Smart Distribution Grids: Beyond AMI
- Posted on September 15, 2010
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Past few years have been awakening for the industry in terms of realization of aging infrastructure and need for innovation with advancement in technology both on Information Technology as well as Digital Electronics for equipments and Measurement & Sensing. Smart Grid in a sense is revolutionizing the industry and unlike any other revolution here the challenge is that we do not know where we will land when the Smart Grids are reality. Initial years of the smart grid investments, have been focused (and still focused) on the Smart Meter deployments and AMI communication. The need is to realize the real benefits of the AMI deployments. Is the investment worth for the purpose of providing transparency in to the electricity bills to the customers (at least that's what most of the AMI implementations and Smart Grid solutions by IT majors claim)? The focus now needs to shift beyond AMI from the actual Transmission & Distribution Grid's perspective. The real benefit or return on investments on AMI infrastructure will be realized when the Distribution Grids become smarter. The key goals (there are many more) of Smart Grids are as follows:
- Customer Enablement (Energy Bill transparency, direct customer participation etc.)
- Reliable Grids (Self-healing etc.)
- Efficient & Economic Grid Operations
Unless the distribution control center becomes smart enough to show the benefit of the smart grids, the benefits from investment as well as customer perspective cannot be realized or proved.
For utilities, making the best use of the smart grid involves significant planning, preparation and focus. Utilities have started to invest in the new technologies and ideas, but proper planning is required so that they can be prepared to leverage new enabling technologies, standards-based interoperability, cutting edge communication technologies and intelligent field equipments to deliver increased reliability, operational efficiency & customer satisfaction.
The enablers are going to be the smarter distribution grids. This will be possible by implementing real-time monitoring and remote control of subsystems like, substations, intelligent devices, distribution lines, capacitor banks, feeder switches, fault analyzers and other physical facilities. Smart Distribution Operations will be realized with smarter distribution automation systems which enable two-way communication with these subsystems and provide framework for self-healing grids by facilitating ways to identify and isolate faults, and automate the intelligence to restore service.
It's not that Distribution Operation Centers are not presently using distribution automation to achieve the same goals of reliability and operational efficiency and some examples of such applications are as follows:
- Substation SCADA
- Outage Management System
- Trouble Call Center System
- Field Operations Management
- A unified customer to network connectivity model to maximize the grid asset utilization by optimized system loading, situational awareness and system planning
- Predictive analytics to prevent the faults
- In case of interruptions, immediate location, analysis & isolation of faults/interruptions and service restoration with minimal operator intervention to implement self-healing grid and improve the distribution system reliability
- Condition Based Asset Maintenance to minimize the capital investments and improve the overall system reliability & operational efficiency
- Reduce the distribution system losses and demand reduction (energy conservation) by means of Voltage Optimization, Demand Side Management and Demand Response
- Distribution Energy Resource Integration to reduce reliance on the transmission grids and captive power plants to meet the local demand. This will encourage participation from customers if right incentive programs for generation at customer site are incorporated.
- Active customer participation through AMI in price-sensitive demand response and energy conservation
- Single-window view for all distribution grid with localized automation & control
- Integration of Distributed Energy Resources (DER)
- Collaborative instead of Top-Down hierarchical system operations
- Tight integration with IT & other OT applications
- More granular data availability for operations performance monitoring & management
- New devices and equipment integration
- Two way communication with equipment at customer premise
- Sophisticated applications for network monitoring & optimization
- Real-time Predictive Analytics
Another related challenge is that not a single vendor can cater to all the needs of Smart Distribution Grids as it involves not only T&D system applications but also new age IT solutions, field equipments and communications infrastructures. Hence Integration & Data Management will become a big challenge between these applications and equipments.
Benefits of Smart Distribution Grids are generally categorized as follows:
- Customer Benefits
- Utility Benefits
- Socio-economic Benefits
Clearly, there is a need of smart distribution operations which justify the investment in AMI i.e. Smart Meters, 2 Way Fixed Network Communication Systems. These investments are perceived as a major move toward increased grid stability and reduction in outages or blackouts which is the prime goal of the Smart Grid.
Following business drivers need to be considered for the investments in the Smart Distribution grids beyond AMI or to use AMI:
- DER Integration to reduce the dependency on the transmission grids and large power plants to meet the local demand.
- Leverage the AMI infrastructure for revenue protection (tamper/ theft detection), outage detection which will yield results in terms of operational cost savings and increased revenue
- Better customer satisfaction by means of improved power quality & energy conservation as these measures will reduce the momentary interruptions
- Increased distribution reliability and improved economics by reducing outages/faults/interruption durations using situational awareness methods like GIS, Customer Linked Network Connectivity Model, hence improving SAIDI, SAIFI, CAIMI, CAIDI etc. This will result in better optimization of dollar spent on the distribution reliability program implementation.
- Increased customer satisfaction by utilizing AMI infrastructure to project electricity bill in near real-time and hence, ability to respond to real-time energy prices etc. This will also benefit utilities thru better cash flows & credit risk reduction.