What does "Electricity Networks" mean?

Table of Contents

• Types of Networks
• Distributed Energy Resources (DERs)
• Planning for Future Growth
• Netload Range Cost Curves (NRCCs)
• Electric Vehicles (EVs)
• The Role of Knowledge Graphs
• Conclusion

Electricity networks are systems that deliver electricity from power plants to homes and businesses. These networks consist of transmission lines, substations, and distribution lines that work together to ensure that everyone has access to power.

#Types of Networks

1. Transmission Networks: These carry high voltage electricity over long distances. They connect power plants to substations.

2. Distribution Networks: Once electricity reaches a substation, it is sent through distribution networks at lower voltages. This electricity is then delivered to homes and businesses.

#Distributed Energy Resources (DERs)

DERs are small-scale energy sources located close to where the energy is used. Examples include solar panels on rooftops or small wind turbines. As more people use DERs, electricity networks need to adapt.

#Planning for Future Growth

Utilities and planners are looking for ways to better coordinate electricity delivery as DERs become more common. They need methods to plan for changes and uncertainties in energy use.

#Netload Range Cost Curves (NRCCs)

NRCCs help planners make informed decisions about upgrading electricity networks. They show different options for improving the network and their costs, helping to manage energy supply more efficiently.

#Electric Vehicles (EVs)

The rise of electric vehicles is changing the electricity landscape. Managing the infrastructure needed for EVs involves understanding how they connect to electricity networks and their impact on energy demand.

#The Role of Knowledge Graphs

Knowledge graphs help organize information about electricity networks and EVs. They make it easier for decision-makers to find what they need and support effective planning and policy development.

#Conclusion

Electricity networks are essential for delivering power to our lives. As technology advances and more people use renewable energy sources and electric vehicles, these networks must evolve to meet new demands.