Pump operating as turbine (PAT) is an effective source of reducing the equipment cost in small hydropower plants. However, the manufacturers provide poor information on the PAT performance thus representing a limit for its wider diffusion. Additional implementation difficulties arise under variable operating conditions, characteristic of water distribution networks (WDNs). WDNs allow to obtain widespread and globally significant amount of produced energy by exploiting the head drop due to the network pressure control strategy for leak reductions. Thus a design procedure is proposed that couples a parallel hydraulic circuit with an overall plant efficiency criteria for the market pump selection within aWDN. The proposed design method allows...
The development of renewable energy technologies for producing clean energy has more and more become...
Water distribution networks are high energy and low efficiency systems, where water pressure is freq...
peer reviewedWater distribution networks often exhibit excess pressure that could lead to extensive ...
Pump operating as turbine (PAT) is an effective source of reducing the equipment cost in small hydro...
Pump operating as turbine (PAT) is an effective source of reducing the equipment cost in small hydr...
Water distribution networks face several problems related to leakages, where the pressure control st...
The use of Pumps-as-Turbines (PaTs) to replace hydraulic turbines as energy-recovery units in indust...
The current significant increase in energy consumption has resulted in the need to develop and imple...
Pumps As Turbines (PATs) can be installed in Water Distribution Networks (WDNs) to couple pressure r...
Water systems are usually considered low efficiency systems, due to the large amount of energy that ...
Pump-As-Turbine (PAT) technology is a smart solution to produce energy in a sustainable way at small...
This paper deals with the estimation of the energy potential of pumps used as turbines to exploit re...
Pressure control is an important feature for reducing leakages in water supply systems, and the use ...
In the management of water distribution networks, large energy savings can be yielded by exploiting ...
In this work, a procedure for the optimal design of Pumps As Turbines in Water Distribution Networks...
The development of renewable energy technologies for producing clean energy has more and more become...
Water distribution networks are high energy and low efficiency systems, where water pressure is freq...
peer reviewedWater distribution networks often exhibit excess pressure that could lead to extensive ...
Pump operating as turbine (PAT) is an effective source of reducing the equipment cost in small hydro...
Pump operating as turbine (PAT) is an effective source of reducing the equipment cost in small hydr...
Water distribution networks face several problems related to leakages, where the pressure control st...
The use of Pumps-as-Turbines (PaTs) to replace hydraulic turbines as energy-recovery units in indust...
The current significant increase in energy consumption has resulted in the need to develop and imple...
Pumps As Turbines (PATs) can be installed in Water Distribution Networks (WDNs) to couple pressure r...
Water systems are usually considered low efficiency systems, due to the large amount of energy that ...
Pump-As-Turbine (PAT) technology is a smart solution to produce energy in a sustainable way at small...
This paper deals with the estimation of the energy potential of pumps used as turbines to exploit re...
Pressure control is an important feature for reducing leakages in water supply systems, and the use ...
In the management of water distribution networks, large energy savings can be yielded by exploiting ...
In this work, a procedure for the optimal design of Pumps As Turbines in Water Distribution Networks...
The development of renewable energy technologies for producing clean energy has more and more become...
Water distribution networks are high energy and low efficiency systems, where water pressure is freq...
peer reviewedWater distribution networks often exhibit excess pressure that could lead to extensive ...