Uncertainties in the assessment of LV network capacity to accommodate PV and other low-carbon technologies can lead to installation constraints or costly network reinforcements that may not be entirely necessary. This paper reviews the numerous assumptions often used in such assessments and highlights those relating to time resolution of demand models, harmonics, network grounding and impedance modelling as being particularly questionable. In many cases, the individual assumptions may be low risk, but there is greater uncertainty when assumptions are applied in combination
Distributed generation is increasingly being integrated into distribution networks worldwide, presen...
The UK has reached, thanks to the Feed-In-Tariff scheme, an installed photovoltaic (PV) capacity of ...
Currently, the majority of the available test feeder models are based on the North American type of ...
The connection of high penetrations of new low carbon technologies such as PV and electric vehicles ...
The analysis of low voltage (LV) networks has received increasing attention in recent times as the e...
Low voltage network design and planning in the UK operates in accordance with the Electricity Regula...
© 2014 Derek Chanaka JayasuriyaAs new technologies such as Photovoltaics (PVs), Embedded Generators ...
The rapid increase of distributed energy resources (DERs) installation at residential and commercial...
International audienceIn this paper, we propose an approach to deal with the impact of uncertainties...
Over recent decades, there has been a growing concern about how modern technologies would impact on...
Increasing energy prices and the greenhouse effect demand a more efficient supply of energy. More re...
Connection of low carbon technology to the LV distribution network stresses the network voltage limi...
Forecasting future electricity demand on low voltage (LV) distribution networks is particularly cha...
The anticipated impact of low-carbon technology and the advent of the Smart Grid has provoked increa...
This chapter presents some advanced tools for low voltage (LV) network demand simulation. Such metho...
Distributed generation is increasingly being integrated into distribution networks worldwide, presen...
The UK has reached, thanks to the Feed-In-Tariff scheme, an installed photovoltaic (PV) capacity of ...
Currently, the majority of the available test feeder models are based on the North American type of ...
The connection of high penetrations of new low carbon technologies such as PV and electric vehicles ...
The analysis of low voltage (LV) networks has received increasing attention in recent times as the e...
Low voltage network design and planning in the UK operates in accordance with the Electricity Regula...
© 2014 Derek Chanaka JayasuriyaAs new technologies such as Photovoltaics (PVs), Embedded Generators ...
The rapid increase of distributed energy resources (DERs) installation at residential and commercial...
International audienceIn this paper, we propose an approach to deal with the impact of uncertainties...
Over recent decades, there has been a growing concern about how modern technologies would impact on...
Increasing energy prices and the greenhouse effect demand a more efficient supply of energy. More re...
Connection of low carbon technology to the LV distribution network stresses the network voltage limi...
Forecasting future electricity demand on low voltage (LV) distribution networks is particularly cha...
The anticipated impact of low-carbon technology and the advent of the Smart Grid has provoked increa...
This chapter presents some advanced tools for low voltage (LV) network demand simulation. Such metho...
Distributed generation is increasingly being integrated into distribution networks worldwide, presen...
The UK has reached, thanks to the Feed-In-Tariff scheme, an installed photovoltaic (PV) capacity of ...
Currently, the majority of the available test feeder models are based on the North American type of ...