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http://dx.doi.org/10.9719/EEG.2014.47.5.551

Scientometric Analysis for Unconventional Tight Gas  

Lee, Su-Jin (Korea Institute of Science and Technology Information(KISTI))
Kil, Sang-Cheol (Korea Institute of Science and Technology Information(KISTI))
Kim, Young-In (Korea Institute of Science and Technology Information(KISTI))
Oh, Mihn-Soo (Korea Institute of Science and Technology Information(KISTI))
Publication Information
Economic and Environmental Geology / v.47, no.5, 2014 , pp. 551-561 More about this Journal
Abstract
Natural gas is the world's fastest-growing fossil fuel, with consumption increasing from 113 trillion cubic feet(Tcf) in 2010 to 185Tcf in 2040. While conventional natural gas streams from the earth relatively easily, unconventional gas finds are more difficult to develop and more costly to produce. Right now, there are six main types of unconventional gas, including deep gas, gas-containing shale, coalbed methane(CBM), geopressurized zones, Arctic and subsea hydrates, and tight gas. Tight gas refers to natural gas reservoirs locked in extraordinarily impermeable, hard rocks(sandstone, siltstone or carbonate sedimentary rocks). In this study, we analyzed total 375 papers(2000-2014) of tight gas by country, institution, international cooperation etc.
Keywords
unconventional natural gas; tight gas; scientometric analysis; sandstone; conventional natural gas;
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