Add to ORKGStart-stop practice was analysed in 256 Norwegian hydropower plants in conjunction to a set of characteristics. The plants were on grid 2005-20014, and production data from 2015. Number of starts were counted for each plant finding a higher number in Kaplan turbines than in Francis and Pelton. Number of starts was not dependent on having a license to practice start-stop, and were related to the annual mean river discharge being negative for Francis, dome-shaped for Pelton, and no association for Kaplan
The beginning of the “green shift” has already started in the Nordic power grid. In this context, it...
Quantifying short-term changes in river flow is important in understanding the environmental impacts...
On demand energy market and favourable government policies to encourage the usage of renewable energ...
Start-stop practice was analysed in 256 Norwegian hydropower plants in conjunction to a set of chara...
Det finnes mange små vannkraftverk i Norge, og driften av disse kan være ujevn og innebære start-sto...
Increased flexibility is vital in hydropower systems to meet future market demands, and work is unde...
Around 98% of the energy in Norway comes from renewable sources and from this, 96% corresponds to hy...
In the transition to a society based on renewable energy, flexibility is important in balancing the ...
The Norwegian electrical energy supply system is based on hydropower. The now deregulated energy mar...
International audienceThe development and integration in the electrical grid of new types of energy ...
During last years extensive development of small hydropower plants has taken place, and many of that...
Hydropeaking has adverse effects on river ecosystems which are likely to increase as hydropeaking in...
The main objective of this study is to investigate the effect of hydropower plant operation on the l...
The small hydropower industry in Norway is in a critical phase. The el-certificates system has prove...
Water turbines are since some years widely used for grid stabilization purposes according to their e...
The beginning of the “green shift” has already started in the Nordic power grid. In this context, it...
Quantifying short-term changes in river flow is important in understanding the environmental impacts...
On demand energy market and favourable government policies to encourage the usage of renewable energ...
Start-stop practice was analysed in 256 Norwegian hydropower plants in conjunction to a set of chara...
Det finnes mange små vannkraftverk i Norge, og driften av disse kan være ujevn og innebære start-sto...
Increased flexibility is vital in hydropower systems to meet future market demands, and work is unde...
Around 98% of the energy in Norway comes from renewable sources and from this, 96% corresponds to hy...
In the transition to a society based on renewable energy, flexibility is important in balancing the ...
The Norwegian electrical energy supply system is based on hydropower. The now deregulated energy mar...
International audienceThe development and integration in the electrical grid of new types of energy ...
During last years extensive development of small hydropower plants has taken place, and many of that...
Hydropeaking has adverse effects on river ecosystems which are likely to increase as hydropeaking in...
The main objective of this study is to investigate the effect of hydropower plant operation on the l...
The small hydropower industry in Norway is in a critical phase. The el-certificates system has prove...
Water turbines are since some years widely used for grid stabilization purposes according to their e...
The beginning of the “green shift” has already started in the Nordic power grid. In this context, it...
Quantifying short-term changes in river flow is important in understanding the environmental impacts...
On demand energy market and favourable government policies to encourage the usage of renewable energ...