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Best results in : Research Potential Pokaż wszystkie wyniki (7)
Search results for: AOB, NOB, DO, WWTP, PARTIAL NITRIFICATION
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Katedra Inżynierii Sanitarnej
Research PotentialKatedra realizuje swoje zadania badawcze w takim zakresie jak opracowywanie metody podczyszczania lub oczyszczania ścieków przemysłowych oraz ich pomiary. Drugą gałęzią zainteresowań są modele matematyczne i symulacje procesów oczyszczania ścieków i zagospodarowania osadów, opracowywanie symulacji strategii eksploatacyjnych i działań modernizacyjnych.
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Katedra Technologii Wody i Ścieków
Research PotentialAktywność naukowo-badawcza pracowników katedry koncentruje się wokół zagadnień dotyczących technologii ochrony środowiska, w szczególności zagadnienia oczyszczania wód i ścieków, gospodarki osadowej jak również gospodarki odpadami. Prowadzone badania poświęcone są ocenie zagrożeń środowiska wynikających z dopływu zanieczyszczeń ze źródeł punktowych (zanieczyszczonych wód i ścieków ) i powierzchniowych (ścieków opadowych) oraz...
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Katedra Elektrotechniki, Systemów Sterowania i Informatyki
Research PotentialW Katedrze Elektrotechniki, Systemów Sterowania i Informatyki prowadzone są badania w tematyce podstaw elektrotechniki, zaawansowanych systemów sterowania, prototypowania dedykowanych rozwiązań sprzętowych w FPGA. Prowadzone badania skupiają się również na wykorzystaniu zaawansowanych technik analizy komputerowej w systemach sterowania oraz elektrotechniki.
Best results in : Business Offer Pokaż wszystkie wyniki (1)
Search results for: AOB, NOB, DO, WWTP, PARTIAL NITRIFICATION
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Laboratorium Badawcze 2-3
Business OfferObliczenia komputerowe wymagające dużych mocy obliczeniowych z wykorzystaniem oprogramowania typu: Matlab, Tomlab, Gams, Apros.
Other results Pokaż wszystkie wyniki (27)
Search results for: AOB, NOB, DO, WWTP, PARTIAL NITRIFICATION
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Mutual Interaction between Temperature and DO Set Point on AOB and NOB Activity during Shortcut Nitrification in a Sequencing Batch Reactor in Terms of Energy Consumption Optimization
PublicationRecently, many wastewater treatment plants (WWTPs) have had to deal with serious problems related to the restrictive requirements regarding the euent quality, as well as significant energy consumption associated with it. In this situation, mainstream deammonification and/or shortened nitrification-denitrification via nitrite (so-called “nitrite shunt”) is a new promising strategy. This study shows the mechanisms and operating conditions...
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Modelling AOB-NOB competition in shortcut nitrification compared with conventional nitrification-denitrification process
PublicationIn particular, mainstream deammonification and/or shortened nitrificationdenitrification via nitrite (so-called “nitrite shunt”) is a promising new treatment concept that has the potential to revolutionise how nitrogen removal is achieved at WWTPs. Understanding the role of the AOB/NOB competition in the nitrogen cycle in wastewater treatment systems will change operational strategies of the novel nitrogen removal processes. The...
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REVIEW ON COMPETITION АОB AND NОВ AS AN IMPORTANT ELEMENT FOR COST EFFECTIVE METHODS OF REMOVING NITROGEN FROM WASTEWATER
PublicationThe aim of this paper is analysis of process principles and possible factors used to induce inhibition of nitrite oxidation by NOB (Nitrite Oxidizing Bacteria) which could be obtained during not very well understood processes: so called “shortcut” or “partial” nitrification as well deammonification, by qualitative/quantitative studies of AOB (Ammonium Oxidizing Bacteria) and NOB populations in activated...
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Development of Strategies for AOB and NOB Competition Supported by Mathematical Modeling in Terms of Successful Deammonification Implementation for Energy-Efficient WWTPs
PublicationNovel technologies such as partial nitritation (PN) and partial denitritation (PDN) could be combined with the anammox-based process in order to alleviate energy input. The former combination, also noted as deammonification, has been intensively studied in a frame of lab and full-scale wastewater treatment in order to optimize operational costs and process efficiency. For the deammonification process, key functional microbes include...
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Inhibition effect of free ammonia on deammonification process under different intermittent aeration strategies in sequencing batch reactor
PublicationThe deammonification process involves two steps. The first step is the partial nitrification of ammonia (NH4-N) by ammonia oxidizing bacteria (AOB) to produce nitrite (NO2-N) and the second step is the anammox process to “anaerobically” oxidize ammonia to nitrogen gas with nitrite as an electron acceptor (Lackner et al., 2014). Free ammonia (FA) plays a significant role in the stable, long-term deammonification system operation....