Iwona ewa Zawieja | Waste management | Best Researcher Award

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Assoc. Prof. Dr. Iwona ewa Zawieja | Waste management | Best Researcher Award

Associate professor at Czestochowa University of Technology, Poland

Iwona Zawieja is a distinguished professor at the Częstochowa University of Technology, Poland, specializing in environmental engineering. She earned her postdoctoral degree in 2016 with a thesis titled “Conventional and Hybrid Methods of Disintegration of Excess Sludge.” With over two decades of experience, she has made significant contributions to the fields of sewage treatment, sludge disposal, and biogas production. Her research focuses on innovative methods for sludge disintegration, biodegradation, and the removal of micropollutants from wastewater. She is an active member of the Faculty of Infrastructure and Environment, where she continues to advance sustainable environmental practices.

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Education 🎓

Iwona Zawieja completed her Master of Science in Engineering and Environmental Protection at the Częstochowa University of Technology in 2000. She earned her doctorate in 2006 and her postdoctoral degree in 2016, both from the same institution. Her academic journey has been marked by a deep commitment to advancing environmental engineering, particularly in the areas of sewage treatment and sludge management.

Experience 💼

Since October 2000, Iwona Zawieja has been a professor at the Częstochowa University of Technology. She has held various roles within the Faculty of Infrastructure and Environment, focusing on research and teaching in environmental engineering. Her expertise spans conventional and hybrid sludge disintegration methods, biogas production, and the removal of micropollutants from wastewater. She has also been involved in numerous research projects and collaborations, contributing to the advancement of sustainable environmental practices.

Awards and Honors 🏆

Iwona Zawieja has received recognition for her contributions to environmental engineering, including awards for her research on sludge disintegration and biogas production. Her work has been published in numerous high-impact journals, and she has been invited to speak at international conferences. Her dedication to advancing sustainable environmental practices has earned her a respected position in the academic community.

Research Focus 🔬

Iwona Zawieja’s research focuses on the treatment and disposal of sewage sludge, with an emphasis on disintegration and biodegradation processes. She explores the use of conventional and hybrid methods to enhance sludge treatment efficiency and biogas production. Her work also addresses the removal of micropollutants from wastewater and the potential of biomass as a source of energy and raw materials. Her research aims to develop sustainable solutions for environmental challenges.

Publication Top Notes 📚

  1. Influence of Ultrasonic Field Parameters on the Biochemical Activity of Leachates from the Composting Process
  2. Methane Fermentation of the Excess Sludge Sonicated and Oxidized with Fenton’s Reagent
  3. Biogas Production from Excess Sludge Oxidized with Peracetic Acid (PAA)
  4. Comparison of microbial activity of selected biopreparations and leachates for composting
  5. Effect of physical and chemical disintegration of excess sludge on the susceptibility to biodegradation
  6. The Use of Chemical Methods and Magnetic Field in Conditioning and Dewatering of Digested Sewage Sludge
  7. Biogas production in the methane fermentation of excess sludge oxidized with Fenton’s reagent
  8. Disintegrating Influence of Sonication on the Excess Sludge Liquification and their Microbiological Indicator
  9. Effect of thermal and alkaline disintegration of excess sludge on biodegradation
  10. Enhanced sludge degradation process using a microbial electrolysis cell
  11. The course of the methane fermentation process of dry ice modified excess sludge
  12. Biogas Generation from Sonicated Excess Sludge
  13. Effect of Dry Ice Modification of Excess Sludge on the Methane Fermentation Process
  14. Effect of hydrogen peroxide on nitrogen forms in sewage sludge subjected to the anaerobic stabilization
  15. Energy potential of the modified excess sludge
  16. Impact of the excess sludge modification with selected chemical reagents on the increase of dissolved organic substances concentration compounds transformations in activated sludge
  17. Characteristics of Excess Sludge Subjected to Disintegration
  18. Determination of Ketoprofen and Diclofenac Ultrasonic Removal from Aqueous Solutions
  19. Efektywność generowania lotnych kwasów tłuszczowych podczas mezofilowej i termofilowej fermentacji metanowej osadów nadmiernych
  20. Nowoczesne technologie doczyszczania ścieków i wód pitnych
  21. The Impact of Excess Sludge Disintegration on the Changes of Total Organic Carbon Value
  22. Wpływ dezintegracji osadów nadmiernych na zmiany wartości całkowitego węgla organicznego (OWO)
  23. Influence of Ultrasonic Pretreatment on Anaerobic Digestion of Excess Sludge from the Food Industry
  24. Konwencjonalne oraz hybrydowe metody dezintegracji osadów nadmiernych
  25. Susceptibility of conditioned excess sewage sludge to biodegradation and dewatering
  26. Ultrasonic Processors and Drainage of Sewage Sludge
  27. Effect of peracetic acid disintegration on the acceleration of hydrolysis process
  28. Generowanie biogazu z osadów ściekowych poddanych dezintegracji metodą hybrydową
  29. Hybrid conditioning before anaerobic digestion for the improvement of sewage sludge dewatering
  30. Ultrasonic aiding of selected pharmaceuticals removal from wastewater
  31. Wpływ stopnia dezintegracji osadów ściekowych poddanych alkalicznej modyfikacji na wartość jednostkowej produkcji biogazu
  32. Analiza parametrów reologicznych wstępnie kondycjonowanych osadów ściekowych poddanych fermentacji
  33. Effect of Chemical-thermal Modification of Excess Sludge on the Volatile Fatty Acids Generation During Methane Fermentation Process
  34. Effect of hybrid method of excess sludge disintegration on the increase of their biodegradability
  35. Od osadu do biogazu
  36. Potencjalne możliwości przeróbki osadów nadmiernych powstających w ciągu technologicznym komunalnej oczyszczalni ścieków
  37. Ultrasonic Disintegration of Sewage Sludge to Increase Biogas Generation
  38. Wpływ chemiczno-termicznej modyfikacji osadów nadmiernych na generowanie lotnych kwasów tłuszczowych w procesie fermentacji metanowej
  39. Effect of thermal disintegration of excess sludge on the effectiveness of hydrolysis process in anaerobic stabilization
  40. Effect of ultrasound field on dewatering of sewage sludge
  41. Effect of sonicator power on the biodegradability of sewage sludge
  42. Effect of the joule heat-based WG-12 active carbon modification process on the sorption of Cr(III)

Conclusion 🌟

Iwona Zawieja is a leading figure in environmental engineering, with a career dedicated to advancing sustainable practices in sewage treatment and sludge management. Her extensive research, numerous publications, and commitment to education have made significant contributions to the field. Her work continues to inspire and drive innovation in environmental engineering, paving the way for a more sustainable future.