查看更多>>摘要:Due to high energy density,clean combustion products and abundant resources,natural gas hydrates(NGHs)have been regarded as an important clean energy source with the potential for large-scale development and utilization.However,pilot tests in NGHs show that their production rates are far below commercial needs.Multilateral well technology may lead to a solution to this problem because it can dramatically expand the drainage area of production wells.This paper presents the practical rate transient analysis for multilateral horizontal wells in NGHs.In developing solution to the diffusivity equation of multilateral horizontal wells in NGHs,the superposition principle and reciprocity are applied.We wrote the governing equation in cylindrical coordinates to describe the NGH flow process.We used the moving boundaries and dissociation coefficients to model the solid-to-gas transition process in hydrates.To obtain solutions for flow in hydrate reservoirs,we used Laplace transforms and the Stehfest numerical inversion method.Superposition principle and Gaussian elimination are applied to obtain the desired solution for multilateral horizontal wells.We validated our proposed model with a com-mercial numerical simulator.By performing sensitivity analyses,effects on production behavior of the number of branches,dissociation coefficient,radius of the region with dissociated hydrate,and dispersion ratio are determined.A synthetic case study is conducted to show the typical production behaviors.
查看更多>>摘要:Caverns and tunnels are constantly exposed to dynamic loads,posing a potentially significant threat to the safety of rock structures.To facilitate the understanding of dynamic fracture around openings,a series of discrete element models were established to numerically examine the effect of hole shape on dynamic mechanical properties and crack evolution.The results indicate that the existence of a hole greatly reduces dynamic strength,and the reduction is closely related to hole shape.The strain variation of pre-holed specimens is more complicated and even larger than the value of intact specimens.Although crack initiation differs for varying hole shapes,the entire structural collapse of specimens is controlled by macro shear cracks along the diagonal direction of the specimen,which are effectively identified by velocity trend arrows and contact force distribution.Finally,comparative analysis between failure pattern of pre-holed specimens under static and dynamic loads were conducted.
Agnes ModigaOrevaoghene Eterigho-IkelegbeSamson Bada
36-47页
查看更多>>摘要:This study explores the extraction of rare earth elements(REEs)from high-ash run-of-mine and discard coal sourced from the Waterberg Coalfield.Three distinct methods were employed:(1)ultrasonic-assisted caustic digestion;(2)direct acid leaching;and(3)ultrasonic-assisted caustic-acid leaching.Inductively coupled plasma mass spectrometry was utilized to quantify REEs in both the coals and resultant leachates.Leaching the coals with 40%NaOH at 80℃,along with 40 kHz sonication,yielded a total rare earth element(TREE)recovery of less than 2%.Notable enrichment of REEs was observed in the run-of-mine and discard coal by 17%and 19%,respectively.Upon employing 7.5%HCl,a recovery of less than 11.0%for TREE was achieved in both coal samples.However,leaching the caustic digested coal samples with 7.5%HCl significantly enhanced the TREE recovery to 88.8%and 80.0%for run-of-mine and discard coal,respectively.X-ray diffraction analysis identified kaolinite and quartz as the predominant minerals.Scanning electron microscopy-energy dispersive microanalysis revealed monazite and xenotime as the REE-bearing minerals within the coal samples.These minerals were found either liberated,attached to,or encapsulated by the clay-quartz matrices.Further mineralogical assessments highlighted the increased REE concentrations in coals post-caustic digestion and subsequent recovery during acid leaching.This increase was attributed to the partial dissolution of kaolinite encapsulating the RE-phosphates and the digestion of REE-bearing minerals.Notably,undissolved REE-bearing elements in the caustic-acid-leached coal indicated the necessity of harsh leaching conditions to augment REE recovery from these coal samples.
查看更多>>摘要:Co-thermal chemical conversion of coal and biomass is one of the important ways to realize efficient and clean utilization of coal.In this study,a typical Ningdong coal-Yangchangwan bituminous coal and cow manure were used to study the synergistic effect of intrinsic alkali,alkaline earth metals(AAEM)and organic matter on the co-gasification of coal and biomass by thermogravimetry analyzer(TG).The results showed that AAEM had obvious synergistic promotion effect on the gasification of a bituminous coal-cow manure mixture in the isothermal gasification(1000℃),whereas the organic matter will show the opposite effect on the process.To further investigate the effect of organic matter on the gasification process,the influence of organic matter on non-isothermal(25-1000℃)gasification reaction was investigated with heat-ing rate of 10℃/min,the kinetic parameters of the gasification reaction were obtained by Coats-Redfern method.The increase of biomass mass fraction in the sample facilitates the migration of alkali metals from the material to the solid phase.The possible mechanism of the synergistic effect of intrinsic AAEM/organic matter on the co-gasification process was proposed.
查看更多>>摘要:Catalytic coal gasification is a promising technology in the field of clean coal utilization.A comprehensive understanding of mechanisms,reaction kinetic,and reactor model is crucial.This article summarizes and analyzes the catalytic mechanisms of key reactions,such as C-O2,C-CO2,C-H2O,and CO-H2.It also compares various kinetic models,including shrinking core model,random pore model,volume model and their respective modifications.Additionally,the article delves into math-ematical modellings of catalytic coal gasification,encompassing molecular models or density functional theory,empirical model,computational fluid dynamics,Aspen modeling,and artificial neural network.The aim is to provide a roadmap for the development and scale up of reactors used in catalytic coal gasification.
查看更多>>摘要:Ground subsidence caused by extraction of longwall panels has always been a great concern all over the world.Conven-tional longwall mining system(CLMS)gives rise to wavy subsidence causing great damage to surface structures.A coal mine in Shanxi,China,utilizes a split-level longwall layout(SLL)for a sub-horizontal No.8 coal seam to improve the cavability of mudstone interlayer and top coal.This layout,however,also produced unexpectedly favorable surface subsid-ence.Subsidence of No.6 and No.8 longwall panels was monitored while mining was conducted.Field instrumentation and numerical simulation were carried out.It is demonstrated that an asymmetric subsidence profile with stepped subsid-ence and cracks occurred on the tailgate side but relatively mild and smooth deformation on the other.Due to elimination of conventional parallelepiped gate pillar,No.6 and No.8 gobs were connected.Extraction of two SLL panels acted as one supercritical panel.The maximum possible subsidence was reached which lowers the likelihood of potential future secondary subsidence as underground gob fractures and voids have closed.Therefore,SLL is more favorable for post-mining land reuse as gobs are more consolidated underground.
查看更多>>摘要:Solvent-extracted fractions of six Indian coal samples of different ranks were investigated using multiple geochemical,pet-rological and spectroscopic proxies and an attempt was made to indicate possible fingerprint regions for different polycyclic aromatic hydrocarbons(PAH)with the help of excitation-emission matrix(EEM).In this study,for the very first time,the influence of rank and maturation of organic matter in the characterisation of coal solvent-extracts from Indian coals were perceived from the viewpoint of fluorescence EEM.Vitrinite reflectance(VRo)values were used to determine the general ranks of the original coal samples viz.lignite,subbituminous,bituminous and anthracite.Different fluorescence peak regions corresponding to different fused aromatic ring(FAR)systems were delineated using the EEM and their indicative depositional environments could be inferred.Our observations indicate that solvent-extracted fractions of low rank coals comprise of a larger number of shorter carbon chains compared to the other samples.For the low rank coal samples,the solvent-extracts show a strong humic influence and the presence of smaller PAH rings while for the medium rank coals,the extracted frac-tions tend to show a more bimodal distribution of PAHs,possibly comprising of different sized PAHs.Higher fluorescence sensitivity and quick response of smaller PAHs impart a singular centralised region in the EEM for the low rank coal samples while interference in the fluorescence of differently sized PAHs indicate a multimodal distribution of the fluorophores in the medium rank coals.The high rank coal used in this study shows a bimodal distribution with very low intensity of the peaks,indicating the low abundance of extractable macromolecules,possibly as a result of deformation.
查看更多>>摘要:Coalbed methane(CBM)recovery is attracting global attention due to its huge reserve and low carbon burning benefits for the environment.Fully understanding the complex structure of coal and its transport properties is crucial for CBM develop-ment.This study describes the implementation of mercury intrusion and μ-CT techniques for quantitative analysis of 3D pore structure in two anthracite coals.It shows that the porosity is 7.04%-8.47%and 10.88%-12.11%,and the pore connectivity is 0.5422-0.6852 and 0.7948-0.9186 for coal samples 1 and 2,respectively.The fractal dimension and pore geometric tortuos-ity were calculated based on the data obtained from 3D pore structure.The results show that the pore structure of sample 2 is more complex and developed,with lower tortuosity,indicating the higher fluid deliverability of pore system in sample 2.The tortuosity in three-direction is significantly different,indicating that the pore structure of the studied coals has significant anisotropy.The equivalent pore network model(PNM)was extracted,and the anisotropic permeability was estimated by PNM gas flow simulation.The results show that the anisotropy of permeability is consistent with the slice surface porosity distribution in 3D pore structure.The permeability in the horizontal direction is much greater than that in the vertical direc-tion,indicating that the dominant transportation channel is along the horizontal direction of the studied coals.The research results achieve the visualization of the 3D complex structure of coal and fully capture and quantify pore size,connectivity,curvature,permeability,and its anisotropic characteristics at micron-scale resolution.This provides a prerequisite for the study of mass transfer behaviors and associated transport mechanisms in real pore structures.
查看更多>>摘要:In order to study the mechanics,acoustic emission(AE)and electromagnetic emission(EME)response law of bursting liability coal at different loading rates,uniaxial compression tests were carried out on coal mass from Konggu Coal Mine.The corresponding relations among mechanical properties,AE and EME signals in the process of coal failure under loading were analyzed,and the energy evolution law of coal failure with bursting liability under loading rate was discussed.The results show that within a certain range of loading rate,the higher the loading rate,the higher the compressive strength and peak load of bursting liability coal,and the shorter the time for coal to reach the peak load.Under different loading rates,the mechanics,AE and EME signals of coal samples can be well corresponded.When the loading rate is low,the number of blocks destroyed of coal sample is large and the block size is relatively small,and the blocks are mainly scattered around the test platform.When the loading rate is high,the number of damaged blocks is relatively small and the block size is relatively large,and the blocks are far away from the test bench.When loading at a low rate,the internal cracks in coal can be fully developed and connected,and the energy release rate is relatively uniform in the process of loading and failure of coal sam-ple.In the case of high loading rate,the energy release rate of coal sample in the loading process is much smaller than that in the moment of failure.Combining the above test results with the actual situation of the working face,it can be concluded that the total energy stored in the coal of fast mining increases and the threshold of impact decreases compared with that of slow mining.Therefore,under the disturbance of external dynamic load,rapid mining is more likely to induce rock burst.
Robert C.ReedyBridget R.ScanlonDavin A.BagdonasJames C.Hower...
151-161页
查看更多>>摘要:The renewable energy industry is heavily reliant on rare earth elements,underscoring the need to develop resources and production.The objective of this work was to estimate coal ash resources and potential for extraction of rare earth ele-ments using data for the US.Data on spatiotemporal variability in coal ash resources and disposition were compiled from various federal databases and rare earth elements levels in ash were compiled from the literature.Results show that~52 gigatons(Gt)of coal were produced in the US(1950-2021).Power plants account for most of the coal use,particularly since 1980.Coal ash(5.3 Gt)represents a mean of 10%of coal by weight,ranging from 6%for subbituminous to 14%for lignite.About 70%of coal ash is potentially accessible for rare earth element extraction(1985-2021)and was disposed in landfills and ponds with the remaining coal ash used onsite or sold.Median values of total rare earth elements are much higher in ashes derived from the Appalachian Basin(median 431 mg/kg)than in the Illinois(282 mg/kg)or Powder River basins(264 mg/kg).Considering the market value of rare earth oxides,potentially accessible ash volumes,and percent rare earth element extraction(30%Appalachian and Illinois Basins;70%Powder River Basin)results in an estimated$8.4 billion value.This study provides fundamental information on accessible coal ash resources in the US,linkages to coal sources,and preliminary estimates of rare earth element levels for future development within the US.
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