Class 10 Systems Mapping Workshop © 2013 University of Notre Dame. All rights reserved. This PowerPoint presentation may not be duplicated, distributed.

Slides:



Advertisements
Similar presentations
The Changing Energy Landscape Economic Competitiveness Energy Security Environment / Climate Change New Opportunities.
Advertisements

Integrated Resource Planning: An overview Mark Howells & Bruno Merven Energy Research Centre Energy Research Centre University of Cape Town.
Environmental Science Chapter 11 Notes #2. Review Nonrenewable resources Renewable Resources Fossil Fuels The energy of fossil fuels is most commonly.
Energy National Policy Statements Anne Stuart DECC Energy Development Unit 22 October 2009.
© World Energy Council 2013 World Energy Scenarios Impact of the Energy Governance Model to the Future of the European Energy Sector Einari Kisel 23 rd.
Electricity Technology in a Carbon-Constrained Future February 2007 Steven Specker President and CEO.
CERAWEEK ® 2007 Technology Needs for a Carbon-Constrained World Jeff Sterba Chairman, President, CEO PNM Resources, Inc. February 15, 2007.
I. I.Energy US EIA World energy consumption projected to rise 53% from 2008 to 2035 Greatest projected increase in non-OECD countries (85% vs. 18% in OECD.
Regional Emission-free Technology Implementation (RETI): Diversifying the U.S. Electricity Portfolio Marc Santos 2008 ASME WISE Intern University of Massachusetts.
EStorage First Annual Workshop Arnhem, NL 30, Oct Olivier Teller.
Bipartisan Policy Center Energy Project DECEMBER 14, 2011.
Resource and Energy.
AGEC/FNR 406 LECTURE 27 Challicum Hills, the largest wind farm in Australia.
Energy Resources Human Impact on the Environment.
Clear Thinking on Nuclear: New Plant Construction Nuclear energy is dependable, affordable, and environmentally sound. Nuclear energy is needed to meet.
Introduction to Sustainable Energy Technologies
1 Smart Distribution Systems: Sustainability Issues S. S. (Mani) Venkata Alstom Grid and University of Washington (UW)
Our energy sources Fossil Non-renewable Renewable
WHERE DOES OUR ENERGY COME FROM?. Energy SOURCES NON RENEWABLE Do not regenerate as fast as we consume them Risk of running out! Coal, oil, gas RENEWABLE.
Uib.no UNIVERSITY OF BERGEN Development of Energy law Legal Challenges Professor Ernst Nordtveit Faculty of Law Insert «Academic unit» on every page: 1.
U.S. Energy Policy: The Burdens of the Past and Moving Forward John P. Banks Nonresident Fellow Brookings Institution September 25, 2012 BROOKINGS MOUNTAIN.
SUSTAINABLE ENERGY REGULATION AND POLICY-MAKING FOR AFRICA Module 13 Energy Efficiency Module 13: SUPPLY-SIDE MANAGEMENT.
The Changing US Electric Sector Business Model CATEE 2013 Clean Air Through Energy Efficiency Conference San Antonio, Texas December 17, 2013.
The Energy Construct Ben Cipiti May 1, 2008 Mid-Town Brews.
Journées "Ports & Environnement” Clean Energy Management in Ports EFFORTS results Le Havre – March 10th, 2010.
Factors affecting the use of Non- Renewable Energy Resources.
© OECD/IEA 2010 Cecilia Tam International Energy Agency Martin Taylor Nuclear Energy Agency The Role of Nuclear Energy in a Sustainable Energy Future Paris,
24 Jan What is Energy Policy?ECONOMICS ENVIRONMENT ENERGY SECURITY.
Energy continues to grow. “Energy efficiency is by far the most cost- effective way to fulfill 3 major energy- related challenges: increase energy security,
1 9/15/2015 Gogita Todradze National Statistics Office of Georgia Institutional Arrangements for Energy Statistics in Georgia.
Fossil Fuels & Electricity. Electricity as a resource Electricity is created by the flow of electrons. (Most) Power plants use electric generators powered.
© 2013 University of Notre Dame. All rights reserved. This PowerPoint presentation may not be duplicated, distributed or excerpted without the University’s.
Technological Innovation in the Future Energy Challenge.
Energy EU future strategies and policies Andreea Strachinescu, European Commission Directorate-General for Energy Head of "New energy technologies, innovaton.
Autumn Million Jen DePaoli
Spain: Can we give up any of the primary energy sources? Alejo Vidal-Quadras Roca Vice-President of the European Parliament Member of the Industry, Energy.
International Energy Markets Calvin Kent Ph.D. AAS Marshall University.
Energy & Its Impact on Global Society Jerome K. Williams, Ph.D. Saint Leo University Dept. Mathematics & Sciences.
WHEN THE LIGHTS GO OUT MAXWELL IRVINE GUILDFORD OCTOBER 2005.
IBERDROLA RENEWABLE ENERGIES Carlos Gascó Head of the Prospective Unit Uitilities’ stronger bet for renewables An analysis from the renewable power generator.
CALIFORNIA ENERGY COMMISSION Carbon Management: A State Energy R&D Perspective Terry Surles California Energy Commission AAAS National Meeting Symposium.
Systems thinking is a discipline for seeing wholes. It is a framework for seeing interrelationships rather than things, for seeing patterns of change rather.
Earth’s Changing Environment Lecture 15 Energy Conservation.
Electricity Technology in a Carbon-Constrained Future NARUC Annual Meeting November 14, 2007 Hank Courtright Senior Vice President.
Natural Resources. Two Types of Natural Resources Nonrenewable- limited Renewable-”unlimited”
15 TH Pacific Basin Nuclear Conference, October 2006, Sydney, Australia1 ECONOMICS OF NUCLEAR ENERGY ECONOMICS OF NUCLEAR ENERGY IN A SUSTAINABLE.
A Brave New World Cathy Woollums, SVP, Environmental and Chief Environmental Counsel NASUCA Mid-Year Meeting – June 2, 2014.
Geothermal Fields On the Ring of Fire Prospect Developed Fields.
Affordable, Clean, Local Plug-in Partners Campaign Plug-in, Flexible Fuel, Hybrid Electric Vehicle.
1 Goals and Targets to Direct FY2010 Budget and Stimulus.
ENERGY & CLIMATE CHANGE SANDILE TYATYA DEPARTMENT OF MINERALS AND ENERGY 28 AUGUST 2001 PRESENTATION TO THE PORTFOLIO COMMITTEE.
Designing Energy Solutions without Borders National Association of Regulatory Utility Commissioners National Association of Regulatory Utility Commissioners.
Geopolitics and the US Energy Security Outlook Guy Caruso October 10, 2011.
World energy production by source in 2004: Oil 40% coal 23.3% natural gas 22.5% hydroelectric 7.0% nuclear 6.5% biomass and other 0.7%.
Energy and the Environment. Background Americans only make up 5% of world’s population but consume 20% of its energy Americans only make up 5% of world’s.
Advanced Environmental Technology Geographic Distributions of Natural Resources TEK 7D.
Moving Forward with Clean Energy Priyantha Wijayatunga Principal Energy Specialist, Asian Development Bank
Measuring Prospective Benefits for FE R&D Programs Most estimation of past Fossil Energy (FE) R&D benefits has focused on two broad program categories:
Economics project draft. Jarred Mongeon.  Issues : Coal; Oil; Natural Gas. Fossil fuel dependency Greenhouse gasses (Climate Alteration) Contamination.
3SW – Quiz#1 Vocabulary – Energy Resources. 1. Non- Renewable An energy resource that takes __________________ of years to form from the remains of plants.
Market Failures Chapter 7 Sections 2 and 3 Economic Solutions to Global Warming.
Why are fossil fuels considered nonrenewable? Fossil Fuels are sources of energy that take a very long period of time to form and once depleted, are essentially.
Nuclear’s Role in Advancing Clean and Secure Energy
Goals and Targets to Direct FY2010 Budget and Stimulus
BP Energy Outlook.
Key features of Key features of 2015 Growth in GDP and energy.
Outline Energy demand and prices Reserves and new sources of energy supply.
Siemens Energy Service Sector overview
Fundamental Questions
Essential Question: How do we create low-cost "Green" energy resource(s)? Investigation Question: How are renewable energies more feasible (possible to.
Presentation transcript:

Class 10 Systems Mapping Workshop © 2013 University of Notre Dame. All rights reserved. This PowerPoint presentation may not be duplicated, distributed or excerpted without the University’s advance written consent.

 A rticulate System Boundaries  E stimate Stakeholder Influence  I llustrate a System Diagram  O utline Forces of Change  U tilize a Force Field Analysis © 2013 University of Notre Dame. All rights reserved.

System Boundaries Nuclear Energy System Map ELECTRIC Energy Nuclear Energy Sector Organizational Boundary Macro-environment Boundary Operating Environment Boundary © 2013 University of Notre Dame. All rights reserved.

Stakeholders Nuclear Energy System Map ELECTRIC Energy Nuclear Energy Sector Stakeholders 1.Electric Plant Operators 2.Grid Operators 3.Fuel Companies a.Coal b.Nat Gas c.Oil 4.Technology Providers a.Smart Grid b.Renewables c.Electric Auto d.Nuclear 5.Energy Users a.Employers b.Consumers c.Voters 6.Government a.(U.S., Internat’l) b.Community 7.Environment(alists) © 2013 University of Notre Dame. All rights reserved.

Stakeholders Nuclear Energy System Map Nuke Operators Fuel Co’s. NRC Coal Plant Operators Nat. Gas Plant Operators Solar/Wind Farm Developers Energy Users Government Agencies Gov’t Energy Labs Coal Companies Nat Gas Companies Environmentalists Oil Companies Auto Companies Tech Companies Voters Grid Operators Los Alamos Elected Officials © 2013 University of Notre Dame. All rights reserved.

Hi Interest Low Interest Hi Influence Low Influence Assessing Stakeholder Influence StakeholderPrimary Concerns / Objectives Fuel CompaniesEmission limits, regs, Subsidies GovernmentConstituent satisfaction – Reelection Users (Voters)JOBS, economic growth, cheap energy Tech ProvidersR&D support – possible breakthru Innov Fuel Co’s Users (Voters) Government Generators Environmentalists Tech Providers Transp. Sector © 2013 University of Notre Dame. All rights reserved.

System Diagram Mostly Fossil Fuel Mostly Oil Poss. Conversion to Elect or H2 Fleet Fossil Fuel Nuclear Renewables Abundant Domestic Supply Nat. Gas Solar Externalized Environmental Impacts Fission Fusion Safety, Spent Fuel, Proliferation Issues (Actual/Perceived) Wind Other Coal Gov’t Subsidies & Regulations Societal Pressure for Clean Energy Economic Pressure for Cost Effective Energy Intermittent Supply Base Load Supply Feasibility Cost Feasibility No Carbon Emissions Political Pressure for “Energy Independence” Smart Grid Dist. Generation Demand Response © 2013 University of Notre Dame. All rights reserved.

Drivers of Change 1.Growing Energy Demand 2.Fossil Fuel Recovery Tech a.Fracking b.Tight Oil 3.Regulatory Frameworks a.GHG Emissions b.Fracking 4.R&D Investment a.Nuclear b.Fossil & Renewables c.China, et.al. 5.Geopolitical Turbulence 6.Conversion to electric fleet (?) Constraints of Change 1.Externalized Costs 2.Existing Infrastructure 3.Globalization 4.R&D Effectiveness 5.Political Influence of Incumbents 6.NIMBY 7.Public Fear of Nuclear Safety a.Actual b.Perceived c.Proliferation d.Waste Disposal/ Reprocessing Forces of Change Nuclear Energy System Map © 2013 University of Notre Dame. All rights reserved.

ForceTrajectoryImpact Demographic Economic Governmental Environmental Societal Technological © 2013 University of Notre Dame. All rights reserved.

 Evidence-Based Foresight  Class Preparation  Read “Evidence-Based Management”  Current Assessments due ___________ © 2013 University of Notre Dame. All rights reserved.

Feedback: Privacy Policy Feedback
Do Not Sell My Personal Information
About project: SlidePlayer Terms of Service

© 2024 SlidePlayer.com Inc. All rights reserved.