Best results in : Research Potential Pokaż wszystkie wyniki (5)
Search results for: ENERGY NEUTRALITY
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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 Elektroenergetyki
Research Potential* ochrona i bezpieczeństwo pracy systemu elektroenergetycznego, * stabilność sterowanie pracą systemu elektroenergetycznego, * kompleksowe modelowanie systemów elektroenergetycznych oraz szczegółowe modele elementów systemu, * urządzenia FACTS i systemy HVDC w systemach elektroenergetycznych, * odnawialne źródła energii w systemach elektroenergetycznych, * urządzenia i instalacje elektryczne, * optymalizacja struktury i parametrów...
Other results Pokaż wszystkie wyniki (21)
Search results for: ENERGY NEUTRALITY
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Achieving energy neutrality in wastewater treatment plants through energy savings and enhancing renewable energy production
PublicationWastewater treatment plants (WWTPs) consume high amounts of energy which is mostly purchased from the grid. During the past years, many ongoing measures have taken place to analyze the possible solutions for both reducing the energy consumption and increasing the renewable energy production in the plants. This review contains all possible aspects which may assist to move towards energy neutrality in WWTPs. The sources of energy...
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Energy Neutrality Versus Carbon Footprint Minimization In Municipal Wastewater Treatment Plants
PublicationThe study presents analysis of the carbon footprint (CF) in six medium and large-size municipal wastewater treatment plants (WWTPs) located across Poland. The novelty of the presented study is searching the relationship between level of energy neutrality and CF in the case studies. Although energy and CF go hand-in-hand to some degree but moving towards energy neutrality in WWTPs might also lead to an increase in the total CF of...
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Energy neutrality versus carbon footprint minimization in municipal wastewater treatment plants
PublicationThis work aimed to compare the carbon footprint (CF) of six full-scale wastewater treatment plants (WWTPs). The CF was estimated in the range of 23–100 kg CO2e per population equivalent. In the total CF, the direct emissions held the highest share (62–74%) for the plants with energy recovery from biogas. In the plants depending entirely on the power grid, the indirect emissions due to energy consumption dominated the total CF (69–72%)....
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Strategies for Achieving Energy Neutrality in Biological Nutrient Removal Systems – a Case Study of the Slupsk WWTP (northern Poland)
PublicationThe paper presents a model-based evaluation of technological upgrades on the energy and cost balance in a large biological nutrient removal wastewater treatment plant (WWTP) in the city of Slupsk (northern Poland). The proposed upgrades include chemically enhanced primary sludge removal and reduction of the nitrogen load in the deammonification process employed for reject water treatment. Simulations enabled to estimate the increased...
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Strategies for achieving energy neutrality in biological nutrient removal systems - a case study of the Slupsk WWTP (northern Poland)
PublicationThe paper presents a model-based evaluation of technological upgrades on the energy and cost balance in a large biological nutrient removal wastewater treatment plant (WWTP) in the city of Slupsk (northern Poland). The proposed upgrades include chemically enhanced primary sludge removal and reduction of the nitrogen load in the deammonification process employed for reject water treatment. Simulations enabled to estimate the increased...