VECTO Grid OS Updates March 2023
The newest software upgrades for the VECTO Grid OS – our comprehensive platform for advanced grid monitoring and control – are now available. Our most
The newest software upgrades for the VECTO Grid OS – our comprehensive platform for advanced grid monitoring and control – are now available. Our most
Dynamic State Estimation in Inverter-Dominated Power Systems serves as a valuable tool for power engineers, concentrating on solving the obstacles related to incorporating inverter-based renewable
The Synchro-Waveform paper by Hamed Mohsenian-Rad and Wilsun Xu, both IEEE Fellows shows how synchro-waveform monitoring is a useful tool for power engineers. It discusses the
The VECTO Grid OS monitoring platform has taken a major step forward in supporting the latest and planned requirements for Frequency Control Ancillary Services (FCAS)
How long have we got to get our act together for renewable electricity? By Phil Kreveld One could be reassured by the leisurely acceptance with
We are facing unknown unknowns By Phil Kreveld Going from old technology to new wind and solar electricity generation faces us with an interesting confrontation:
Grid Stability Viewer This new viewer allows the user to do analysis on grid stability. Synchropahsor data can be easily analysed in conjunction with frequency
Small Signal Analysis A new module was added that will allow the recording and analysis of small signals. A small signal is an AC signal
Two of Australia’s biggest transmission companies have joined forces with the South Australia government to argue that the prospect of more wind and solar projects, a significant cut to gas fired generation and lower prices will justify the increased costs of the proposed new transmission link to NSW.
By Phil Kreveld The brave new world of 50% power plus penetration of renewables in traditional AC grids requires reimagining legacy engineering and above all,
Statistical Box Plots A new statistical box plot capability has been added to the trend viewer.The width of the boxes can be set under the
Australia is leading the way in the quest for a renewable electricity grid. Being at the forefront comes with its challenges — the most pressing of which is maintaining network stability.
Rooftop solar is already South Australia’s largest electricity generator with about 1300 megawatts of capacity involving one in every three homes. A full picture of the grid, as it stands, is the precursor to a successful transition to a resilient, distributed grid architecture. Policy makers need to give engineers the data they need if they are to expect a successful transition.
Cape Town: South Africa’s energy utility Eskom awarded its National Power Grid Intelligence Tender to Actom Smart Technology (Pty) LTD, who will be deploying Stellenbosch
the United States has not launched such a mission to counter the gravest threat of our time: climate change. Although a few clean-energy technologies, such as wind and solar power, have reached cost competitiveness with fossil fuels, many more urgently need advances if the world is to achieve net-zero carbon emissions—a herculean feat known as “deep decarbonization.”
Rooftop solar is already South Australia’s largest electricity generator with about 1300 megawatts of capacity involving one in every three homes. A full picture of the grid, as it stands, is the precursor to a successful transition to a resilient, distributed grid architecture. Policy makers need to give engineers the data they need if they are to expect a successful transition.
Rooftop solar is already South Australia’s largest electricity generator with about 1300 megawatts of capacity involving one in every three homes. A full picture of the grid, as it stands, is the precursor to a successful transition to a resilient, distributed grid architecture. Policy makers need to give engineers the data they need if they are to expect a successful transition.
Rooftop solar is already South Australia’s largest electricity generator with about 1300 megawatts of capacity involving one in every three homes. A full picture of the grid, as it stands, is the precursor to a successful transition to a resilient, distributed grid architecture. Policy makers need to give engineers the data they need if they are to expect a successful transition.
Rooftop solar is already South Australia’s largest electricity generator with about 1300 megawatts of capacity involving one in every three homes. A full picture of the grid, as it stands, is the precursor to a successful transition to a resilient, distributed grid architecture. Policy makers need to give engineers the data they need if they are to expect a successful transition.
Rooftop solar is already South Australia’s largest electricity generator with about 1300 megawatts of capacity involving one in every three homes. A full picture of the grid, as it stands, is the precursor to a successful transition to a resilient, distributed grid architecture. Policy makers need to give engineers the data they need if they are to expect a successful transition.
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