Abstract
Croatia produced 21,366 tonnes of dry matter (DM) sewage sludge (SS) in 2016, a quantity expected to surpass 100,000 tonnes DM by 2024. Annual production rates for future wastewater treatment plants (WWTP) in Croatia are estimated at 5.8–7.3 Nm3/people equivalent (PE) for biogas and 20–25 kgDM/PE of sewage sludge. Biogas can be converted into 12–16 kWhel/PE of electricity and 19–24 kWhth/PE of heat, which is sufficient for 30–40% of electrical and 80–100% of thermal autonomy. The WWTP autonomy can be increased using energy recovery from sewage sludge incineration by 60% for electricity and 100% of thermal energy (10–13 kWhel/PE and 30–38 kWhth/PE). However, energy for sewage sludge drying exceeds energy recovery, unless solar drying is performed. The annual solar drying potential is estimated between 450–750 kgDM/m2 of solar drying surface. The lower heating value of dried sewage sludge is 2–3 kWh/kgDM and this energy can be used for assisting sludge drying or for energy generation and supply to WWTPs. Sewage sludge can be considered a renewable energy source and its incineration generates substantially lower greenhouse gases emissions than energy generation from fossil fuels. For the same amount of energy, sewage sludge emits 58% fewer emissions than natural gas and 80% less than hard coal and fuel oil. Moreover, this paper analysed the feasibility of sludge disposal practices by analysing three scenarios (landfilling, co-incineration, and mono-incineration). The analysis revealed that the most cost-effective sewage sludge disposal method is landfilling for 60% and co-incineration for 40% of the observed WWTPs in Croatia. The lowest CO2 emissions are obtained with landfilling and mono-incineration in 53% and 38% of the cases, respectively.
Highlights
Sewage sludge is a by-product of wastewater treatment plants (WWTP), considered valuable for its content of nutrients and energy and a potential threat to humans and the environment because of the presence of organic pollutants and heavy metals
The analysis revealed that the most cost-effective sewage sludge disposal method is landfilling for 60% and co-incineration for 40% of the observed WWTPs in Croatia
The optimal solution for sewage sludge management depends on the expected quantities and sludge properties, the capital investment, the operational challenges and costs, the ecological and technological constraints, the legal and location restrictions, as well as on the chosen type of application or disposal of by-products
Summary
Sewage sludge is a by-product of wastewater treatment plants (WWTP), considered valuable for its content of nutrients and energy and a potential threat to humans and the environment because of the presence of organic pollutants and heavy metals. Sustainable solutions and the best available techniques for the treatment and disposal of sewage sludge, including recovery of energy and nutrients, are currently being discussed in the European Union (EU) [1]. The situation is urgent in large and densely populated cities, which are producing large quantities of sewage sludge and have limited available surface area for its processing and disposal. The quantity of sewage sludge generated in WWTPs is increasing with the progressive expansion of wastewater networks, and due to population growth and industrial development.
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