Advanced Distribution Automation (ADA) is a term coined by the IntelliGrid project in

North America North America is a continent in the Northern Hemisphere and almost entirely within the Western Hemisphere. It is bordered to the north by the Arctic Ocean, to the east by the Atlantic Ocean, to the southeast by South America and the Car ...

to describe the extension of intelligent control over electrical power grid functions to the distribution level and beyond. It is related to distribution automation that can be enabled via the

smart grid A smart grid is an electrical grid which includes a variety of operation and energy measures including: *Advanced metering infrastructure (of which smart meters are a generic name for any utility side device even if it is more capable e.g. a f ...

. The electrical power grid is typically separated logically into transmission systems and distribution systems.

Electric power transmission Electric power transmission is the bulk movement of electrical energy from a generating site, such as a power plant, to an electrical substation. The interconnected lines that facilitate this movement form a ''transmission network''. This is ...

systems typically operate above 110kV, whereas Electricity distribution systems operate at lower voltages. Normally, electric utilities with

SCADA Supervisory control and data acquisition (SCADA) is a control system architecture comprising computers, networked data communications and graphical user interfaces for high-level supervision of machines and processes. It also covers sensors and ...

systems have extensive control over transmission-level equipment, and increasing control over distribution-level equipment via distribution automation. However, they often are unable to control smaller entities such as Distributed energy resources (DERs), buildings, and homes. It may be advantageous to extend control networks to these systems for a number of reasons: * Distributed generation is increasingly important in power grids around the world. This generation can help to support local power grids in the presence of blackouts, and ease the load on long-distance transmission lines, but it can also destabilize the grid if not managed correctly". Usually, utility control centers are unable to manage distributed generators directly, and this may be a valuable capability in the future. * Industrial and residential loads are increasingly controlled through

demand response Demand response is a change in the power consumption of an electric utility customer to better match the demand for power with the supply. Until the 21st century decrease in the cost of pumped storage and batteries electric energy could not be ...

. For example, during periods of peak electrical demand in the summer, the utility control centers may be able to raise the thermostats of houses enrolled in a load reduction program, to temporarily decrease electrical demand from a large number of customers without significantly affecting their comfort. Customers are usually compensated for their participation in such programs. * To enable demand side management, where homes, businesses, and even electric vehicles may be able to receive real-time pricing (RTP) signals from their distribution companies and dynamically adjust their own energy consumption profiles to minimize costs. This would also preserve customer autonomy and mitigate privacy issues. * To further the penetration and quality of self-healing, which reduces or eliminates outage time through the use of sensor and control systems embedded in the distribution system. The goal of Advanced Distribution Automation is real-time adjustment to changing loads, generation, and failure conditions of the distribution system, usually without operator intervention. This necessitates control of field devices, which implies enough information technology (IT) development to enable automated decision making in the field and relaying of critical information to the utility control center. The IT infrastructure includes real-time data acquisition and communication with utility databases and other automated systems. Accurate modeling of distribution operations supports optimal decision making at the control center and in the field. Automated control of devices in distribution systems is closed-loop control of switching devices, voltage controllers, and capacitors based on recommendations of the distribution optimization algorithms. Distribution System Reliability: Distribution Automation currently increased system reliability, and new technology such as solid state transformers Increasing Utilization of Existing Infrastructure: As a component of ADA infrastructure, the new system concepts will enable more efficient operation of the power system, allowing closer control of voltage profiles (e.g. conservation voltage reduction, closely related to

voltage optimisation Voltage optimisation is a term given to the systematic controlled reduction in the voltages received by an energy consumer to reduce energy use, power demand and reactive power demand. While some voltage 'optimisation' devices have a fixed voltage ...

) and maximization of energy throughput. Distribution System of the Future: The new system concepts will enable ADA functions in the distribution system that contribute to outage prevention and recovery, optimal system performance under changing conditions, and reduced operating costs. Distribution automation technologies are commercially available for wide scale utility deployment. The key is identifying and unlocking the values which provide the best return on investment in ways that can be measured by utilities. Applications which may have greatest potential are operations and efficiency, management of peak loads via emand response predictive technologies and communications for equipment, and system restoration technologies. New transformer technologies are being considered by EPRI,EPRI 2008 Program 124 Advanced Distribution Automation
including solid state transformers that can reduce power losses due to step-up and step-down voltages conversion. For a full listing of the capabilities being proposed by the IntelliGrid project, please see the first external link below.

References

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External links

Advanced Distribution Automation: Ensuring the Smart Grid is a reliable Grid
Electric power distribution