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1. Running out of and into oil:Analyzing global oil depletion to 2050 David L. Greene
The Q Group
Spring 2005 Seminar
Key Largo, Florida
April 4, 2005
3. Transportation runs on oil.
4. The emergence of OPEC and consequent oil price shocks in the 1970s and 80s temporarily reversed the global trend of increasing petroleum use for increasing global mobility.
5. WHERE WILL THE OIL COME FROM?The graph below was not presented by Colin Campbell or Jean Laherrere, but Rex Tillerson, President of Exxon Mobil Corporation (3/11/04).One solution: OPEC will provide.
6. Why should OPEC do this?
7. The U.S. Energy Information Administration says that OPEC will increase production 50% by 2025, spending its patrimony for no profit.
8. Are we running out of oil? Pessimists aka Geologists
Geology rules
Discoveries lag production
Peaking, not running out matters
Expect peak by 2010
Optimists aka Economists
Economics & technology rule
Rate of technological progress will exceed rate of depletion
Market system will provide incentives to expand, redefine resources
Stone age did not end for lack of stones
9. Take optimists view but quantify. How much oil remains to be discovered?
How fast might technology increase recovery rates?
How much will reserves grow?
How fast will technology reduce the cost of unconventional sources?
How much unconventional oil is there and where is it?
10. The optimists approach is
optimistic. No Hubberts curves
No geologic constraints on production rates
Costs do rise with depletion, however
RESOURCE/Production ratio limits expansion of production
Analogous to a limit based on life of capital
No explicit calculation of capital investment
No environmental/social/political constraints on production
ANWAR, offshore, etc. fair game
11. What is oil? Conventional Oil
Liquid hydrocarbons of light and medium gravity and viscosity, in porous and permeable reservoirs.
Plus enhanced recovery and NGLs
Unconventional Oil
Deposits of density > water (heavy oil), viscosities > 10,000 cP (oil sands) and tight formations (shale oil).
Liquid fuels can be made from coal or natural gas (not considered here).
12. Do we know how much oil there is?
13. In 2000 the USGS published a major assessment of world oil resources, including uncertainty and technological progress.
14. There is even greater uncertainty about unconventional oil resources, but regions seem to divide into oil sand/heavy oil or shale oil. (1 Gtoe = 7.33 billion bbls, 20.1 mmbd)
15. Pessimists dispute the USGS estimates with the following arguments: OPEC members overstate proved reserves
Reserve growth methodology biased
Range of uncertainty exaggerated
Unconventional resources also much smaller than implied by my estimates
16. A resource accounting model was constructed to simulate oil resource depletion, expansion and transition under various scenarios. It does not include Hubbert curves. If anything, its rules are optimistic.
17. World energy scenarios were derived from existing projections. The Reference Scenario represents business as usual.
18. Most future growth of energy use is expected in the developing world (2.7%/yr v. 1%/yr).
19. The average growth of world oil use from 2000 to 2050 is 1.9%/yr.
20. An ecologically driven scenario foresees only an 0.8% annual growth in energy use.
21. In this scenario, there is a demand-driven peak in oil use.
22. Six depletion/transition scenarios were constructed. Two IIASA/WEC scenarios
Three EIA Int. Energy Outlook to 2020
Two DOE/NRCan NA transport projections
Three sources of conventional oil resource estimates
Three unconventional oil estimates
23. A risk analysis was carried out, defining key parameters as random variables.
24. Reference/USGS: non-Middle East oil production peaks by 2030 with 90% probability.
25. Reference/Rogner: Non-MEA peak likely anytime 2010-2040.
26. If Campbells estimates are correct, the non-MEA peak will occur before 2010.
27. The most important determinant of the date of peaking is
how much oil there is.
28. From 2.7 Gtoe in 2001, non-MEA oil production is estimated to increase substantially.
29. Lower R/P ratios, more oil resources, slower growth of MEA production all raise the level of peak ROW output.
30. The total world oil production peak could be significantly later, perhaps after 2050.
31. The world peaking date depends strongly on the rate of expansion of Middle East production.
32. Under median assumptions, unconventional oil production must expand rapidly after 2020.
33. Using the upper range of values of the 5 factors that most strongly influence the world peaking date yields a broad, flat ROW curve.
34. Slowing the growth of MEA production raises prices and further delays the ROW peak.
35. The price estimates of my model are not predictions. They reflect optimistic assumptions about supply technologies. Their purpose is to regulate the market mechanisms by which unconventional resources are introduced.
36. The optimism of the model is reflected in increasing US production to 2020.
37. The Middle East could maintain a dominant position through 2050.
38. Rapid expansion of heavy oil and oil sands is needed to allow world oil use to continue to grow.
39. The ability to produce vast quantities of shale oil (or liquids from coal) is even more uncertain.
40. Conclusions Caveats Rate of production likely to decrease after 2020 in any case
Transition to unconventional oil may be rapid: 7-9%/yr growth
First supplies from Venezuela, Canada, Russia
Present trends imply ROW oil peak 2010-30
Vast quantities of shale oil (or coal, NG) may be needed before 2050 Model doesnt include geologic constraints on production rates; relies on target resource-to-production ratios
Does not include environmental or political constraints
Does not include gas- or coal-to-liquids
Unconventional oil resource estimates weak
Scenario, not market equilibrium based modeling of oil demand
41. Thank you for your interest.
42. For a copy of the report: Visit http://www-cta.ornl.gov/cta/Publications/Publications_2003.html
Or contact David L. Greene at:
dlgreene@ornl.gov
43. EIA used a few simple assumptions to produce a range of peak year estimates with implausible transitions and ignoring OPEC.
44. The model predicts that production may peak before proved reserves (caveat).
45. Never mind that man behind the curtain.(Wizard of Oz)
46. OPEC is an imperfect, partially monopolistic cartel. (von Stackelberg, 1952) It is imperfect, because it is a cartel of sovereign states with differing interests.
It faces a (mostly) competitive fringe.
Some members of the fringe collude with the cartel at times.
Five factors determine the cartels market power.
Price elasticity of ROW supply
Price elasticity of World Demand
Market Share
Rate of growth of World Demand
Rate of growth/decline in ROW supply
48. These economic parameters define the space in which the cartel can operate, not what it will do.
49. Growing world oil demand and peaking ROW oil supply affect the calculus in two ways. Cartel effectiveness enhanced
It is easier to not expand capacity than to cut production.
Cartel market power magnified
Growing demand increases the inverse elasticity term
Peaking ROW production diminishes the ROW supply response term
