As I explain in the book, reserves have a special meaning refer to those geologic accumulations that can be economically extracted with the current technology. With the development of technology and/or changes in the price of oil, geologic accumulations that were once only part of the larger resource base may get transferred to the reserves. Focusing only on the reservesis apt to give a wrong impression about the total availability of oil. The chart below shows the historic data from the 2014 edition of the BP Statistical Review of Global Energy (BP2014) for the World Proved Reserves and the Reserves to Production (R/P) ratio. This ratio has often been mistakenly interpreted as the years to exhaustion.
Likewise, current price of oil largely reflects the immediate surplus or shortage of supplies, and reflects more on the conditions above ground (in the supply chain) than on the geologic endowment of the resource.
That said; letâs begin by taking stock of how the world reserves of oil have changed in the last seven years. According to BP2007 world reserves of petroleum in 2006 stood at 1,208 billion barrels (45.6 cmo), and thatâs the number I used in the book. The BP2014 edition lists the 2006 reserves at 1,364 billion barrels (51.5 cmo), and the 2013 reserves at 1,688 billion barrels (63.7 cmo). The upward revision of 156 billion barrels for the 2006 reserves resulted largely from reclassifying about 160 billion barrels of Canadian tar sands from the category of unconventional resource to the reserves pool. Although production of synthetic crude from tar sands had already begun to be commercialized, BP did not include them in the World Total of oil reserves until 2009. To a large extent the reclassification was aided by the maturing of the technology, and also by the rise in the price of oil. In 2006 oil was selling at around $40/ barrel, and that price was barely enough to make Tar sands operations economical. By 2009 had already spiked to above $140/barrel; since 2010 it has been hovering around $95±10/barrel. Smaller upward revisions were also made to the reserves of Venezuela and the Russian Federation, while there was a downward revision of the Kazakhstan reserves (ca. 30 billion barrel).
The increase of 324 billion barrels in the global reserves between 2006 and 2013 as listed in BP2014 edition is largely due to Venezuelan oil. The heavy oil in the Orinoco Belt was very uneconomical to produce, but has been less so since 2009 and the reserves in the Orinoco Belt have increased by over 220 billion barrels (8.3 cmo). Iraq, Iran, and the US have also registered increases in the reserves of 35, 19, and 15 billion barrels respectively. Â
The shale oil development in the US had received much attention in the media, but it is sobering to realize that its contribution to the reserves has been rather modest (<1.0 cmo). It has, however, had a more profound and immediate impact on the US oil production, which has increased by about 3.2 million barrels/day, whereas the Venezuelan and Iranian productions have each decreased by about 0.7 million barrels/day. Oil production in Iraq, which was close to its low point in 2006 following the Gulf War, did recover and increased production by about 700 million barrels/day. Total world production increased by 4.2 million barrels/day, and had the US shale oil not developed the world supply would have been much constrained, and we probably would have seen much higher oil prices.
Distinct from geologic and economic limits, which have dominated the Peak Oil debate, is the energy limit. I am referring to the energy return on (energy) invested, or EROI. It takes energy to extract oil, and easy oilâ"the kind that gushes out of wells can have an EROI values around 100, meaning that for each barrel of oil energy invested, the well produces 100 barrels of oil. Current global average of producing conventional oil has EROI of 20, while the more difficult to extract Alberta tar sands and shale oil have EROI between 5 and 7.
While it is true that oil may still be extractable at higher prices, oil ceases to be a source of energy when the energy required in recovering it exceeds what it can deliver. Now, there still maybe an economic incentive for continuing to produce a fuel from sources with EROI of less than 1 as long as the product fuel provides sufficient valueâ"corn-derived ethanol is a prime example of that. I should note that I was incorrect in the book to say that once the EROI is less than 1, âthere will no longer be an incentive to extract it regardless of price.â I should have said that oil ceases to be a contributor to global energy supply when its EROI drops below 1.
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