Global ETD Search

1	Post-stack inversion of seismic reflection data from the Belvoir Coalfield Gang, Tian January 1995 (has links) Post-Stack inversion of reflection data in seismic exploration can be used to obtain detailed information about lithology variations in the zone of interest. Generalized Linear Inversion (GLI) has previously been applied as a useful tool to achieve this. The purpose of my investigation is to apply GLI to data from the Coal Measures. It is known that in the Coal Measures the most strongly reflecting horizons are the coal seams, which are the exploration targets. In the seismic bandwidth they are thin beds, which causes particular problems associated with vertical resolution for the inversion. The method is applied to a seismic line from the Belvoir Coalfield supplied by British Coal. In order to get better relative amplitudes and to keep the same bandwidth down the whole section, the data were carefully reprocessed using the ProMAX software. Wireline log data from two boreholes intersected by the seismic line were edited to generate acoustic impedance logs as functions of time. Software was developed to implement GLI, and tested on synthetic data before applying it to the reprocessed data. The initial guesses for earth and wavelet models at the boreholes were obtained after systematic studies to determine the best strategy. The construction of the initial guess for the boundary locations elsewhere on the section is very critical for the success of the search for the global minimum. A combination of structural interpretation and the inversion results obtained from the previous trace was found to do the best job. I have tried to invert separately for the boundary locations, acoustic impedances and the wavelet, with the wavelet parameterized in the frequency domain. I found that, provided that the wavelet extracted at a borehole is a good estimate with low error energy, the most successful strategy is just to invert for the boundary locations, keeping the acoustic impedances and the extracted wavelet fixed. If the extracted wavelet is not a good estimate, then parameterizing the wavelet in the frequency domain and optimizing those parameters at the borehole is a useful approach. None of the implemented inversion strategies produced a perfect result. Discrepancies were due to the difficulty in obtaining true relative amplitude values on the processed section. The inversion results and systematic studies on the field dataset indicate that the assumptions of the convolutional model are not satisfied by the processed section. 551.22 Coal seam boundary location
2	The effect of seam dip on the application of the longwall top coal caving method for inclined thick seams Dao, Hong Quang, Mining Engineering, Faculty of Engineering, UNSW January 2010 (has links) This thesis presents the results of research into the potential of underground mining methods applicable to inclined thick seams (thickness greater than 3.5m, and seam dip of 15 - 35 degree) in the Quangninh coalfield, Vietnam. The primary objectives of this research are to investigate the most suitable underground methods applicable to inclined thick seams in the Quangninh coalfield and to improve understanding of the operational and geotechnical issues associated with the application of chosen methods in thick seams with steeply dipping conditions. From a risk and operational assessment, the Longwall Top Coal Caving (LTCC) method is considered most appropriate for inclined thick seams under the current mining conditions in Vietnam. The LTCC method offers great potential for the efficient extraction of thick seams by caving coal from the upper section during the mining of the lower section. This significantly reduces the development cost per tonne. Compared to High reach Single Pass Longwalling, the LTCC method offers a low extraction height, resulting in smaller and less expensive equipment and better face conditions. Results from this study identified that for extracting an inclined thick seam, the face retreating along the strike has better operational advantages and better cavability than the face retreating updip or downdip of the seam. The operational issues of the LTCC method when extracting inclined seams are: the stability of the support, transport in the mine, and the difficulties in roof control at the transition between face ends and the gateroads. In terms of geotechnical issues, better cavability of the top coal is anticipated for flat coal seams compared to inclined seams. In addition, the chain pillar for flat coal seams is subjected to a higher vertical stress distribution than that of inclined ones. An improved cavability assessment method for the categorisation of the cavability of the top coal with four categories, ranging from 1 (excellent cavability) to 4 (very poor cavability), was suggested to assist the feasibility and design stages of the LTCC application. The cavability assessment method was conducted by numerical analysis combined with back analysis from the database obtained from past LTCC practices. Thick coal seam Longwall Top Coal Caving Inclined thick seam
3	The effect of seam dip on the application of the longwall top coal caving method for inclined thick seams Dao, Hong Quang, Mining Engineering, Faculty of Engineering, UNSW January 2010 (has links) This thesis presents the results of research into the potential of underground mining methods applicable to inclined thick seams (thickness greater than 3.5m, and seam dip of 15 - 35 degree) in the Quangninh coalfield, Vietnam. The primary objectives of this research are to investigate the most suitable underground methods applicable to inclined thick seams in the Quangninh coalfield and to improve understanding of the operational and geotechnical issues associated with the application of chosen methods in thick seams with steeply dipping conditions. From a risk and operational assessment, the Longwall Top Coal Caving (LTCC) method is considered most appropriate for inclined thick seams under the current mining conditions in Vietnam. The LTCC method offers great potential for the efficient extraction of thick seams by caving coal from the upper section during the mining of the lower section. This significantly reduces the development cost per tonne. Compared to High reach Single Pass Longwalling, the LTCC method offers a low extraction height, resulting in smaller and less expensive equipment and better face conditions. Results from this study identified that for extracting an inclined thick seam, the face retreating along the strike has better operational advantages and better cavability than the face retreating updip or downdip of the seam. The operational issues of the LTCC method when extracting inclined seams are: the stability of the support, transport in the mine, and the difficulties in roof control at the transition between face ends and the gateroads. In terms of geotechnical issues, better cavability of the top coal is anticipated for flat coal seams compared to inclined seams. In addition, the chain pillar for flat coal seams is subjected to a higher vertical stress distribution than that of inclined ones. An improved cavability assessment method for the categorisation of the cavability of the top coal with four categories, ranging from 1 (excellent cavability) to 4 (very poor cavability), was suggested to assist the feasibility and design stages of the LTCC application. The cavability assessment method was conducted by numerical analysis combined with back analysis from the database obtained from past LTCC practices. Thick coal seam Longwall Top Coal Caving Inclined thick seam
4	Proposta para a estimativa da resistência à compressão uniaxial in situ de camadas de carvão com a utilização de geofísica / Methodology to estimate the in situ uniaxial compressive strength of coal seams based on geophysical data Gonzatti, Clovis 08 February 2008 (has links) A arte de dimensionar pilares em minas subterrâneas de carvão tem sido objeto de pesquisa há mais de 100 anos no mundo inteiro. A maioria dos métodos de dimensionamento de pilares para a lavra segundo o método \"câmara e pilares\" se vale de parâmetros de resistência e geométricos das camadas de carvão. A resistência in situ da camada de carvão (S1) é um desses parâmetros. No Brasil, na Bacia Carbonífera Sul-Catarinense, uma nova camada de carvão, a Bonito, passou a ser minerada em volume considerável a partir da década de 1990. A sua resistência in situ ainda hoje é uma incógnita. Tendo como campo experimental a camada de carvão Bonito presente na mina Fontanella, no município de Treviso - SC, foram desenvolvidos diferentes estudos de laboratório e em subsolo, visando à caracterização mecânica, estrutural e geofísica dessa camada. Adicionalmente, foram realizadas investigações sobre uma segunda camada de carvão, a Irapuá, já relativamente conhecida, presente em outras duas minas na mesma bacia carbonífera. Os estudos realizados serviram de base para a proposição de uma nova metodologia para a estimativa da resistência à compressão uniaxial in situ de camadas de carvão (S1), levando em consideração a resistência de laboratório e informações geofísicas de laboratório e in situ. Com o uso da nova metodologia, são propostos valores de resistência à compressão uniaxial in situ da camada de carvão Bonito, para diferentes condições geológico-estruturais observadas na mina Fontanella, e para a camada Irapuá, nas minas Morozini Norte e Santa Augusta Norte. / Researchers in all over the world have spent a lot of time in developing techniques for pillar design in coal underground mines that use room and pillar method. Almost all the available methods are based on strength and geometric parameters of the coal seam. One of the most important is the coal seam in situ strength (S1). In Brazil, at Sul-Catarinense Carboniferous basin, a new coal seam (Bonito seam) is being mined since the last decade. Many instability problems have occured during mining. The coal seam strength is not very well known so far. Using the Bonito seam present at Fontanella mine in Treviso - SC, different studies were performed in laboratory and in situ. In adition, another coal seam, Irapuá, was also studied. The compilation of data at different sites was used to propose a new approach to estimates of the in situ uniaxial compressive strength of coal seams (S1) using three parameters. The uniaxial compressive strength and compressional wave ultra sonic velocity are determined in laboratory using small samples, while seismic velocity is measured in large scale conditions directly at the coal seam in situ. Using the new approach, values for in situ strength at Fontanella mine are proposed and also for two mines at Irapuá coal seam, Morozini Norte and Santa Augusta Norte. Bonito coal seam Carvão Bonito Geophysical parameters In situ strength Parâmetros geofísicos Resistência in situ
5	Proposta para a estimativa da resistência à compressão uniaxial in situ de camadas de carvão com a utilização de geofísica / Methodology to estimate the in situ uniaxial compressive strength of coal seams based on geophysical data Clovis Gonzatti 08 February 2008 (has links) A arte de dimensionar pilares em minas subterrâneas de carvão tem sido objeto de pesquisa há mais de 100 anos no mundo inteiro. A maioria dos métodos de dimensionamento de pilares para a lavra segundo o método \"câmara e pilares\" se vale de parâmetros de resistência e geométricos das camadas de carvão. A resistência in situ da camada de carvão (S1) é um desses parâmetros. No Brasil, na Bacia Carbonífera Sul-Catarinense, uma nova camada de carvão, a Bonito, passou a ser minerada em volume considerável a partir da década de 1990. A sua resistência in situ ainda hoje é uma incógnita. Tendo como campo experimental a camada de carvão Bonito presente na mina Fontanella, no município de Treviso - SC, foram desenvolvidos diferentes estudos de laboratório e em subsolo, visando à caracterização mecânica, estrutural e geofísica dessa camada. Adicionalmente, foram realizadas investigações sobre uma segunda camada de carvão, a Irapuá, já relativamente conhecida, presente em outras duas minas na mesma bacia carbonífera. Os estudos realizados serviram de base para a proposição de uma nova metodologia para a estimativa da resistência à compressão uniaxial in situ de camadas de carvão (S1), levando em consideração a resistência de laboratório e informações geofísicas de laboratório e in situ. Com o uso da nova metodologia, são propostos valores de resistência à compressão uniaxial in situ da camada de carvão Bonito, para diferentes condições geológico-estruturais observadas na mina Fontanella, e para a camada Irapuá, nas minas Morozini Norte e Santa Augusta Norte. / Researchers in all over the world have spent a lot of time in developing techniques for pillar design in coal underground mines that use room and pillar method. Almost all the available methods are based on strength and geometric parameters of the coal seam. One of the most important is the coal seam in situ strength (S1). In Brazil, at Sul-Catarinense Carboniferous basin, a new coal seam (Bonito seam) is being mined since the last decade. Many instability problems have occured during mining. The coal seam strength is not very well known so far. Using the Bonito seam present at Fontanella mine in Treviso - SC, different studies were performed in laboratory and in situ. In adition, another coal seam, Irapuá, was also studied. The compilation of data at different sites was used to propose a new approach to estimates of the in situ uniaxial compressive strength of coal seams (S1) using three parameters. The uniaxial compressive strength and compressional wave ultra sonic velocity are determined in laboratory using small samples, while seismic velocity is measured in large scale conditions directly at the coal seam in situ. Using the new approach, values for in situ strength at Fontanella mine are proposed and also for two mines at Irapuá coal seam, Morozini Norte and Santa Augusta Norte. Carvão Bonito Parâmetros geofísicos Resistência in situ Bonito coal seam Geophysical parameters In situ strength
6	Image-Based Micro-Scale Modeling of Flow in Porous Media Riasi, Mohammad Sadegh January 2019 (has links) No description available. Hydrology Porous Media Micro-scale Fibrous Material Coal Seam Ultrafiltration Membrane Pore Topology Method
7	Analysis and Application of Coal Seam Seismic Waves for detection of Abandoned Mines Yancey, Daniel Jackson 12 June 2006 (has links) It is not uncommon for underground coal mining to be conducted in the proximity of abandoned underground mines that are prone to accumulate water, methane or other toxic gases, and are often either poorly mapped or without good surface survey control. Mining into such abandoned voids poses a great safety risk to personnel, equipment, and production from inundation or toxic/explosive gas release. Often, surface or underground drilling is employed to detect the mine void and evaluate the hazards, sometimes with disastrous results. The use of guided waves within coal seams can be utilized to locate voids, faults, and abrupt seam thickness changes. The use of seam waves for void detection and mine planning has tremendous value and use. To demonstrate the feasibility of abandoned mine void detection utilizing coal seam seismic waves, two in-seam reflection surveys and a transmission survey were acquired at an abandoned underground mine near Hurley, Virginia. Numerical modeling of the seam waves was examined as well. The Airy phase was observed in the synthetic and real field data. Dispersion analysis of the field data shows reasonable agreement with the dispersion characteristics of the synthetic data. Using standard commonly available seismic reflection processing tools, a known and well-mapped mine was detected and located. Detection of the mine with both surveys indicates that ``exploratory'' drilling can be replaced by noninvasive seismic methods. Location, however, was not good enough to replace drilling entirely. Hence seismic methods can be used for detection, but if a potential void is detected, focused drilling should be applied for accurate mapping and circumvention of potentially hazardous areas. / Master of Science void detection seam waves mining geophysics dispersion guided waves coal seam
8	Coal seam gas associations in the Huntly, Ohai and Greymouth regions, New Zealand Butland, Caroline January 2006 (has links) Coal seam gas has been recognised as a new, potential energy resource in New Zealand. Exploration and assessment programmes carried out by various companies have evaluated the resource and indicated that this unconventional gas may form a part of New Zealand's future energy supply. This study has delineated some of the controls between coal properties and gas content in coal seams in selected New Zealand locations. Four coal cores, one from Huntly (Eocene), two from Ohai (Cretaceous) and one from Greymouth (Cretaceous), have been sampled and analysed in terms of gas content and coal properties. Methods used include proximate, sulphur and calorifc value analyses; ash constituent determination; rank assessment; macroscopic analysis; mineralogical analysis; maceral analysis; and gas analyses (desorption, adsorption, gas quality and gas isotopes). Coal cores varied in rank from sub-bituminous B-A (Huntly); sub-bituminous C-A (Ohai); and high volatile bituminous A (Greymouth). All locations contained high vitrinite content (~85 %) with overall relatively low mineral matter observed in most samples. Mineral matter consisted of both detrital grains (quartz in matrix material) and infilling pores and fractures (clays in fusinite pores; carbonates in fractures). Average gas contents were 1.6 m3/t in the Huntly core, 4.7 m3/t in the Ohai cores, and 2.35 m3/t in the Greymouth core. The Ohai core contained more gas and was more saturated than the other cores. Carbon isotopes indicated that the Ohai gas composition was more mature, containing heavier 13C isotopes than either the Huntly or Greymouth gas samples. This indicates the gas was derived from a mixed biogenic and thermogenic source. The Huntly and Greymouth gases appear to be derived from a biogenic (by CO2 reduction) source. The ash yield proved to be the dominant control on gas volume in all locations when the ash yield was above 10 %. Below 10 % the amount of gas variation is unrelated to ash yield. Although organic content had some influence on gas volume, associations were basin and /or rank dependant. In the Huntly core total gas content and structured vitrinite increased together. Although this relationship did not appear in the other cores, in the Ohai SC3 core lost gas and fusinite are associated with each other, while desmocollinite (unstructured vitrinite) correlated positively with residual gas in the Greymouth core. Although it is generally accepted that higher rank coals will have higher adsorption capacities, this was not seen in this data set. Although the lowest rank coal (Huntly) contains the lowest adsorption capacity, the highest adsorption capacity was not seen in the highest rank coal (Greymouth), but in the Ohai coal instead. The Ohai core acted like a higher rank coal with respect to the Greymouth coal, in terms of adsorption capacity, isotopic signatures and gas volume. Two hypothesis can be used to explain these results: (1) That a thermogenically derived gas migrated from down-dip of the SC3 and SC1 drill holes and saturated the section. (2) Rank measurements (e.g. proximate analyses) have a fairly wide variance in both the Greymouth and Ohai coal cores, thus it maybe feasible that the Ohai cores may be higher rank coal than the Greymouth coal core. Although the second hypothesis may explain the adsorption capacity, isotopic signatures and the gas volume, when the data is plotted on a Suggate rank curve, the Ohai coal core is clearly lower rank than the Greymouth core. Thus, pending additional data, the first hypothesis is favoured. Coal seam gas Macroscopic analysis Mineralogical analysis Desorption Adsorption Gas quality Gas isotopes Ohai Huntly Greymouth Ash yield Vitrinite Macerals Sub-bituminous Fusinite Suggate rank Coal geochemistry Petrographic analyses Organic petrology
9	Groundwater characterisation and disposal modelling for coal seam gas recovery Taulis, Mauricio January 2007 (has links) Coal Seam Gas (CSG) is a form of natural gas (mainly methane) sorbed in underground coal deposits. Mining this gas involves drilling a well directly into an underground coal seam, and pumping out the water (CSG water) flowing through it. Presently, CSG is under exploration in New Zealand (NZ); however, there is concern about CSG water disposal in NZ mainly because of the controversy that this activity has generated in some basins in the United States (US). The first part of this thesis studies CSG water from a well in Maramarua (NZ) and compares it to water from US basins. The NZ CSG water from this well had high pH (7.8), alkalinity in the order of 360 mg/l as CaCO₃, high sodium (334 mg/l), bicarbonate (435 mg/l), and chloride (146 mg/l). These ions also occur in US CSG waters, and their concentrations follow the same trend - high sodium, bicarbonate, and chloride with low calcium, magnesium, and sulphate concentrations. Prior to this work, little detailed analyses of CSG water quality variability from a well had been carried out. A Factor Analysis of 33 Maramarua samples was conducted and revealed that about one third of the variations were due to sample degassing, which induced calcium carbonate precipitation - this was supported by experimental work (sample sparging) and geochemical modelling (MINTEQA2). This finding is important for CSG water management because, as calcium concentrations decrease, higher SAR values are generated, and this can cause problems if CSG waters are disposed on land. In the second part, this thesis assesses the potential environmental effects of disposing CSG waters in NZ by formulating management options and a simple wastewater treatment system. This was carried out by studying the ecological response (soils, plant, and aquatic life) resulting from CSG water disposal operations in the US, and by applying relevant salinity and sodicity guidelines to the interaction between soils and CSG waters from Maramarua. This work showed that similar problems are likely to occur in NZ if CSG water disposal takes place without proper controls. Such a study has never been carried out in a region before actual CSG development has taken place, so this work shows how to quantify the effects arising from CSG water disposal prior to full scale production. This can be particularly useful for CSG stakeholders wanting to develop this resource in other regions around the world. A simple treatment system using Ngakuru zeolites has proven effective in reducing the SAR of Maramarua CSG water. Laboratory results indicate that these zeolites work by exchanging sodium cations in the water by other cations contained within the zeolite structure but with slow ion exchange kinetics. The calculated sodium absorption capacity for these natural zeolites ranged from 11.3 meq/100g to 16.7 meq/100g (flow-through conditions without previous regeneration). In addition, these experiments showed that the ion exchange process is accompanied by some dissolution (sulphate, boron, TOC, sodium, calcium, magnesium, potassium and reactive silica), but mainly at the beginning of the treatment process. Nevertheless, using this system, 180 grams of zeolite material were used to treat an initial 1.83 litres of Maramarua CSG water thus reducing potential soil infiltration problems to nil. As more CSG water was treated, the zeolites kept reducing SAR values but at a lesser rate until 4.53 litres of CSG water had been treated. A step-by-step methodology to assess treatment design options for these materials has been developed and will aid future researchers and engineers. This thesis presents the first comprehensive study of CSG water management in NZ. It also presents an ion exchange treatment system using natural zeolites already available in NZ. In conclusion, the research finds that, whether through adequate management or active treatment, CSG waters can be safely disposed without creating major environmental problems, and can even be used in beneficial applications. Groundwater geochemistry Maramarua Factor Analysis Coal Seam Gas CSG Coalbed Methane CBM Coalbed Natural Gas CBNG CSG water salinity sodicity hydrogeology coal soil dispersion ion exchange Ngakuru zeolites SAR alkaline
10	Coal seam gas associations in the Huntly, Ohai and Greymouth regions, New Zealand Butland, Caroline January 2006 (has links) Coal seam gas has been recognised as a new, potential energy resource in New Zealand. Exploration and assessment programmes carried out by various companies have evaluated the resource and indicated that this unconventional gas may form a part of New Zealand's future energy supply. This study has delineated some of the controls between coal properties and gas content in coal seams in selected New Zealand locations. Four coal cores, one from Huntly (Eocene), two from Ohai (Cretaceous) and one from Greymouth (Cretaceous), have been sampled and analysed in terms of gas content and coal properties. Methods used include proximate, sulphur and calorifc value analyses; ash constituent determination; rank assessment; macroscopic analysis; mineralogical analysis; maceral analysis; and gas analyses (desorption, adsorption, gas quality and gas isotopes). Coal cores varied in rank from sub-bituminous B-A (Huntly); sub-bituminous C-A (Ohai); and high volatile bituminous A (Greymouth). All locations contained high vitrinite content (~85 %) with overall relatively low mineral matter observed in most samples. Mineral matter consisted of both detrital grains (quartz in matrix material) and infilling pores and fractures (clays in fusinite pores; carbonates in fractures). Average gas contents were 1.6 m3/t in the Huntly core, 4.7 m3/t in the Ohai cores, and 2.35 m3/t in the Greymouth core. The Ohai core contained more gas and was more saturated than the other cores. Carbon isotopes indicated that the Ohai gas composition was more mature, containing heavier 13C isotopes than either the Huntly or Greymouth gas samples. This indicates the gas was derived from a mixed biogenic and thermogenic source. The Huntly and Greymouth gases appear to be derived from a biogenic (by CO2 reduction) source. The ash yield proved to be the dominant control on gas volume in all locations when the ash yield was above 10 %. Below 10 % the amount of gas variation is unrelated to ash yield. Although organic content had some influence on gas volume, associations were basin and /or rank dependant. In the Huntly core total gas content and structured vitrinite increased together. Although this relationship did not appear in the other cores, in the Ohai SC3 core lost gas and fusinite are associated with each other, while desmocollinite (unstructured vitrinite) correlated positively with residual gas in the Greymouth core. Although it is generally accepted that higher rank coals will have higher adsorption capacities, this was not seen in this data set. Although the lowest rank coal (Huntly) contains the lowest adsorption capacity, the highest adsorption capacity was not seen in the highest rank coal (Greymouth), but in the Ohai coal instead. The Ohai core acted like a higher rank coal with respect to the Greymouth coal, in terms of adsorption capacity, isotopic signatures and gas volume. Two hypothesis can be used to explain these results: (1) That a thermogenically derived gas migrated from down-dip of the SC3 and SC1 drill holes and saturated the section. (2) Rank measurements (e.g. proximate analyses) have a fairly wide variance in both the Greymouth and Ohai coal cores, thus it maybe feasible that the Ohai cores may be higher rank coal than the Greymouth coal core. Although the second hypothesis may explain the adsorption capacity, isotopic signatures and the gas volume, when the data is plotted on a Suggate rank curve, the Ohai coal core is clearly lower rank than the Greymouth core. Thus, pending additional data, the first hypothesis is favoured. Coal seam gas Macroscopic analysis Mineralogical analysis Desorption Adsorption Gas quality Gas isotopes Ohai Huntly Greymouth Ash yield Vitrinite Macerals Sub-bituminous Fusinite Suggate rank Coal geochemistry Petrographic analyses Organic petrology

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