Ee392n - Spring 2011 Stanford University Intelligent Energy Systems Gorinevsky and O’Neill 1 Lecture 1 Course Preview and Organization Lecture 1 Course.

Slides:

Advertisements

Similar presentations

Westar Energy Smart Grid

Advertisements

Lets Get Ready, South Florida Power Center for Utility Exploration (PCUE)

Introduction Build and impact metric data provided by the SGIG recipients convey the type and extent of technology deployment, as well as its effect on.

0 © 2011 Silver Spring Networks. All rights reserved. Building the Smart Grid.

Washington DC October 2012 A Vision for an Advanced Supervision and Control System for the Electric Grid Ramón A. León XM S.A. E.S.P Colombia.

Dynamic Distribution Grids © 2012 San Diego Gas & Electric Company. All trademarks belong to their respective owners. All rights reserved. Neal Bartek.

Workforce & Engineering Design Optimization Plenary Session: Enterprise Resource Planning for Infrastructure and Utilities Gurgaon India Feb GIS.

Xanthus Consulting International Smart Grid Cyber Security: Support from Power System SCADA and EMS Frances Cleveland

ECE 355 Introduction to Computer Networks and Data Communications

Thomas Lewis Texas Instruments Emerging Power Solutions Renewable Energy Team Leader.

Ee392n - Spring 2011 Stanford University Intelligent Energy Systems 1 Lecture 3 Intelligent Energy Systems: Control and Monitoring Basics Dimitry Gorinevsky.

LoCal: Rethinking the Energy Infrastructure using Internet Design Principles David Culler University of California, Berkeley Renewable Energy Microgrid.

Welcome David Culler, Randy Katz, Seth Sanders University of California, Berkeley LoCal Project Pretreat June 8, 2009 “Energy permits things to exist;

By Lauren Felton. The electric grid delivers electricity from points of generation to consumers, and the electricity delivery network functions via two.

IPS Rev 1.0 Ken Lutz University of California, Berkeley

BUSINESS OPPORUNITIES IN SAUDI POWER SECTOR US-Saudi BUSINESS OPPORTUNITIES FORUM CHICAGO April 28-29, 2010 Ali Albarrak President &C E O Saudi Electricity.

© 2011 Infotech Enterprises. All Rights Reserved We deliver Global Engineering Solutions. Efficiently.August 8, 2015 Infotech Service Offerings Rajnish.

EE392N Lecture Two: The Power Grid and Grid Communications April 4, 2011 Dan O’Neill Seminar Course 392N ● Spring2011 ee392n - Spring 2011 Stanford University.

ACTION PROPOSAL FOR FLYWHEEL ENERGY TECHNOLOGY Enhance future grid reliability, interoperability, & extreme event protection In 20 years, the flywheel.

E.ON on the Romanian Energy Market ZF Power Summit Bucharest, February 27, 2013 Frank Hajdinjak CEO E.ON România.

Copyright © 2011 Power Analytics Corp. The Evolution of the Microgrid A microgrid is an integrated energy system with: –Co-located power generation sources.

MINISTRY OF ENERGY Energy Storage Presentation to APPrO Storage Symposium November 19, 2014.

SPP.org 1. SPP: Demand Response and Advanced Metering in Arkansas.

© New York Independent System Operator, Inc. All Rights Reserved. Michael Swider Manager – Research & Development New York Independent System.

FirstEnergy / Jersey Central Power & Light Integrated Distributed Energy Resources (IDER) Joseph Waligorski FirstEnergy Grid-InterOp 2009 Denver, CO November.

Transition of Electric Grid of Bangladesh to the Smart Grid Presented by: Abir Chowdhury, ET S.M. Eftehar Uddin Chowdhury, ET Department of.

Infrastructure & Cities Sector – Smart Grid Division © Siemens AG All rights reserved. October 2012Page 1 The Smart Grid by Siemens Constant energy.

Common Information Model and EPRI Smart Grid Research

Interdisciplinary Education on Smart Grids: Lessons, Challenges, and Opportunities Visvakumar Aravinthan and Vinod Namboodiri Department of Electrical.

© Energy Storage: Addressing Today’s Grid Challenges for Tomorrow’s Energy Demands Brad Roberts Power Quality Systems Director S&C Electric.

SMART GRID The Next Generation Electric Grid Kunkerati Lublertlop 11/30/2011 Electrical Engineering Department Southern Taiwan University.

COLUMBIA UNIVERSITY Department of Electrical Engineering The Fu Foundation School of Engineering and Applied Science IN THE CITY OF NEW YORK Networking.

Power System Fundamentals EE-317 Lecture 1 Lecture 1 27 September 2010.

1 Critical Mission Support Through Energy Security Susan Van Scoyoc Concurrent Technologies Corporation 16 August 2012 Energy Huntsville Meeting Huntsville,

1 Smart Grid ‐‐ What is it and how will it help California? Michael Gravely Manager Energy Systems Research Office California Energy Commission

Opportunities and Challenges Joseph Naser Electric Power Research Institute IAEA Technical Working Group on Nuclear Power Plant Control and Instrumentation.

Power IT Solution in KEPCO. com Contents Introduction 1 EIS in KEPCO 2 Results of EIS 3 Future Expansion 4 You can briefly add outline.

7/25/2014 Mingguo Hong, CWRU Developing the Smart Grid Course at Case Western Reserve University.

OVERVIEW OF ISSUES DR AND AMI HELP SOLVE Dr. Eric Woychik Executive Consultant, Strategy Integration, LLC APSC Workshop on DR and AMI.

1 AEP’s gridSMART sm Initiative FCC Workshop August 25, 2009 Jason D Griffith Director – IT Telecom Engineering.

1 Drivers for Building Life Cycle Integrations Jim Sinopoli.

Electricity Industry Innovation Challenges Woodrow Wilson Cross-Border Forum on Energy Issues 8 March 2007 Washington, DC Stan Rosinski Program Manager.

Smart Grid Energy Generation Renewable Energy Distributed Generation Transmission & Distribution Load Management Demand Response Electrical Vehicles Charging.

Overview of Real Time Grid Reliability Management Carl Imhoff Pacific Northwest National Laboratory January 27-29, 2004 Washington, D.C. Transmission Reliability.

Renewable Technology Integration Dave Mooney October 30, 2009.

The Smart Grid Business Case: Creating a Secure & Reliable Energy Resource Steve Oldham Chair, USTelecom President & CEO, SureWest Communications.

MIGRATING TOWARDS A SMART DISTRIBUTION GRID Authors: Prashanth DUVOOR Ulrike SACHS Satish NATTI Siemens PTI.

XIV International Forum Trends in Global Automation to the Year 2020 Gerald W. Cockrell CAP.

SMART GRID A smart grid for intelligent energy use. By: Suhani Gupta.

Smart Grid Schneider Electric Javier Orellana

Smart Grid Vision: Vision for a Holistic Power Supply and Delivery Chain Stephen Lee Senior Technical Executive Power Delivery & Utilization November 2008.

ACEC National Energy and Environment Challenges in Asset Management? Brian Long Transmission Line Performance Xcel Energy August 15, 2015.

THE NEW GENERATION TRANSMISSION By Ashroo M. Das 6 th sem, EEE & Deepak Kumar 6 th sem, EEE.

ICT4SMARTDG ICT Solutions to enable Smart Distributed Generation SAMARES contribution to WP2.

Submitted By: Preeti 376/09 EE-7 th SEM D.A.V INSTITUTE OF ENGINEERING & TECHNOLOGY Submitted to: Mr. Parminder Singh Mr. Sushil Prashar.

Heat Network Demonstration SBRI: policy context & objectives for the competition Natalie Miles Heat Strategy and Policy (Heat Networks)

Exhibit Booth # 1805 Booth # Products Key Benefits

Advanced Energy Solutions

“Internet of Things” – The new age drivers of Power Distribution Automation Speaker: Jayant Sinha Date of session: 2 Oct, 2015.

Grid Integration of Intermittent Resources

Empowering Electric Industry Human Resources Transformation

Sahar Rahim MS-Electrical Engineering Supervisor: Dr. Nadeem Javaid

Opportunities in the Changing Energy System

Karen Bartleson, President, IEEE Standards Association

Module 40 Planning Our Energy Future

AltaLink / Daniel Wong / 2009 Nov 05 / 1 of 2

EE362G Smart Grids: Architecture

EE362G Smart Grids: Introduction

EE392N Intelligent Energy Systems: Big Data and Energy April 2, 2013

Presentation transcript:

ee392n - Spring 2011 Stanford University Intelligent Energy Systems Gorinevsky and O’Neill 1 Lecture 1 Course Preview and Organization Lecture 1 Course Preview and Organization March 28 Dan ONeill Dimitry Gorinevsky Seminar Course 392N ● Spring2011

Outline Today is a short introductory lecture. Regular lectures begin April 4 Today –Class logistics –Intro to intelligent energy systems ee392n - Spring 2011 Stanford University 2Intelligent Energy Systems Gorinevsky and O’Neill

Instructors Dimitry Gorinevsky, Consulting Professor in EE –Information Decision and Control Applications –Broad industrial experience in advanced systems – Daniel O’Neill, Consulting Professor in EE –Communication Networks and Demand Response –Executive and venture capital experience – ee392n - Spring 2011 Stanford University Intelligent Energy Systems Gorinevsky and O’Neill 3

Logistics for the Course 1 unit CR/NC Weekly on Mondays –The room and time might change! –Watch the class website announcements Two introductory lectures –Grid and Comm. Overview – Dan –Control and Monitoring Basics – Dimitry Seven lectures by industry leaders Final class ee392n - Spring 2011 Stanford University 4Intelligent Energy Systems Gorinevsky and O’Neill

Logistics for the Course Requirements: –Attendance 1-2 page proposal for intelligent energy concept, research, or product, based on class presentations –Teams of up to three people, one person is acceptable –Due May 31 Top three proposals will be presented at the final –Will be considered by Stanford faculty and industrial presenters to receive research funding –The best proposal will be archived on class website including author info; expect PageRank 4 to 5. ee392n - Spring 2011 Stanford University 5Intelligent Energy Systems Gorinevsky and O’Neill

Intelligent Energy Systems Look at intelligent energy systems from a systems point of view Nearer term evolution of the grid leading to the Smart Grid Focus on information and management Specific challenges Time ee392n - Spring 2011 Stanford University 6Intelligent Energy Systems Gorinevsky and O’Neill Traditional Grid Intelligent Energy Systems Smart Grid

Traditional Grid 7 Conventional Electric Grid Generation Transmission Distribution Load Conventional Internet ee392n - Spring 2011 Stanford University Intelligent Energy Systems Gorinevsky and O’Neill

Backup: Traditional Grid ee392n - Spring 2011 Stanford University 8 Three major interconnects Intelligent Energy Systems Gorinevsky and O’Neill

Incorporating renewables – supply(t) Replacing old equipment, $1.5T –Electrical efficiency –Reliability –Embedded smarts Reducing operating costs –Excess capacity: Reserves –Bottlenecks: Transmission Deregulating The Traditional Grid is Changing ee392n - Spring 2011 Stanford University 9Intelligent Energy Systems Gorinevsky and O’Neill

Plant Age in Years Installed Net Capacity in MW Units without FGD:  15 years – Cluster V; < 15 years – Cluster VI  400 MW, < 15 years < 400 MW, < 15 years  400 MW,  15 years < 400 MW,  15 years I II III IV Backup: Capital Plant Age ee392n - Spring 2011 Stanford University 10Intelligent Energy Systems Gorinevsky and O’Neill

Intelligent Energy Systems Integrate leading edge –Control, monitoring and decision support –Communications technology –Information technology In new applications –Distribution Automation –Demand response –Building EMS Traditional Grid Intelligent Energy Systems Smart Grid ee392n - Spring 2011 Stanford University 11Intelligent Energy Systems Gorinevsky and O’Neill

Smart Energy Grid 12 Conventional Electric Grid Generation Transmission Distribution Load Intelligent Energy Network Load IPS Source IPS energy subnet Intelligent Power Switch Conventional Internet ee392n - Spring 2011 Stanford University Intelligent Energy Systems Gorinevsky and O’Neill

Current Systems Engineering Energy Management Systems – GE Demand Response – Akuacom/Honeywell Building Optimization – UTC Plant Monitoring – EPRI Sensing and Local Comm – Arch Rock/Cisco Wireless – EPRI Wireline (IP) - Cisco ee392n - Spring 2011 Stanford University 13Intelligent Energy Systems Gorinevsky and O’Neill

Communications Many competing ideas and standards Issues of performance and latency IEEE/NIST interface and data standards ee392n - Spring 2011 Stanford University 14Intelligent Energy Systems Gorinevsky and O’Neill

Business Logic Internet Applications ee392n - Spring 2011 Stanford University Intelligent Energy Systems Gorinevsky and O’Neill 15 Database Presentation Layer Backend Computer Tablet Smart phone Internet CRM and ad analytics Portfolio optimization Decision support Fraud detection

Business Logic Intelligent Energy Applications ee392n - Spring 2011 Stanford University Intelligent Energy Systems Gorinevsky and O’Neill 16 Database Presentation Layer Computer Tablet Smart phone Internet Communications Energy Application Application Logic (Intelligent Functions) Application Logic (Intelligent Functions)

Demand Response Application ee392n - Spring 2011 Stanford University Intelligent Energy Systems Gorinevsky and O’Neill 17 Akuacom/Honeywell May 16 Lecture

Plant Monitoring Application ee392n - Spring 2011 Stanford University Intelligent Energy Systems Gorinevsky and O’Neill 18 EPRI May 31 Lecture

Energy Management System ee392n - Spring 2011 Stanford University Intelligent Energy Systems Gorinevsky and O’Neill 19 GE April 25 Lecture SCADA/EMS Load Shedding & Restoration Applications Switch Order Management Generation Dispatch and Control Transmission Security Management Voltage/Transient Stability Unit Commitment/Transaction Evaluation Demand Forecasting

End of Slides Lecture 1 ee392n - Spring 2011 Stanford University 20Intelligent Energy Systems Gorinevsky and O’Neill