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191.
192.
甘肃省宁正矿区新庄井田位于宁县县城南约15 km处,矿区面积208 km2,属于大型井田,煤炭资源量达19. 25亿t。从煤的物理性质、煤岩性质、煤的化学性质和工艺性能等方面分析,认为矿区的煤具有中高挥发分、低灰、低硫—中硫、低磷、高发热量、弱粘结,高热稳定性、较低软化温度灰、较难磨、易选—中等可选的特点,煤类主要为不粘煤,其次为弱粘煤,少量中强粘结煤,原煤或浮选后的浮煤可作为动力用煤、气化用煤等。 相似文献
193.
194.
Coalfields in North China contain six to seven coal seams in the Permo-Carboniferous strata. The coal seams are underlain by the Ordovician limestone. Large-scale dewatering or depressurizing of the karst aquifer was considered essential to avoid water inrushes and keep the mines safely operational. This practice, however, has caused water supply shortage in the mining areas. The most effective solution to this conflict is to use the uncontaminated karst water from the mines for water supply. This paper explores a management model to maximize the utilization of the karst water while maintaining the safe operation of the mines. The model can provide essential information on water resource distribution for decision makers. The model was applied to the Dongshan Coal Mine in Taiyuan City, China. 相似文献
195.
Study on tectonic fractures based on the inversion of tectonic stress fields is an effective method. In this study, a geological model was set up based on geological data from the Hudi Coal Mine, Qinshui Basin, a mechanical model was established under the condition of rock mechanics and geostress, and the finite element method was used to simulate the paleotectonic stress field. Based on the Griffith and Mohr-Coulomb criterion, the distribution of tectonic fractures in the Shanxi Formation during the Indosinian, Yanshanian, and Himalayan period can be predicted with the index of comprehensive rupture rate. The results show that the acting force of the Pacific Plate and the India Plate to the North China Plate formed the direction of principal stress is N-S, NW-SE, and NE-SW, respectively, in different periods in the study area. Changes in the direction and strength of the acting force led to the regional gradients of tectonic stress magnitude, which resulted in an asymmetrical distribution state of the stress conditions in different periods. It is suggested that the low-stress areas are mainly located in the fault zones and extend along the direction of the fault zones. Furthermore, the high-stress areas are located in the junction of fold belts and the binding site of multiple folds. The development of tectonic fractures was affected by the distribution of stress intensity and the tectonic position of folds and faults, which resulted in some developed areas with level Ⅰ and Ⅱ. There are obvious differences in the development of tectonic fractures in the fold and fault zones and the anticline and syncline structure at the same fold zones. The tectonic fractures of the Shanxi Formation during the Himalayan period are more developed than those during the Indosinian and Yanshanian period due to the superposition of the late tectonic movement to the early tectonic movement and the differences in the magnitude and direction of stress intensity. 相似文献
196.
Color, a readily perceived feature of natural earth materials, including mine waste, often represents compositional variation
as a result of oxidative processes involving Fe. Near surface samples from excavated trenches in a mine-waste rock pile were
collected to investigate the relationship between color and contents of Fe, Cu, and S. The silt+clay fraction (<0.05 mm) was
isolated from recognizable colored material of the bulk sample for determination of pH, total and extractable Fe and Cu, and
bulk mineralogy. Rock fragments within the pile exhibited coatings of crystalline gypsum and amorphous Fe. These coatings
result from weathering (secondary products) and play important roles in surface reactions of waste rock piles, such as adsorption
of anions (SO4
2–) or coprecipitation of Fe with Cu. The correlation between color (Hurst method) and extractable Fe was high. Although color
is influenced by site conditions such as original mineral composition, materials handling, weathering conditions etc., the
results suggest that color measurements may provide an inexpensive and rapid estimation for secondary iron compounds and associated
sorbed elements.
Received: 5 April 1998 · Accepted: 30 June 1998 相似文献
197.
A minesoil has developed over 5 years oxidative exposure on sulphide concentrate tailings (ca. 1 wt.% As) at the Macraes mesothermal gold mine, New Zealand. The minesoil has a dry crust which has formed due to evaporative drying. This dry crust is enriched in arsenic (ca. 5 wt.% As) as scorodite (FeAsO4·2H2O) because of upward mobility of dissolved arsenic during drying. Similar enrichment of arsenic has occurred along the walls of desiccation cracks which extend over 1 m into the minesoil. Capping of the tailings and minesoil with wet tailings (pH=8) results in dissolution of scorodite and remobilization of arsenic on the millimetre scale. Experimental capping of the minesoil with wet calcium carbonate remobilized some arsenic from scorodite on the centimetre scale, but much original arsenic enrichment was preserved after 400 days. A layer of gypsum (CaSO4·2H2O) and iron oxyhydroxide cementation developed at the interface between the minesoil and the experimental calcium carbonate cap, restricting water flow. This layer was ca. 1 mm thick after 400 days. Theoretical comparison between advection and diffusion in the minesoil suggests that diffusion is an important mechanism for chemical mobility on the 1–50-year time scale. However, advection can be important in secondary porosity of the dry crust of the minesoil and water penetrates this zone at a rate of 1.5 mm/day. 相似文献
198.
Mobilization and attenuation of heavy metals within a nickel mine tailings impoundment near Sudbury, Ontario, Canada 总被引:1,自引:0,他引:1
R. G. McGregor D. W. Blowes J. L. Jambor W. D. Robertson 《Environmental Geology》1998,36(3-4):305-319
The oxidation and the subsequent dissolution of sulfide minerals within the Copper Cliff tailings area have led to the release
of heavy metals such as Fe, Ni, and Co to the tailings pore water. Dissolved concentrations in excess of 10 g/l Fe and 2.2
g/l Ni have been detected within the shallow pore water of the tailings, with increasing depth these concentrations decrease
to or near analytical detection limits. Geochemical modelling of the pore-water chemistry suggests that pH-buffering reactions
are occurring within the shallow oxidized zones, and that secondary phases are precipitating at or near the underlying hardpan
and transition zones. Mineralogical study of the tailings confirmed the presence of goethite, jarosite, gypsum, native sulfur,
and a vermiculite-type clay mineral. Goethite, jarosite, and native sulfur form alteration rims and pseudo-morphs of the sulfide
minerals. Interstitial cements, composed of goethite, jarosite, and gypsum, locally bind the tailings particles, forming hardpan
layers. Microprobe analyses of the goethite indicate that it contains up to 0.6 weight % Ni, suggesting that the goethite
is a repository for Ni. Other sinks detected for heavy metals include jarosite and a vemiculite-type clay mineral which locally
contains up to 1.6 weight % Ni. To estimate the mass and distribution of heavy metals associated with the secondary phases
within the shallow tailings, a series of chemical extractions was completed. The experimental design permitted four fractions
of the tailings to be evaluated independently. These four fractions consisted of a water-soluble, an acid-leachable, and a
reducible fraction, as well as the whole-rock total. Twenty-five percent of the total mass of heavy metals was removed in
the acid-leaching experiments, and 100% of the same components were removed in the reduction experiments. The data suggest
that precipitation/coprecipitation reactions are providing an effective sink for most of the heavy metals released by sulfide
mineral oxidation. In light of these results, potential decommissioning strategies should be evaluated with the recognition
that changing the geochemical conditions may alter the stability of the secondary phases within the shallow tailings.
Received: 9 April 1997 · Accepted: 21 July 1997 相似文献
199.
对Bayes逐步判别法在矿井突水水源判别中的应用进行研究分析。选用六大常规离子( Ca2+、Mg2+、K++Na+、SO42-、Cl-、HCO3-)作为判别因子,建立Bayes逐步判别分析模型,以内蒙唐家汇矿区突水水源判别为例,在建立的判别模型回判检验准确率仅60%,分析原因可能与选定的特征判别因子对该矿区水样分类影响能力较弱有关。增加总硬度、碱度、PH值和矿化度作为判别因子,重新建立Bayes判别分析模型,使回判准确率提高至90%,证明适当增加特征判别因子对改善Bayes逐步判别模型的可靠性和稳定性有利。经对唐家会矿区的3个未知样本进行了判别分析,并与距离判别法和模糊综合评判法判别结果对比,结果表明Bayes逐步判别模型准确性较好,判别准确率与距离判别结果完全相同,而优于模糊综合评判方法。在合理选取特征判别因子的情况下,Bayes逐步判别法是目前矿井突水水源判别的有效方法。 相似文献
200.
Abstract. Chemical and sulfur isotopic compositions were obtained for a series of rocks within the chert‐clastic sequence surrounding the Kajika massive sulfide ore horizon at Shibukawasawa in the Ashio copper‐mining district, Ashio Terrane, central Japan. The sequence is lithologically classified into three units: chert, siliceous shale with basic volcanics, and sandstone‐shale, in ascending stratigraphic order. The Kajika ore horizon corresponds to the lowermost part of the unit that contains siliceous shale with basic volcanics. The rocks around the Kajika ore horizon are enriched in P2O5 (max. 0.22 %), Ba (max. 2400 ppm), Cu (595 ppm), V (323 ppm), Pb (168 ppm), Zn (124 ppm), and Mo (24 ppm) in siliceous shale; and Ba (4220 ppm), Zr (974 ppm), Cr (718 ppm), Ni (492 ppm), V (362 ppm), Zn (232 ppm), Nb (231 ppm), and Co (71 ppm) in the basic volcanics. The siliceous shale is enriched in a number of redox‐sensitive elements such as Cu, V, Pb, Zn, and Mo, which are known to be enriched in black shale and anoxic and hydrothermal sediments. The δ34S values of sulfides in the chert and sandstone‐shale lie in the range of 0±2 %, and those in the siliceous shale range from ‐5 to ‐14 %. The measured δ34S values in the basic volcanics are ‐0.3, ‐2.7, and ‐31.5 %. These heavier δ34S signatures (around 0 %) recorded throughout the sequence indicate that the rocks formed under anoxic bottom‐water conditions. Slightly lighter δ34S values recorded in siliceous shale might reflect significant mixing of sulfides that formed by sulfate‐reducing bacteria in an overlying oxic environment. The long‐term duration of anoxic conditions indicated by the heavier δ34S signature is considered to have played an important role in protecting the Kajika sulfide ores from oxidative decomposition and preserving the ores in sedimentary accumulations. 相似文献