplastics and Chemical Oxygen Demand in Industrial Wastewater Streams. In: Water 2024, 16, S. 268 Open Google Scholar
  12. 12. Puhar, J.; Sturm, M.T.; Myers, E.; Schober, D.; Korzin, A.; Vujanović, A.; Schuhen, K. (2025): When Technology Meets Sustainability: Microplastic Removal from Industrial Wastewater, Including Impact Analysis and Life Cycle Assessment. In: Water 2025, 17, S. 671 Open Google Scholar

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