PRE‐CREATACEOUS COALIFICATION IN SOUTHERN ISRAEL: CONTRIBUTION TO TIME‐TEMPERATURE COALIFICATION MODELLING

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Abstract

The possibility that coal rank can remain “frozen” or static over a long period of time has important implications for time‐temperature coalification modelling. In the study area in southern Israel, the relationship between the 0.5‐0.8% Ro vitrinite iso‐reflectance contours and the strata (concordant in the Permian‐Jurassic sequence, discordant to the disconformably overlying Cretaceous) indicates that coalification within the Permo‐Trissic succession predated the development of the basal‐Cretaceous unconformity. The fact that coalification has remained static since at least Late Jurassic time, i.e. for more than 140 million yrs. suggests that the given coal rank was stable under the temperatures that subsequently prevailed. Examples of preserved pre‐deformation coalification are widespread elsewhere. Preservation of coal rank, static over long intervals due either to prolonged heating at constant temperature or too cooling, requires the existence of a state of coalification‐temperature pseudo‐equilibrium. Among the major implications is that the minimum temperature at which a certain coal rank cab be attined is the pseudo‐equilibrium temperature for this rank. Coalification would not proceed beyond this rank, regardless of the duration of heating, unless the temperature exceeded its pseudo‐equilibrium level. Hence, since coalification reactions are irreversible, a measured coal rank is actually a “minimum thermometer” for the maximum temperature experienced by the rock. This further implies that time‐temperature coalification modelling should be designed to allow for a discontinous process and for the slowing‐down of coalification rate with time.

Original languageEnglish
Pages (from-to)327-344
Number of pages18
JournalJournal of Petroleum Geology
Volume15
Issue number2
DOIs
StatePublished - 1 Jan 1992

ASJC Scopus subject areas

  • Fuel Technology
  • Energy Engineering and Power Technology
  • Geology
  • Earth and Planetary Sciences (miscellaneous)

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