James McCalley (jdm@iastate.edu) National Needs James McCalley (jdm@iastate.edu) REU Program, 2013.

Slides:

Advertisements

Similar presentations

Grenada Sustainable Energy Plan Stakeholders Meeting April 5, 2002.

Advertisements

Biomass Comes of Age Introducing BioHubs:  The high level sector drivers;  The role for “surplus” biomass; and  The crucial benefits for MSW managers.

Path to your Energy Savings Existing Residential and Small Commercial.

Manitoba Bioeconomy Atlas Kyle Swystun Richard Grosshans.

Sustainable Energy How to wean ourselves off fossil fuels and maintain quality of life Reading: Ch. 1, 2 in Sustainable Energy – Without the Hot Air, by.

ENERGY POLICY FOR SUSTAINABLE GROWTH: Economic Crossroads: From Recovery to Sustainable Growth in the Baltics and EU 24 November 2011 Reinis Āboltiņš.

Energy Sources Grouping task. nuclear oil gas Solar cells / PV biofuel / biomass wave hydroelectric coal geothermal wind tidal.

Physics: Concepts and Connections, 4 th ed., Art Hobson Chapter 17 – Energy Challenge.

Achieving a sustainable energy balance for the U.S. current energy mix - 80% fossil fuel increasing renewables (wind, solar, tidal, geothermal, etc) increasing.

China’s Sustainable Energy Policy

Electricity Generation, Storage and Distribution Technology Presentation Peter Ellwood (HSL)

National Wind Generation Picture. Outline 1.US energy today 2.Legislative landscape 3.The future 4.Long-term national planning 5.Conclusions.

Energy and Sustainability. Energy How much energy do you need? How much energy do you use?

Fossil Fuels- Non renewable Nuclear- Non renewable Renewable Resources-wind, solar, biomass Energy.

ENERGY Energy is the capacity of a system to do work Energy is always conserved but … … can be transformed from one form to another Energy, E (unit: 1.

Keeping the door open for a two-degree world (Climate, Renewables and Coal) Philippe Benoit Head of Environment and Energy Efficiency Division International.

College of Engineering Discovery with Purpose January 9, 2011 Introduction to Wind Energy James McCalley

Energy Resources: The Class of 2016 Name Period Date.

Johnthescone The IPCC Special Report on Renewable Energy Sources and Climate Change Mitigation Renewable Energy and Climate Change Youba SOKONA.

Changing energy from one form to another ENERGY CANNOT BE CREATED OR DESTROYED IT CAN ONLY BE TRANSFORMED IN OTHER TYPES OF ENERGY.

Global Energy Supply and Use. The Sun: Source of Earth’s Energy The Sun is the primary (> 99%) source of heat for the planet Direct Indirect: –Wind –Water.

College of Engineering Discovery with Purpose August 23, 2011 Introduction to Wind Energy James McCalley

Consider the Future of Crude Oil  Petroleum will not be available forever.  A post-carbon energy economy will not happen overnight.  Transitions from.

ETC 288 Alternative Energy Class 10 Saturday 4/9 9: :00 AM Course Review, Wrap up ETC 288 Alt Energy.

College of Engineering Discovery with Purpose Iowa State University WESEP REU June 11, 2012 Wind & energy James McCalley

AIR CLIMATE & ENERGY RESEARCH PROGRAM B U I L D I N G A S C I E N T I F I C F O U N D A T I O N F O R S O U N D E N V I R O N M.

College of Engineering Discovery with Purpose January 24, 2011 Introduction to Wind Energy James McCalley

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.

Technical Characteristics of Energy Technologies Stephen Stretton 6 th March 2009.

Renewable energy technologies and industrial success; do economic incentives matter? Johan Albrecht Ghent University Faculty of Economics and Business.

A Green Plan. Who is 50 by ‘30? Manitoba Environmental Industries Association (MEIA) Key participants: o MEIA o University of Manitoba.

The Risks around Renewables? March 2012 Campbell Dunford.

© 2016 Global Market Insights, Inc. USA. All Rights Reserved Gas Turbine Market Price, Packaging Trends, Industry Outlook & Forecast.

Kenya’s INDC: Actions in the Energy Sector

ASRC, University at Albany

China’s energy outlook

International Renewable Energy Agency

Renewable vs. Nonrenewable Energy

Generating Electrical Energy

Prospects for renewable energy developments and role of natural gas

Power Plant Construction and QA/QC Section 1.1– US Energy Resources

Physical Science Energy and resources

Restructuring Roundtable March 24, 2017 Boston, MA

Global energy-related CO2 emissions

Use other resources to generate electricity

Australian Energy Scenarios Predicting Uncertainty

Markus Blesl, Tom Kober IER; University of Stuttgart

Do an internet search to answer the following questions

RENEWABLE ENERGY POTENTIAL OF INDIA A REVIEW

Sources of Energy Comparison

10/11/2018 Energy Resources.

Wind –Generated Electricity is…

Clean Power Plan - Community Training

NONRENEWABLE AND RENEWABLE RESOURCES

The Future of Energy in Virginia

Renewable Energy. Sustainable Future.™

Opening Assignment A nonrenewable resource is a natural resource that cannot be re-made or re-grown at a scale comparable to its consumption. We are using.

James McCalley National Needs James McCalley REU Program, 2012.

W Richards Worthing High School

W Richards Worthing High School

Emeritus Professor of Electrical Engineering Arizona State University

W Richards Worthing High School

Discussions about the Role of Nuclear Power for Achieving the Paris Agreement in Japan Yutaka Nagata and Sumio Hamagata Socio-economic Research Center.

Advantages and Disadvantages of Renewable and Nonrenewable Resources

2006 Energy Consumption By Sector * Coal Petroleum Natural Gas Biomass Hydro Nuclear Other Electric Power Sector**

Essential Question: How do we create low-cost "Green" energy resource(s)? Investigation Question: How are renewable energies more feasible (possible to.

Renewable Energy Lesson 71.

Energy Alternatives for a Secure and a Clean Environment

Presentation transcript:

James McCalley (jdm@iastate.edu) National Needs James McCalley (jdm@iastate.edu) REU Program, 2013

Energy 201: the nation 40% 18% LightDuty: 61% Freight: 28% Aviation: 11% 28% 2 https://flowcharts.llnl.gov/index.html 2

US ENERGY USE IS ABOUT 70% ELECTRIC & TRANSPORTATION GREENING ELECTRIC & DIVERSIFYING TRANSPORTATION IS THE MOST EFFECTIVE NATIONAL STRATEGY FOR REDUCING EMISSIONS US CO2 EMISSIONS* IS ABOUT 71% ELECTRIC & TRANSPORTATION * Anthropogenic 3

Unused Energy (Losses) Solar, 1.0 Nuclear,15 Hydro, 2.95 Wind, 8.1 Geothermal 3.04 Natural Gas 23.84 Old Coal 10.42 Biomass 3.88 Petroleum 15.13 26.33 8.58 24.5 8.5 Unused Energy (Losses) 43.0 Electric Generation 49.72 12.68 Used Energy 42.15 Residential 11.48 Commercial Industrial 23.94 Trans-portation 15.5 15 6.82 20.54 6.95 INCREASE Non-GHG 12Q to 30Q USE 11Q Electric for transportation REDUCE COAL 22Q TO 10Q IGCC, 2.26 4.5Q REDUCE PETROLEUM 37Q15Q LightDuty: 8.56Q Freight: 3.75Q Aviation: 3.19Q 4 4

Technolgy Forecasted NERC, 2018 Hi Eff&Renewable UCS (NEMS), 2030 Hi IGCC/CCS NAE, 2035 Hi Wind ISU, 2035 ∆GW Overnight cost Trillion $ Con Solar 20.4 0.102 238 1.195 - 65.5 0.329 PV solar 174 1.051 58.9 0.356 Nuclear 14.8 0.049 4.4 0.015 100 0.332 60.9 0.202 Wind onshore 229 0.440 670 1.288 350 0.673 630 1.211 Wind offshore 62 0.239 80 0.307 Geothrml 0.4 .002 31.8 0.127 106 0.424 Coal convntnl 19 0.039 red IGCC+seq 7 0.024 400 1.400 29.5 0.103 NGCC 107 Biomass 157 0.591 TOTALS 389 0.735 1344 4.516 850 2.405 1031 2.930 5

Grand Challenge Question For Energy: What investments should be made, how much, when, and where, at the national level, over the next 40 years, to achieve a sustainable, low cost, and resilient energy & transportation system? 6

Where, when, how much of each, & how to interconnect? SOLAR GEOTHERMAL CLEAN-FOSSIL Where, when, how much of each, & how to interconnect? Wind BIOMASS NUCLEAR

Grand Challenges For Wind: Move wind energy from where it is harvested to where it can be used Develop economically-attractive methods to accommodate increased variability and uncertainty introduced by large wind penetrations in operating the grid. Improve wind turbine/farm economics (decrease investment and maintenance costs, increase operating revenues). Address potential concerns about local siting, including wildlife, aesthetics, and impact on agriculture. 8