The 'Corona Verde' Strategic Plan: an integrated vision for protecting and enhancing the natural and cultural heritage

The ‘Corona Verde' [Green Crown] Strategic Plan is a net of ecological corridors, greenways, rural areas and UNESCO Sites, including all the open spaces in the metropolitan area of Turin (Italy). Its main goal is to link together policies for nature, landscape and cultural heritage, creating a new and alternative vision of the territory, based on the quality of the environment and of life. Since 2000, when the project started, more than €23 million have been invested by the European Union and the Piedmont Region, and, now, the first results can be analysed. Corona Verde introduces innovative approaches to environmental and urban strategies and in governance processes

Constructed wetlands for the reuse of industrial wastewater: A case-study

The use of phytoremediation systems to enhance the treatment of industrial wastewater coming from a standard depuration process in order to allow their reuse can potentially lead to several interesting benefits (costs savings for depuration processes, freshwater and energy supply with a consequent reduction of the overall environmental impact of the industrial sites). In this work the case study of a large automotive plant (FCA plant in Verrone, Piedmont, NW Italy) was analysed, with the aim of evaluating the possible application of a phytoremediation system (constructed wetland, CW) to treat the effluents of its existing wastewater treatment plant (WWTP, currently discharged into a watercourse) and reuse them in the industrial processes. For this purpose, a pilot CW system was set up with two different configurations horizontal and vertical. Experiments were carried out to identify the one characterized by the best abatement rate of the pollutant concentrations of the plant effluents. Results showed that the horizontal submerged flow system (HF) was the most efficient phytoremediation system suitable for the aging of the effluents of the existing WWTP in view of their possible reuse in the industrial processes. Furthermore, costs related to its scaling-up for a real application demonstrated that the CW can be the cheaper option compared to a traditional treatment process for wastewater reuse. The amount of treated water which may be reused can range from 55% to 80% of the effluents from the existing WWTP, with a consequent reduction of more than 80% in the current water supply from aquifers