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Energy Crises: Their Imminence, Size, and Impact . Sanjay. V. Khare Department of Physics and Astronomy, The University of Toledo, Toledo, OH-43606 http://astro1.panet.utoledo.edu/~khare/. Acknowledgements Funding: NSF, DARPA, DOE, WPAFB, PVIC from Sate of Ohio,
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Energy Crises: Their Imminence, Size, and Impact Sanjay. V. Khare Department of Physics and Astronomy, The University of Toledo, Toledo, OH-43606 http://astro1.panet.utoledo.edu/~khare/ Acknowledgements Funding: NSF, DARPA, DOE, WPAFB, PVIC from Sate of Ohio, Data and Slides: Gratitude and thanks to many fellow peakists Presentation: My student Shandeep Voggu
Center for Photovoltaics Innovation and Commercialization Solar Fields Honda-OSU Partnership Program PVIC: Center for Photovoltaics Innovation and Commercialization The PVIC Proposal Team: Co-PI's, Rob Collins (UT) & Bob Davis (OSU) -- 3 Ohio Universities: • University of Toledo • Ohio State University • Bowling Green State University • 4 Ohio Not-for-Profit Organizations: • Battelle Memorial Institute • Green Energy Ohio • Edison Materials Technology Center • Honda OSU Partnership • 12 Ohio Companies: • Owens Corning • Pilkington • SSOE • Solar Fields • Midwest Optoelectronics • Innovative Thin Films • LakeShore Cryotronics • Decker Homes • Advanced Distributed Generation • Metamateria Partners • NewCyte • Cornerstone Research Group
Center for Photovoltaics Innovation and Commercialization PVIC: Center for Photovoltaics Innovation and Commercialization • Financial overview of PVIC request (three years): • capital funds $11 M UT $5.1M OSU 3.5M BGSU 2.4M • operating funds $7.6 M UT $4.24M OSU 3.27M BGSU 0.09M Sustainability Goal: continue innovation growth with operating fund revenue growing from $2.5 M/yr
PEAK OIL • (and the unfolding energy crisis) • What is Peak Oil? • What are the consequences? • What can we do about it?
Fuel Prices Yesterday Today … Tomorrow? 1955 2005
Oil originates from the decomposition of microorganisms that got buried under geologic formations in the sea millions of years ago. In some cases the sea retreated, which explains why oil is also found on land.
-Oil was a gift from nature. -It took millions of years to produce -When it’s gone, it’s gone forever
Before the first oil well was dug inPennsylvania in 1859, Nature had made about two trillion barrels of oil and scattered it unevenly around the world. By 2006 we’ve used up about 0.96 trillion. In other words we’re near the half-way point. “Hubbert's Peak: The Impending World Oil Shortage”, Kenneth S. Deffeyes
An oil well isn’t like a car’s fuel tank Gasoline use 0 time • With a car you can drive at full speed until the moment you run out of fuel. • That’s because your tank is a hollow cavity. The fuel fills the bottom of the tank and there’s nothing preventing it from being pumped out.
But an oil well isn’t a hollow cavity Click • It’s a large deposit of stones or sandstone sandwiched between two layers of impervious rock. The hollow spaces between the stones or sand are filled with thick and viscous oil. • A pipe is lowered into the mixture of oil and stones or sand and the oil is slowly pumped up. It takes time for oil to ooze from zones of high concentration to the zone of low concentration near the pipe.
In order to extract the oil from an oil field, a large number of wells are drilled.
An oil field yields its contents over the years, something like this. Then the flow slows down gradually. An oil field empties rapidly at the start and yields lots of oil. Towards the end the flow eases to a trickle.
Contrast with car fuel tank Gasoline use 0 time When you plot the production of an aggregate of oil fields, it approximates a bell curve Top of the curve Mid point 1st half 2nd half
The top of the bell curve is what petroleum experts refer to as the oil peak or peak oil. Remember that we’ve used up almost half of the world’s oil. When we reach the half-way point on a bell curve, we embark upon the decline. …and from then on, oil production will decline year after year… http://www.oilcrisis.com/
The Hubbert Peak In 1956 Hubbert, using mathematical models, predicted that the oil extraction for the US lower 48 states would peak in 1970 http://www.hubbertpeak.com/hubbert/
Many oil fields, countries, and oil companies have already peaked. • The US peaked in 1970. • 53 of 68 oil producing countries are in decline.
Oil discoveries in the US peaked- then 40 years later production peaked The US lower 48 states Adapted from Collin Campbell, University of Clausthal Conference, Dec 2000
If the world follows the US pattern: …theworld would peak soon Adapted from: Richard C. Duncan and Walter Youngquist
Energy ReturnOn Energy Invested (EROEI) It refers to the ratio of: The amount of energy spent on getting the fuel: exploration, drilling, pumping, transportation and refining The amount of energy in the fuel: Either gasoline, diesel, kerosene, etc. AND “The Party’s Over”, Richard Heinberg
Energy Return On Energy Invested is diminishing as we resort to going after the hard-to-get oil: • Before 1950 it was about 100 to 1 • In the 1970s it was down to 30 to 1 • Now (2005) it’s about 10 to 1 • The Tar Sands have an EROEI of about 4 to 1 “The Party’s Over”, Richard Heinberg
Net Surplus Energy (NSE) TM = Total mass of energy providing material e.g., oil, coal, gas, wind turbine, PV modules EPM = Energy produced per unit mass NSE = TM X EPM (Naive Calculation) Correct Calculation EROEI= Energy Returned on Energy Invested = NSE = TM x EPM x EROEI = TM x EPM x We are running out of both TM and EROEI
If the world follows the US pattern: …the world would peak soon Adapted from: Richard C. Duncan and Walter Youngquist
There Are No More Giant Oil Fields Being Discovered • In spite of advanced exploration technology we are finding smaller and smaller oil fields • 4 fields (giants) out of 4000 produce 10% of crude today • They are all in decline! • 125 of 4000 total produce 50% of crude today!
…for each barrel of oil that is being discovered We’re consuming 4 barrels… “The Party’s Over”, Richard Heinberg
Exploration doesn’t pay anymore Since 2000, the cost of finding and developing new sources of oil has risen about 15% annually. In 2003 oil companies spent $8 billion on exploration and discovered $4 billion in new reserves.* * Thomas Homer Dixon and Julio Friedmann, N.Y. Times, 25 Mar 2005 ** John S. Herold consulting firm
There’s no more spare capacity in the world supply Spare capacity = how much extra oil can be produced within 30 days notice and maintained for 90 days Adapted from “The Oil Age is Over”, Matt Savinar
Spurious OPEC Reserve Revisions
Peak Total Energy Total Energy Use, 1965 to 2050, (Courtesy: Paul Chefurka)
Summary about Supply • We will soon reach peak oil in (-1 to 5 years) • After that we will have less energy for transportation every year than the previous year. This will go on indefinitely! • Net total surplus energy for all uses will peak in 10 to 20 years • After that we will have less energy every year than the previous year. This will go on indefinitely!
PEAK OIL • Part 2 • What are the consequences? • Extremely Serious!
We will soon reach the point where we can’t pump out enough to keep up with demand [Even if demand is constant!]. Then we go intoPERMANENT, IRREVERSIBLEdecline!
Oil is so versatile… The petrochemical industry can refine oil into many different fuels and products. Gas Naphtha Gasoline Kerosene Diesel Lubricants http://science.howstuffworks.com
Including plastics, textiles, pharmaceuticals, paints, dies, asphalt No easy scalable substitute for oil
Impact: Economic, Social and Cultural ==> Steady or Shrinking Economy • Growth Economics • Industries • Tourism • Entertainment (movies in theaters, sports, theme parks, shopping) • Restaurants • Transportation (cars, trucks, oil-ships vs. electric (trains and cars), sail-ships) • Banking • Finance • Housing (Suburban long commute vs. urban walking) • Farming, Solar, Wind, Geothermal, Lumbering, Energy equipment • Family Structure • Grandparent-Parent-Child relationship • Husband-Wife relationship • Neighbor-Neigbor relationship (less house mobility)
Fossil Fuel and Agriculture • Farming “is an annual artificial catastrophe, and it requires the equivalent of three or four tons of TNT per acre for a modern American farm. Iowa's fields require the energy of 4,000 Nagasaki bombs every year.” 1 1 Richard Manning; “The Oil We Eat”, Harpers, 2005. Mr. Manning was referring to the growing of the world’s major grain crops - corn, rice and wheat.
Fossil Fuel and Agriculture • On average, the food industry uses 10 calories of fossil fuel energy to produce 1 calorie of food. • For pork, it’s 68 calories for 1 calorie on your plate. • For beef, it’s 35 calories for 1 calorie on your plate. 1 1 Richard Manning; “The Oil We Eat”, Harpers, 2005.
Population ? First Oil Well OIL (1857)
PEAK OIL • Part 3 • What can we do about it?
Is there an easy solution? • No, not in reality. • Conservation is a partial solution. • Alternative fuels (solar, wind, geothermal) are likely to provide help but not for transport. • New technology like battery-operated cars are likely to help a little only in the long run (> 20 years). • Demand Reduction: We may need to unwind good portion of globalization; go back to simpler life styles, technologies that worked before.
Correct definition of a good life Less material consumption More meaningful relationships with humans, plants, animals and location. Energy and basic human needs. The international relationship between energy use (kilograms of oil equivalent per capita) and the Human Development Index (2000). (Source: UNDP, 2002, WRI, 2002)
Most important step • A Depletion Protocol to cut imports to match depletion rate • Will avoid wars
Priorities (USA) • Tackle population growth • Massive public education for reduction in demand (targets of 50 to 80% per capita in 10 years) • Stop corn ethanol immediately • World War II type effort for energy conservation in homes and buildings, new solid state lighting, CAFE standards • World War II type effort for car and truck batteries, solar, wind, geothermal, and wave energy • Greater use of arable land for growing crops such as oilseeds, willow for wood pellets, forest generation • Buying locally produced goods where possible