By: Jim MacInnes, P.E. Re-Imagining our Economic System MSU CCED Institute March 26, 2013 Biophysical Economics: The Science Behind Economic Growth Photo.

Slides:

Advertisements

Similar presentations

EROI: definition, history and future implications Charles A. S. Hall State University of New York College of Environmental Science and Forestry Syracuse,

Advertisements

The Economics of Renewable Energy Figures and Tables By Jonathan M. Harris, Brian Roach, and David Timmons Copyright © 2014 Jonathan M. Harris.

The Environmental Debate The Environment and Politics 1. Since the 1970s, there has been a debate over the state of the environment and the role of government.

1.Buy local food to reduce food transportation over long distances. 2.Set your refrigerator temperature to 37°F and your freezer close to 3°F. 3.Turn down.

Presentation By : Mostafa Ahmed Hathout

Ch 12 Energy Energy Sources and Uses Coal - Oil - Natural Gas Nuclear Power Conservation Solar Energy –Photovoltaic Cells Fuel Cells Energy From Biomass.

Context. Energy Future: Context Fossil fuel is plentiful (and inexpensive) –Oil supply is in 10s of years (Lewis*: 40-80) –Gas supply is over 100 years.

Chapter 4: Energy, Chemistry, and Society. ENERGY? Like the energy of a crowd, You can’t see it, Can’t measure it, But you know it is there. What do you.

The Economics of Global Warming

Energy Conservation and Transfer. Energy Energy is the ability to do work ( it makes things happen) Work – applying a force to move an object (transferring.

Article Summaries - Affirmative Offshore Wind. Article 1 Offshore Wind has: the capability of powering 1/3 of the U.S, especially the East Coast's larger.

Energy Policy Conundrum Dependence on foreign supplies of oil and natural gas as an “economic” and a “national security” issue Oil shock in 2005 was primarily-demand.

Understanding and Influencing Energy Practices Yacob Mulugetta Centre for Environmental Strategy University of Surrey.

ARUN.KS BECKY ANU.K ASWATHY ATHIRA GROUP 2. SOLAR ENERGY.

Chapter 16: Energy Efficiency and Renewable Energy –Evaluating Energy Resources.

Helium-3: The Future Energy Source? Major Wayne Wisneski.

Physical Science, 6e Chapter 3 Energy

Chapter 27 Energy, Power, Transportation and the Future.

Section 15.3: Energy Resources

Sustainability and Renewable Energy What’s our role?

Energy Use and Conservation. Energy categories  Nonrenewable –Once used up, not replenished (on a human time scale) –Fossil fuels, nuclear  Renewable.

International Energy Outlook 2010 With Projections to 2035.

EROEI Energy Returned On Energy Invested. A more complex (quality corrected) version of the equation is this: "...where is the quality factor for fuel.

Cayman Automotive Revenge of the El ectric cars! Economic: Volatile Gasoline Prices Environmental: CO2 Emissions & Global Warming Political: Dependence.

Mrs. Roman ENERGY. ENERGY TRIVIA Question 1 Most of the world’s energy originally came from the sun Answer: True.

Part 1 – Types, Usage, and Projections

To create a community driven informational user-guide that employers a region to achieve a high level of sustainability through shared resources, collaboration.

The Science and Economics of Energy: Learning about Solar Energy.

ACHIEVING SUSTAINABILITY Unit 3-2a Understanding Energy.

Energy and Power Foundations of Technology Energy and Power © 2013 International Technology and Engineering Educators Association STEM  Center for Teaching.

Energy Group Khoa Nguyen Brian Masters Elena Jaimes Zach Walker Charise Frias.

CGC 1DI Sustainable Planet: Natural Resources Primer.

How Will America Survive Without Foreign Oil? Ideas for Today and Tomorrow.

An Introduction to Energy. Why do we care? 1. Fossil fuels are finite a fuel (as coal, oil, or natural gas) formed in the earth from plant or animal.

Chapter 15 Natural Resource and Energy Economics McGraw-Hill/Irwin Copyright © 2009 by The McGraw-Hill Companies, Inc. All rights reserved.

Should the Provision of Renewable Energy be left to Market Forces? To see more of our products visit our website at Ray Powell.

Depletion of Energy in the World and Alternative Forms of Energy.

McGraw-Hill/Irwin Copyright © 2009 by The McGraw-Hill Companies, Inc. All rights reserved. Chapter 21 The Economics of Energy, The Environment, and Global.

Renewable/Non-renewable Resources

Energy Information Administration Official Energy Statistics from the U.S. Government Annual Energy Outlook 2008 Energy Information Administration December.

Beyond Mandates, Does Green Pave the Way? Marlene Santos Vice President, Customer Service Florida Power & Light Company October 17, 2009.

Chapter 22 Aggregate Demand and Aggregate Supply ©2000 South-Western College Publishing.

Do Now: Energy Move Clip Answer the following questions in your notebook. 1) What is energy? 2) List 4 types of energy from the clip.

Energy Efficiency and Renewable Energy Chapter 16.

Office of the Chief Economist Office of Energy Policy and New Uses National Agricultural Credit Committee Harry S. Baumes Associate Director Office of.

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.

Earth’s Changing Environment Lecture 15 Energy Conservation.

Fig , p. 415 More Renewable Energy Increase renewable energy to 20% by 2020 and 50% by 2050 Provide large subsidies and tax credits for renewable.

WORLD ENERGY PICTURE. Figure 1 World Energy Consumption Projections indicate continued growth in world energy use, despite world oil prices that are.

Energy and Agriculture I.Energy types, sources, and uses II.Ag use of energy III.Ag production of energy IV.Outlook.

The Post Carbon Society Klausegger Nina Kulmer Ulrike Nemiri Sabrina-Sigrid.

Richard Newell, SAIS, December 14, The Paul H. Nitze School of Advanced International Studies December 14, 2009 Washington, DC Richard Newell, Administrator.

Solar Water Heating Bob Ramlow Chapter 2: Conservation & Economics of Solar Water Heating Bruce Hesher Engineering Technology Brevard Community College.

Energy Information Administration Official Energy Statistics from the U.S. Government Annual Energy Outlook 2009 Early Release Energy Information Administration.

Energy. V. Energy Resources and Consumption (10-15%) Energy Concepts (Energy forms; power; units; conversions; Laws of Thermodynamics) Energy Consumption.

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.

ECONOMY OF TOMORROW India and the global Green Energy Transformation Contact: Marc Saxer,

Energy Efficiency and Conservation

Renewable energy Types of energy used Evaluating energy What is net energy Energy efficiency Ways to improve efficiency Solar Hydro Wind Biomass Hydrogen.

ENERGY RESOURCES: PREDICTIONS AND ALTERNATIVES Kristin Clark ENERGY RESOURCES: PREDICTIONS AND ALTERNATIVES Kristin Clark.

Resources and Land Use Chapter 4 World Geography

Earth’s Resources Chapter Sixteen: Natural Resources and Conservation 16.1 Natural Resources and Energy 16.2 Supplying Our Energy Needs 16.3 Resources.

Carlos Cantú.  Renewable energy  is energy which comes from natural resources such as sunlight, wind, rain, tides, and geothermal heat, which are renewable.

Got Oil? World Oil Production : The world consumes 85 million barrels per day 31 Billion Barrels per year! USA (5% of the world’s population) consumes.

High Energy Society Why do we care about energy?.

1 Energy Security Global Issues Seminar Series November 8 th 2006.

ENERGY SECURITY SPONSORED BY The Center for the Study of Democracy IN COOPERATION WITH NATO April 28-29, 2006 Robert McFarlane ECS Group LLC.

The Oregon Department of Energy

Presentation transcript:

By: Jim MacInnes, P.E. Re-Imagining our Economic System MSU CCED Institute March 26, 2013 Biophysical Economics: The Science Behind Economic Growth Photo credit:

WHAT IS REAL ECONOMIC WEALTH? Money can be printed, and created with the stroke of a pen… or with a keystroke. Money and even gold has little or no intrinsic value. So, while money is a ‘marker’ for economic wealth, it is not real economic wealth. In 1926 Nobel Laureate, Fredrick Soddy, wrote the book Wealth, Virtual Wealth and Debt, and argued that true economic wealth is: 1. the ability to control the flows of useful energy 2. embodied energy

The Biophysical Economy – Reprinted with the permission of SUNY ESF Systems Ecologist, Charles A. S. Hall

Energy Conservation and the First Law of Thermodynamics Thermodynamics is a natural law that deals with the relationship between heat, work and energy The First Law of Thermodynamics is about conservation of energy. Energy can be changed from one form to another, however, it cannot be created or destroyed. Total Energy of a System = Work done + Waste Heat In its simplest form: Work = Force x Distance If we want to make something, or transport people and/or freight we must consume useful (concentrated) energy.

Entropy and the Second Law of Thermodynamics Not only must we consume energy to make things, but we must also consume energy to keep them in good repair. The second law of thermodynamics is often called Entropy, and is an important law of nature that says everything changes over time to a higher state of disorder. Absent energy inputs, nature’s equilibrium is disorder. In business, Entropy is accounted for as “depreciation expense” and we must invest “CAPEX” to keep things maintained. Global Warming represents the entropy bill for our fossil fuel powered industrial revolution.

“Weather-related Events on the rise” Reprinted from Traverse City Record Eagle November 18, 2012 Disasters with at least $1 billion in damage for the period 1980 – 2011

Energy return on energy invested (EROI) Energy returned to society (100 barrels of oil) EROI = = 100 Energy required to (1 barrel of oil) get that Energy

EROI and Net Energy diagram for building, operating and decommissioning a power-generating project. Reprinted with the permission of Ida Kubiszewski and Cutler J. Cleveland, The Encyclopedia of Earth.

EROI of various electric power generators. Reprinted with the permission of Ida Kubiszewski and Cutler J. Cleveland, The Encyclopedia of Earth. - EROI for other energy sources: oil and gas at 11–18 to 1; corn- based ethanol at 0.8 –1.6 to 1; and, biodiesel at 1-3 to 1.

Reprinted with the permission of Charles A. S. Hall

Reprinted with the permission of David Murphy and Charles A. S. Hall Energy consumption used to do “Work” causes economic growth, not the converse Energy is a limiting factor for economic growth. “Best First” principle (low hanging fruit) and history of diminishing EROI

Where could we get more energy to power economic growth?  Increase the energy available from fossil fuels, nuclear, wind, solar, etc.  Conserve energy by not doing something and redirect the energy savings to other more productive uses.  Invest in Energy Efficiency where we can do the same job using less which releases energy for other more productive uses

Emerging, non-OECD, economies can afford to pay more for an incremental barrel of oil (wealth) because it offers more incremental benefit (utility)

VW’s aero car for China: Gas tank: 1.7 gallons Speed: 75 mph Mileage: 258 mpg Selling price: US $600

Rate of Change in Global Petroleum production

The Evidence: Declining Growth Rate of US GDP

The market will demand a new energy infrastructure based on non-fossil fuel solutions. The construction of that new infrastructure requires not just money, but…energy. And that’s the very commodity in short supply. Are we willing, in the short term, to sacrifice additional FF energy consumption to build a new renewable energy infrastructure – effectively steepening the decline – in order to invest in a long-term energy plan ? Reprinted with permission of UCSD Physics Prof. Tom Murphy The Energy Trap