
dr inż. Karolina Fitobór
Employment
- Adiunkt at Department of Water and Waste-Water Technology
- Scientific and Technical Specialist at Department of Water and Waste-Water Technology
Social media
Contact
- karfitob@pg.edu.pl
Adiunkt
- Workplace
-
Budynek Wydz. Hydrot.
pokój 201D open in new tab - Phone
- (58) 347 26 60
- karolina.fitobor@wilis.pg.gda.pl; karfitob@pg.edu.pl
Scientific and Technical Specialist
- Workplace
-
Budynek Wydz. Hydrot.
pokój 201D open in new tab - Phone
- (58) 347 26 60
- karolina.fitobor@wilis.pg.gda.pl; karfitob@pg.edu.pl
Publication showcase
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Nitrogen removal via the nitrite pathway during wastewater co-treatment with ammonia-rich landfill leachates in a sequencing batch reactor
The biological treatment of ammonia-rich landfill leachates due to an inadequate C to N ratio requires expensive supplementation of carbon from an external carbon source. In an effort to reduce treatment costs, the objective of the study was to determine the feasibility of nitrogen removal via the nitrite pathway during landfill leachate co-treatment with municipal wastewater. Initially, the laboratory-scale sequencing batch reactor...
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Laser granulometer as an useful tool for selection of appropriate membranes used in the MIEX®DOC-UF/MF hybrid process
In the study, particle size distribution of the MIEX® resin was presented. Such analyses enable to determinate whether presence of fine resin fraction may be the reason for unfavorable membrane blocking during water purification by the hybrid MIEX®DOC-microfiltration/ultrafiltration systems. Granulometric analysis of resin grains using the laser diffraction particle size analyzer (laser granulometer) was carried out as well as...
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Sizes of iron hydroxide particles formed during ferric coagulation processes
The aim of the study was to apply laser granulometer for measuring sizes of particles formed in iron-based coagulation process in water, which did not contain significant amounts of organic compounds. The research was conducted using tap water, obtained from underground sources. Iron sulfate in doses of 2.0–10.0 mgFe L–1 was added to water. During initial stage of flocculation, iron hydroxide particles reached dimensions between...
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