Enhancing Energy Efficiency and Resource Recovery through Multi-Objective Optimisation of Wastewater Treatment Plant Operations (E3R2MO2WWTPO)
Increasing energy efficiency and decreasing environmental impacts for wastewater treatment plants
Project Insights
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€608,178
Total Project Costs -
3 yr
Project Duration -
2024
Year Funded
Project Description
Treating wastewater consumes a lot of energy and contributes to air pollution, and as the volume of wastewater needing treatment increases due to population growth, industrialization, and urbanization, this problem becomes more severe. Our research explores a new approach to making wastewater treatment plants (WWTPs) more efficient and environmentally friendly. WWEN uses several innovative technologies to turn waste into energy. For example, it converts sewage sludge, a byproduct of the treatment process, into biogas, a clean-burning fuel. Additionally, WWTPs can capture heat from treated wastewater, similar to using leftover warmth from a shower to heat a home. Some WWTPs can even produce hydrogen, another clean energy source, during treatment. WWEN also involves advanced computer systems to monitor and control how WWTPs operate, reducing wasted energy and ensuring smooth operations. By treating wastewater as a valuable resource, WWEN helps WWTPs generate their own clean energy, reduce air pollution, and save money on operating costs. Similar to recycling it efficiently uses resources and benefits the environment. By adopting WWEN, WWTPs can become more energy-independent and environmentally friendly. Through these measures, WWEN addresses the energy and pollution issues associated with wastewater treatment, paving the way for more resilient and sustainable water resource management.
Project Details
Total Project Cost: €608,178
Funding Agency: SEAI
Year Funded: 2024
Lead Organisation: Trinity College Dublin (TCD)