Steam-assisted gravity drainage

Steam-assisted gravity drainage (SAGD; "Sag-D") is an enhanced oil recovery technology for producing heavy crude oil and bitumen. It is an advanced form of steam stimulation in which a pair of horizontal wells are drilled into the oil reservoir, one a few metres above the other. High pressure steam is continuously injected into the upper wellbore to heat the oil and reduce its viscosity, causing the heated oil to drain into the lower wellbore, where it is pumped out. Dr. Roger Butler, engineer at Imperial Oil from 1955 to 1982, invented the steam assisted gravity drainage (SAGD) process in the 1970s. Butler "developed the concept of using horizontal pairs of wells and injected steam to develop certain deposits of bitumen considered too deep for mining".[1][2] In 1983 Butler became director of technical programs for the Alberta Oil Sands Technology and Research Authority (AOSTRA),[1][3] a crown corporation created by Alberta Premier Lougheed to promote new technologies for oil sands and heavy crude oil production. AOSTRA quickly supported SAGD as a promising innovation in oil sands extraction technology.[2]

Steam-assisted gravity drainage (SAGD) and cyclic steam stimulation (CSS) steam injection (oil industry) are two commercially applied primal thermal recovery processes used in the oil sands[4] in Geological formation sub-units, such as Grand Rapids Formation, Clearwater Formation, McMurray Formation, General Petroleum Sand, Lloydminster Sand, of the Mannville Group, a stratigraphic range in the Western Canadian Sedimentary Basin.

Canada is the largest supplier of imported oil to the United States, supplying over 35% of US imports, much more than Saudi Arabia or Venezuela, and more than all the OPEC countries combined.[5] Most of the new production comes from Alberta's vast oil sands deposits. There are two primary methods of oil sands recovery. The strip-mining technique is more familiar to the general public, but can only be used for shallow bitumen deposits. However, the more recent steam-assisted gravity drainage technique (SAGD) is better suited to the much larger deep deposits that surround the shallow ones. Much of the expected future growth of production in the Canadian oil sands is predicted to be from SAGD.[6]: 9 

"Petroleum from the Canadian oil sands extracted via surface mining techniques can consume 20 times more water than conventional oil drilling. As a specific example of an underlying data weakness, this figure excludes the increasingly important steam-assisted gravity drainage technique (SAGD) method."

— The Water-Energy Nexus 2011

Steam Assisted Gravity Drainage emissions are equivalent to what is emitted by the steam flood projects which have long been used to produce heavy oil in California's Kern River Oil Field and elsewhere around the world.[7]

  1. ^ a b Cite error: The named reference butlerhalloffame was invoked but never defined (see the help page).
  2. ^ a b Cite error: The named reference guidebook was invoked but never defined (see the help page).
  3. ^ AOSTRA is now known as the Alberta Energy Research Institute.
  4. ^ Qi Jiang; Bruce Thornton; Jen Russel-Houston; Steve Spence. Review of Thermal Recovery Technologies for the Clearwater and Lower Grand Rapids Formations in the Cold Lake Area in Alberta (PDF). Canadian International Petroleum Conference. Osum Oil Sands Corp.
  5. ^ "U.S. Imports by Country of Origin", EIA, 2014, retrieved 3 February 2015
  6. ^ Diana Glassman; Michele Wucker; Tanushree Isaacman; Corinne Champilou; Annie Zhou (March 2011). Adding Water to the Energy Agenda (PDF) (Report). A World Policy Paper. The Water-Energy Nexus.
  7. ^ Biello, David. "The Opposite of Mining: Tar Sands Steam Extraction Lessens Footprint, but Environmental Costs Remain". Scientific American.