Details:

Alternative Title:
J Geochem Explor
Personal Author:
Karacan, C. Özgen ; Olea, Ricardo A.
Karacan, C. Özgen ; Olea, Ricardo A. Less -
Description:
Chemical properties of coal largely determine coal handling, processing, beneficiation methods, and design of coal-fired power plants. Furthermore, these properties impact coal strength, coal blending during mining, as well as coal's gas content, which is important for mining safety. In order for these processes and quantitative predictions to be successful, safer, and economically feasible, it is important to determine and map chemical properties of coals accurately in order to infer these properties prior to mining. Ultimate analysis quantifies principal chemical elements in coal. These elements are C, H, N, S, O, and, depending on the basis, ash, and/or moisture. The basis for the data is determined by the condition of the sample at the time of analysis, with an "as-received" basis being the closest to sampling conditions and thus to the in-situ conditions of the coal. The parts determined or calculated as the result of ultimate analyses are compositions, reported in weight percent, and pose the challenges of statistical analyses of compositional data. The treatment of parts using proper compositional methods may be even more important in mapping them, as most mapping methods carry uncertainty due to partial sampling as well. In this work, we map the ultimate analyses parts of the Springfield coal from an Indiana section of the Illinois basin, USA, using sequential Gaussian simulation of isometric log-ratio transformed compositions. We compare the results with those of direct simulations of compositional parts. We also compare the implications of these approaches in calculating other properties using correlations to identify the differences and consequences. Although the study here is for coal, the methods described in the paper are applicable to any situation involving compositional data and its mapping.
Subjects:
[+]
Article Calorific Value Coal Quality Compositional Modeling Regression Springfield Coal
Source:
J Geochem Explor. 186:24-35
Pubmed ID:
29290643
Pubmed Central ID:
PMC5743214
Document Type:
Journal Article
Funding:
CC999999/Intramural CDC HHS/United States
Collection(s):
CDC Public Access
Main Document Checksum:
[+]
urn:sha256:79dbc30d5c237590580598ced72852c078cefaf114980adc17fddadfaa6fb60b
Download URL:
https://stacks.cdc.gov/view/cdc/50717/cdc_50717_DS1.pdf
File Type:

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