With low voltage (LV) distribution networks increasingly being re-purposed beyond their original design specifications to accommodate low carbon technologies, the ability to accurately calculate their actual spare capacity is critical. Traditionally, within the Great Britain (GB) power system, there has been limited monitoring of LV distribution networks, making this difficult. This paper proposes a method for estimating spare capacity of unmonitored LV networks using demand data from customer Smart Meters. In particular, the proposed method infers existing LV network capacity, as well as losses, across scenarios where only a limited number of customers have Smart Meters installed. Typical daily load profiles across customers with Smart Met...
The rapid growth of distributed energy resources (DER) poses operational challenges for the low-volt...
Distributed generation and low carbon loads are already leading to some restrictions in the operatio...
Low voltage network design and planning in the UK operates in accordance with the Electricity Regula...
With low voltage (LV) distribution networks increasingly being re-purposed beyond their original des...
This chapter presents some advanced tools for low voltage (LV) network demand simulation. Such metho...
Distribution network operators (DNOs) are increasingly concerned about the impact of low carbon tech...
The analysis of low voltage (LV) networks has received increasing attention in recent times as the e...
© 2020 Yiqing WangThe rapid adoption of distributed energy resources (DER) in low voltage (LV) netwo...
On British electricity distribution networks, the phase to which single phase loads and generators a...
Investigation of both capacity and quality of low-voltage networks is becoming more important. Previ...
The energy landscape for the Low-Voltage (LV) networks is undergoing rapid changes. These changes ar...
© 2014 Derek Chanaka JayasuriyaAs new technologies such as Photovoltaics (PVs), Embedded Generators ...
Recent technological developments have facilitated the emergence of smart grids. In the smart grid p...
AbstractDistributed generation and low carbon loads are already leading to some restrictions in the ...
The rapid growth of distributed energy resources (DER) poses operational challenges for the low-volt...
Distributed generation and low carbon loads are already leading to some restrictions in the operatio...
Low voltage network design and planning in the UK operates in accordance with the Electricity Regula...
With low voltage (LV) distribution networks increasingly being re-purposed beyond their original des...
This chapter presents some advanced tools for low voltage (LV) network demand simulation. Such metho...
Distribution network operators (DNOs) are increasingly concerned about the impact of low carbon tech...
The analysis of low voltage (LV) networks has received increasing attention in recent times as the e...
© 2020 Yiqing WangThe rapid adoption of distributed energy resources (DER) in low voltage (LV) netwo...
On British electricity distribution networks, the phase to which single phase loads and generators a...
Investigation of both capacity and quality of low-voltage networks is becoming more important. Previ...
The energy landscape for the Low-Voltage (LV) networks is undergoing rapid changes. These changes ar...
© 2014 Derek Chanaka JayasuriyaAs new technologies such as Photovoltaics (PVs), Embedded Generators ...
Recent technological developments have facilitated the emergence of smart grids. In the smart grid p...
AbstractDistributed generation and low carbon loads are already leading to some restrictions in the ...
The rapid growth of distributed energy resources (DER) poses operational challenges for the low-volt...
Distributed generation and low carbon loads are already leading to some restrictions in the operatio...
Low voltage network design and planning in the UK operates in accordance with the Electricity Regula...