Settimo Hydroelectric Plant (Italy)

Hydraulics Hydraulic and hydrodynamic studies

Settimo Hydroelectric Plant (Italy)

The project is for a hydro-electric plant along the Adige river in the section between Pescantina and Verona.

The plant has been designed to have a very low environmental impact, as it immediately returns waters downstream and it exploits just a part of them whereas the outstanding part keeps on flowing freely. 

In addition to the works concerning the hydro-electric plant, the project includes the requalification and strengthening of the bridge called “Settimo di Pescantina bridge” on the Adige river. It allows the road link between Pescantina and Bussolengo.

The main project features are:

  • a lock with 5 flap gates on the bottom for the purpose of supporting the river level and creating the hydroelectric leap;
  • a new bridge supported by 5 new piles in riverbed with deck made up of prefabricated beams each with a 18.50 m span;
  • a fish ladder on the left bank;
  • a canoes slide on the left bank;
  • a completely underground hydro-electric plant on the right bank, in the Bussolengo Municipality, with intake upstream of the bridge and outlet immediately downstream;
  • road link on the Bussolengo side and access road to the plant area;
  • small works of road adaptation and link on the Pescantina side.

The hydro-electric plant will be located in the area where a plant for the treatment of stones and marbles along the river on the right bank used to be operative. The river hydraulic flows intake will be just upstream of the river and the flows outlet will be just downstream. 


The area occupied by the plant will be about 45 m wide and about 100 m long in parallel with the river. All the hydraulic works related to the plant will be underground. The surface over the plant and the intake and outlet channels will be occupied upstream by a large garden and parking area, downstream of the new road link to the bridge, near the 18th century Corno Church.

The area surrounding said church will be rearranged and improved and even expanded in respect to the existing one.

The plant emerging works are just some access works containing the screen remover to clean the intake grids and the equipment delivering the energy produced. 

The hydro-electric plant will produce about 3 MW power for an annual total of about 21.3 GWh; the energy produced will be then entering into the grid by a connection with a medium voltage line already existing.

The lock is made up of five spans, each is 17 m wide and they are regulated by as many flap gates, with a water retention level of 72.56 m above sea level, i.e. 5 cm less than the higher free surface (72.61 m above sea level.).


Taking into account the dimensions of the lock piles, each of which is 1.5 m, the lock total width is 92.5 m; in addition to such width the canoes slide 2.5 m width and the fish ladder total 7.1 m width are to be added. The total width of the works in the riverbed is therefore more than 100 m. The flap gates movement is controlled and regulated by a hydraulic mechanism which triggers the two cylinders at the end of each gate. The cylinders are placed at the back of the gates and they are embedded in the riverbed piles in order to avoid damaging the devices during extraordinary floods. The maximum grade of operating gates is 60° horizontally. The hydraulic plant pipes are placed in a water-tight inspection shaft which can be checked. It is closed by ballasted sheets or concrete slabs and it is placed downstream of the gates. Guide rails have been set upstream and downstream of the gates to close the span by means of mobile boards if it is not possible to carry out otherwise the extraordinary maintenance operations on the mechanical devices. The project envisages along its length an accessible inspection shaft where the hydraulic and electric systems pipes are located.

show more info show less info


Iniziative Veronesi Srl


Settimo di Pescantina (Verona), Italy


Detailed Design, Work Supervision

Cost of works

Euro 20,807,000

show more images show less images

Hydraulic and hydrodynamic studies

Arcé Hydroelectric Plant (Italy)

River regulation and water resource management

Barrier Against Salt-Water Intrusion at the Estuary of Adige River

River regulation and water resource management

Design of the Rehabilitation of Cumbidanovu Dam (Orgosolo)

Hydraulic and hydrodynamic studies

Hydroelectric Plant Janiski Otoke (Republika Srpska)

River regulation and water resource management

Rehabilitation of Gibbesi Dam

River regulation and water resource management

Rehabilitation of Sciaguana Dam

River regulation and water resource management

Rehabilitation of Serra del Corvo Dam

Hydraulic and hydrodynamic studies

Settimo Hydroelectric Plant (Italy)

Hydraulic and hydrodynamic studies

Valbona hydroelectric power plant reactivation (Italy)