Browsing by Author "Ntougias, S."
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- Enhancing water reuse at a local scale: a constructed wetland case studyPublication . Magalhães, J.; Dolbeth, M.; Arenas, F.; Pereira, S.; Tsiamis, G.; Ntougias, S.; Calheiros, C.Constructed Wetlands (CW), as biological treatment systems, mimic the phytoremediation processes found in natural wetlands in an optimized configuration for the improvement of the water quality. They are considered nature-based solutions (NBS) that may support decentralized wastewater treatment providing several ecosystem services, including enhancing water availability and reducing water-related risks. The present study focuses on the performance and operation assessment of an implemented CW in a rural area that is applied to a tourism unit. Under the Project CIRQUA-Integrated Approaches at Local Scale for Enhancing Water Reuse Efficiency and Sustainable Soil Fertilization from Wastewater’s Recovered Nutrients, it is envisaged the upgrade of this CW using technological achievements, such as nanostructured filters and photocatalytic modules, precision irrigation principles, sensors and automation in operation and the integration of advanced artificial intelligence (AI) tools. Wastewater quality assessment and biodiversity characterization are being carried out in order to evaluate the upgrading of the system.
- Enhancing water reuse at a local scale: a constructed wetland case studyPublication . Magalhães, J.; Dolbeth, M.; Arenas, F.; Pereira, S. I. A.; Tsiamis, G.; Ntougias, S.; Calheiros, C.What are Constructed Wetlands? Constructed wetlands (CW) are engineered systems that are inspired by and mimicking processes (physical, biological, and chemical) and functions that occur in natural wetlands. Comprised of several components, impermeabilization liners and substrate, and as the key elements the plants and their associated microorganisms. They were thought primarily for wastewater treatment but nowadays are considered nature-based solution (NBS) of excellence in terms of flexibility of their application and services provided (Calheiros et al, 2020). Framework: CIRQUA is a project aiming to improve NBS, focusing on CW for wastewater treatment and water recovery in rural areas (Figure 1). CIRQUA will enhance CW efficiency by leveraging technological advancements, including innovative nanostructured filters, photocatalytic modules, advanced sensors and automated operational systems. The upgrade will also incorporate precision irrigation principles and integrate advanced artificial intelligence tools for optimizing performance (Figure 2). These innovations will aid in improving effluent quality, allowing the treated water and CW biomass to be used for irrigation and fertilization purposes, respectively, thus promoting circular economy at local scale. CIRQUA will also support, by using a zero-waste process, the circular bioeconomy by which biomass is expected to play a relevant role in meeting the global climate targets. Case study: A case study is being conducted in Portugal through by upgrading of an existent horizontal subsurface flow CW of ca 40 m². This CW was implemented in 2010 at Paço de Calheiros, a tourism house surrounded by a farm, located in Calheiros, North of Portugal in a rural area dominated by agriculture and forests (Calheiros et al, 2015) (Figure 3). The CW was designed to act as secondary biological treatment, being placed after a previously installed septic tank. It functions in a continuous mode with no energy requirements. It is a system planted with a polyculture of a) Agapanthus africanus b) Canna flaccida c) Zantedeschia aethiopica d) Canna indica and e) Watsonia borbonica. The substrate material used in the CW was expanded clay Leca®M with a particle size ranging from 4 to 12.5 mm SaintGobain Weber Portugal, SA.