The project

C-FOOT-CTRL aims to develop, test and validate a new software tool for the onlinemonitoring, control and mitigation of the carbon footprint of wastewater treatment plants (WWTPs). Gaseous emissions are emitted from various stages oftreatment in a WWTP. Currently, in developed countries the energy required for wastewater treatment accounts for approximately 3% of the total electrical load. Also, WWTPs are the biggest single energy consumers of municipalities with a share of 20% of the total energy consumption. The typical energy efficiency of WWTPs in Europe is less than 50%, when energy efficiency is defined as the ratio of electricity generated at WWTP to the electricity needed from grid to operate the WWTP. Strategies to decrease the required amount of energy may in fact cause greater harm due to the increase of GHG emissions. Various greenhouse gas emissions are associated with the construction and operation of WWTPs. These include carbon dioxide (CO2), methane (CH4) and nitrous oxide (N2O), with nitrous oxide being 298 times more harmful than CO2.

The development of a tool that will be able to accurately record on line the various gaseous emissions of WWTPs is important in order to (i) track the emissions at the moment of occurrence (ii) immediately apply measures to reduce gaseous contaminants and to (iii) link the gaseous emission with a particular activity in the plant. The on line GHG emissions monitoring and control system will be an innovative, low cost and flexible system based on sensor networks for monitoring and ‘supervising’ activities aiming to reduce GHG emissions during the operation of WWTP.

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Sanitary Engineering Laboratory
Department of Water Resources and Environmental Engineering
School of Civil Engineering, National Technical University of Athens
www.eyt.gr

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5 Iroon Polytechniou St., Zographou Campus, 15780, Athens, Greece
Tel: +30 210 772 2902
+30 210 772 2797
Fax: +30 210 772 2899

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