Vertical Diversity of Coalbed Methane Content and its Geological Controls in the Qingshan Syncline, Western Guizhou Province, China

A petrographic coal structure of Late Permian coals from the Liupanshui coalfield, Western Guizhou, SW China, has been distinguished for its novel macro-lithological characteristics. Petrographic, mineralogical and geochemical studies have been conducted for a typical coal sample (No.3 coal, Songhe coalmine, Panzhou County, China) and its geological genesis and significance for coalbed methane (CBM) evaluation is accordingly discussed. It was found that coal is characterized by a banded structure with intensively fractured vitrain sublayers, where a great number of fractures were developed and filled with massive inorganic matter. The study of coal quality, coal petrography, mineralogy and lanthanides and yttrium (REY) geochemistry of the infilling mineral matter (IMM) indicates that this fractured coal structure resulted from the tissues of coal-forming plants or coal matrix shrinkage, as well as the precipitation of calcium rich groundwater and the addition of terrigenous materials. The coal depositional environment and coal-forming plant are considered to have played a role in inducing the special fractures. This provides a scientific reference for the study of CBM for coal with this fractured structure, such as the Late Permian coal from the western border of Guizhou Province, SW China.

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The Methane Content of San Juan Basin Coal: Implications for Coalbed Methane Resource Assessments

10.2118/10804-ms ◽

1982 ◽

Author(s):

Douglas M. Smith ◽

Frank L. Williams ◽

Tet Sato ◽

Young H. Lee ◽

Rodney D. Malone

Keyword(s):

Coalbed Methane ◽

Methane Content ◽

San Juan ◽

San Juan Basin

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Polystichum alluvium (subg. Haplopolystichum; Dryopteridaceae), a new cave species from Guizhou, China, with reference to new distribution records of P. leveillei

Phytotaxa ◽

10.11646/phytotaxa.323.1.8 ◽

2017 ◽

Vol 323 (1) ◽

pp. 88

Author(s):

NGAN THI LU ◽

YI-FAN DUAN ◽

LI-BING ZHANG

Keyword(s):

Southwest China ◽

Iucn Red List ◽

Red List ◽

Guizhou Province ◽

Fern Species ◽

Southern Central ◽

Ca 50 ◽

Iucn Red List Criteria ◽

Western Guizhou ◽

New Distribution

A new fern species, Polystichum alluvium, a member of P. subg. Haplopolystichum (Dryopteridaceae), is described from Guizhou Province in Southwest China. Polystichum alluvium is similar to P. lanceolatum in having small habit and subcoriaceous pinnae, but the former has oblanceolate laminae with basal pinnae strongly contracted toward lamina base, deltoid-ovate and sessile pinnae, and very short spinules on acroscopic pinna margins or no spinules, while the latter has lanceolate laminae with basal pinnae not contracted toward lamina base, oblong and petiolate pinnae, and long spinules on acroscopic pinna margins. Polystichum alluvium was found from the alluvial bottom of a karst cave at an elevation of 1410 m with humid and shady conditions and is currently known from one population with ca. 50 plants in western Guizhou. It is classified as Critically Endangered (CR) following IUCN Red List criteria. We also expanded the distribution of P. leveillei to southern-central Guizhou based on our new collections.

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Method for Determining the Coalbed Methane Content with Determination the Uncertainty of Measurements

Archives of Mining Sciences ◽

10.1515/amsc-2016-0032 ◽

2016 ◽

Vol 61 (2) ◽

pp. 443-456 ◽

Cited By ~ 2

Author(s):

Nikodem Szlązak ◽

Marek Korzec

Keyword(s):

Coalbed Methane ◽

Coal Sample ◽

Methane Content ◽

Underground Mines ◽

Methane Drainage ◽

Uncertainty Of Measurements ◽

Underground Coal Mines ◽

Mining Works ◽

Prevention Methods ◽

Two Stages

AbstractMethane has a bad influence on safety in underground mines as it is emitted to the air during mining works. Appropriate identification of methane hazard is essential to determining methane hazard prevention methods, ventilation systems and methane drainage systems. Methane hazard is identified while roadways are driven and boreholes are drilled. Coalbed methane content is one of the parameters which is used to assess this threat. This is a requirement according to the Decree of the Minister of Economy dated 28 June 2002 on work safety and hygiene, operation and special firefighting protection in underground mines. For this purpose a new method for determining coalbed methane content in underground coal mines has been developed. This method consists of two stages - collecting samples in a mine and testing the sample in the laboratory. The stage of determining methane content in a coal sample in a laboratory is essential. This article presents the estimation of measurement uncertainty of determining methane content in a coal sample according to this methodology.

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