Modern and Ancient Coal-Forming Environments
Geochemical and analytical implications of extensive sulfur retention in ash from Indonesian peats
-
Published:January 01, 1993
Sulfur is an analyte of considerable importance to the complete major element analysis of ash from low-sulfur, low-ash Indonesian peats. Most analytical schemes for major element peat- and coal-ash analyses, including the inductively coupled plasma atomic emission spectrometry method used in this work, do not permit measurement of sulfur in the ash. As a result, oxide totals cannot be used as a check on accuracy of analysis. Alternative quality control checks verify the accuracy of the cation analyses. Cation and sulfur correlations with percent ash yield suggest that silicon and titanium, and to a lesser extent, aluminum, generally originate as minerals, whereas magnesium and sulfur generally originate from organic matter. Cation correlations with oxide totals indicate that, for these Indonesian peats, magnesium dominates sulfur fixation during ashing because it is considerably more abundant in the ash than calcium, the next most important cation in sulfur fixation.
- Asia
- Borneo
- cations
- Cenozoic
- chemical composition
- coal
- emission spectra
- Far East
- Holocene
- Indonesia
- inorganic materials
- Kalimantan Indonesia
- Malay Archipelago
- mineral composition
- modern
- organic residues
- oxides
- peat
- petrography
- provenance
- Quaternary
- sedimentary rocks
- sediments
- spectra
- sulfur
- Sumatra
- ash analysis