SMART GRId - Change the way you use

1. Presented By: 1. Sunil 2. Suryakant 3. Tanuj 4. Umesh 5. Urjit 6. Vaishakh 7. Vineet 8. Vivek K 9. Vivek N SMART GRId -Change the way you use

2. Introduction • History • Modernization of T&D • Functions • Features • Information Systems • Challenges • Present & Future

3. déjà vu

4. Existing Infrastructure

5. Grid inefficiency

6. Why we need it ?

7. Why we need it ?

8. What is smart grid ?

9. What is smart grid ?

10. GOVT. ELECT. SUPPLY 1 MW SOLAR POWER PLANT PDPU

11. HISTORY

12. Grid is a term used for an electricity network which may support all or some of the following four distinct operations. Electricity generation Electric power transmission Electricity distribution Electricity control. grid

13. History of smart grid. • Technological improvements of the power system largely rose in the 50s and 60s. • Nuclear power, computer controls helped fine tune the grid’s effectiveness and operability. • With today’s technology such as wireless protocol, network infrastructure the power grid becomes smart grid, capable of recording, analyzing and reacting to transmission data, allowing for efficient management of resources, and cost-effective appliances for consumers.

14. History of smart grid. • 1980s, Automatic meter reading was used • 1990s, Advanced Metering Infrastructure. • Smart meters used to monitor in real time. • 2000, Italy's Telegestore Project - to network (27 million) of homes using smart meters. • Project cost of 2.1 bn euro annual savings of 500 mn euro

15. MODERNIZATION OF T&D

16. Smart Grid: Transmission and Distribution • Smart Meters: possible for energy suppliers to charge variable electric rates • Peak curtailment/leveling and time of use pricing • Platform for advanced services • Provide reliability and power quality for the 21st century • Effective routine operations • Effective system planning capabilities

17. The Current T&D System

18. The Modern T&D System

19. Smart Grid Technology Areas • Advanced Metering Infrastructure (AMI) • Smart Meters • Two-way Communications • Consumer Portal • Home Area Network • Meter Data Management • Demand Response • Advanced Distribution Operations (ADO) • Distribution Management System with advanced sensors • Advanced Outage Management (“real-time”) • Distribution Automation • Advanced Transmission Operations (ATO) • Substation Automation • Geographical Information System for Transmission • Wide Area Measurement System (WAMS) • Hi-speed information processing • Advanced protection and control • Modeling, simulation and visualization tools • Advanced Asset Management (AAM) • Advanced sensors • Integration of real time information with other processes

20. AEF Study T&D Findings

21. FUNCTIONS

22. Funtions of Smart Grid Self-healing • Using real-time information from embedded sensors and automated controls to anticipate, detect, and respond to system problems, a smart grid can automatically avoid or mitigate power outages, power quality problems, and service disruptions

23. Consumer participation •   This takes shape in two forms – electricity production and electricity consumption.  One of the many benefits of the Smart Grid is its ability to integrate renewable energy sources into large scale electricity production.   • Another is the ability to communicate in real time on a broad scale to signal requests to modify electricity consumption.  Both of these benefits have profound, positive impacts for consumers.

24. Resist attack / Electricity Theft. • Smart grid technologies better identify and respond to man-made or natural disruptions. Real-time information enables grid operators to isolate affected areas and redirect power flows around damaged facilities

25. Accommodate generation options • Integration of small-scale, localized, or on-site power generation allows residential, commercial, and industrial customers to self-generate and sell excess power to the grid with minimal technical or regulatory barriers. This also improves reliability and power quality, reduces electricity costs, and offers more customer choice.

26. Optimize assets and Enable high penetration of intermittent generation sources. • Optimized power flows reduce waste and maximize use of lowest-cost generation resources. • Smart Grid technologies will enable power systems to operate with larger amounts of renewable energy resources since they enable both the suppliers and consumers to compensate for such intermittency.

27. FEATURES

28. Features

29. Load adjustment • The total load connected to the power grid can vary significantly over time • A smart grid may warn all individual to reduce the load temporarily or continuously • It predicts how many standby generators need to be used, to reach a certain failure rate • In the traditional grid, the failure rate can only be reduced at the cost of more standby generators

30. Demand response support • Allows generators and loads to interact in an automated fashion in real time, coordinating demand to flatten spikes • Allows users to cut their energy bills by telling low priority devices to use energy only when it is cheapest

31. Decentralization of power generation • Distributed generation allows individual consumers to generate power onsite • Allows individual loads to tailor their generation directly to their load, making them independent from grid power failures • If a local sub-network generates more power than it is consuming, the reverse flow can raise safety and reliability issues • Greater resilience to loading

32. Information Systems and ManagementinSMART GRIDS

33. Driving Factors for SMART GRID • Reliability and Quality and Supply • Aging infrastructure of Transmission and Distribution Networks • The Environment • Distributed resources – Renewable sources • Demand side Management • Operational Excellence • Information Management • Automation

34. Business Blocks of Smart Grid SMART GRID – Bringing together enabling technologies, changes in business processes, and a holistic view towards end-to-end requirements of the grid operations. Consumer-side capabilities and distributed generation technologies form the base.

35. Achieving Benefit of Smart Grid • A large scale implementation of Smart Grid will have an impact on many utility systems and process spanning over customer services, system operations, planning, engineering and field operations. • Key requirements: • Systems Interoperability • Information Management • Data Integration

36. Systems Involved in Distribution Smart Grid Distributed Resources Distribution Automation Advanced Metering Infrastructure

37. SMART GRID brings improvement in the System • Improved System Reliability • Fully Integrated Outage Management System • Trouble Call, CIS, GIS, MDMS, DA etc. • Penetration of Distributed & Demand Side Resources • Distributed Generation, Renewable Energy Resources, Demand Side Management • Asset Management • Equipment Condition Monitoring • Equipment Maintenance • Dynamic Adjustment of Operating Limits

38. Enterprise Level Integration – DATA ASSETS • Currently Limited Stalled Capacity for Interoperability - Islands of Information • Information – Enterprise Asset • Need of the hour – Enterprise Level Integration of Information to provide • Single, Consistent view of Information • Accurate Data • Timely Access

39. Enterprise Information Integration – Making GRIDS SMARTER

40. Conceptually…

41. Hardware Supports • Integrated Communications • Sensing and Measurement • Advanced Components

42. Sensing and Measurement • Real time • Automated Meter Reading • Advanced Metering Infra • 2-way communicator • Local mesh networked smart meter has a hub which interfaces 900MHz smart meters to the metering automation server via landline. • Adjusts supply with demand

43. Advanced Components • Present Network of Distribution • High Speed Computers • Mobile communication Towers • Control System Tools

44. Echelon • NES-Networked Energy Services

45. Components • Smart meters • Data Concentrator • System Management • NES Element Manager • Installation, Monitoring, Performance Measurement, Meter-to-data assignment, configuration etc. • System Software • Service Oriented Architecture

46. Features of NES • ON demand reading • Load profiling • Power Quality Measurement • Flexible Tariffs Eg. time of use, critical peak, real time, prepayment pricings • RF Extensions into home • T&D faults detection • Real time outage and theft detection • Reverse Metering for alternative energy • Uses Distribution Line Carrier • Reliability and Scalability • 30 million Meters Saving 500million Euros/yearly

47. Partners of Echelon • Oracle • Develco-RF • HCL • Lackman Metering-Meter Hardware • WiMet-Wireless Communication • Zirode-Implementing AMI • Onzo-Customer Intelligence

48. CHALLENGES FOR SMART GRID

49. Security Challenges • A recent project from security consultancy IOActive determined that an attacker with $500 of equipment and materials and a background in electronics and software engineering could take command and control of the [advanced meter infrastructure] allowing for the en masse manipulation of service to homes and businesses. • According to a report in the National Journal last year, hackers in China may have already used what little infotech intelligence there is on the current power grid to cause two major U.S. blackouts.

50. Blackout attacks • Data theft • Billing frauds The Road Ahead.. • Greater co-ordination in deployment and security testing • Independent penetration testers • Independent third-party security assessments