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Academic literature on the topic 'Of Petroleum and Natural Gas Engineering'

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Published: 4 June 2021

Last updated: 5 February 2022

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Journal articles on the topic "Of Petroleum and Natural Gas Engineering"

Schiff, Anshel J. "Petroleum and Gas Facilities." Earthquake Spectra 7, no. 1_suppl (October 1991): 81–89. http://dx.doi.org/10.1193/1.1585652.

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In the earthquake-affected area there are no natural-gas lines and a very limited number of petroleum-product lines. There is a petroleum line from Subic Bay to Clark Air Force Base; however, this line is some distance from the epicenter and was not damaged. Associated with the Port of San Fernando there are two lines used to unload petroleum products and transport them to nearby tank farms operated by several oil companies. Products are distributed by truck from the tank farms. There are no petroleum-processing facilities, such as refineries, in the area.

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Wang, Jian Guo, Hai Jie Zhang, Cui Cui Liu, and Li Xia Lou. "The Significance of Shale Gas Development in China." Advanced Materials Research 616-618 (December 2012): 767–69. http://dx.doi.org/10.4028/www.scientific.net/amr.616-618.767.

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China is facing a severe situation of energy resources. High oil dependency is seriously threatening our economy’s fast and stable development. The US has successfully achieved the commercial development of shale gas, which has decreased its oil dependency, and also contributed to its natural gas geology and petroleum engineering technology development. Both Chinese and U.S. geological experts predict that China has similar quantities of shale gas reserves as founded in the United States. This paper aims to clarify that producing shale gas resources has economic significance of energy security and environment protection, and scientific significance of promoting the further development of natural gas geology and petroleum engineering subjects.

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Moussavi, Massoum, and Motasem Al‐Turk. "Compressed Natural Gas and Liquefied Petroleum Gas as Alternative Fuels." Journal of Energy Engineering 119, no. 3 (December 1993): 168–79. http://dx.doi.org/10.1061/(asce)0733-9402(1993)119:3(168).

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Liu, Wei Fu, Shuang Long Liu, and Li Xin Sun. "Distribution and Accumulation of Energy Resources in Ordos Basin." Advanced Materials Research 912-914 (April 2014): 1621–24. http://dx.doi.org/10.4028/www.scientific.net/amr.912-914.1621.

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Ordos basin is prolific in petroleum, natural gas, and coal resources, and is an important energy base in our country. The petroleum distributes in Jurassic to be subjected by the eroding river valley and Triassic to be subjected by depositional system of delta. The natural gas distributes in Upper Paleozoic to be controlled by the delta depositional system and Lower Paleozoic to be controlled by the fossil weathered crusts. The coal distribute in Permo-Carboniferous, Triassic and Jurassic, which has been controlled by the turning stage of tectonism and palaeokarsts. The distribution of oil, gas and coals present the regulation in the basin, but the styles that the dissimilarity structure unit to places have the bigger difference. In order to reduce the exploration cost, the petroleum, natural gas and coals should carry on comprehensive exploration.

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Jin, Yingjie, Sachio Asaoka, Xiaohong Li, Kenji Asami, and Kaoru Fujimoto. "Synthesis of liquefied petroleum gas via methanol/dimethyl ether from natural gas." Fuel Processing Technology 85, no. 8-10 (July 2004): 1151–64. http://dx.doi.org/10.1016/j.fuproc.2003.11.039.

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Qin, Shengfei, Guoxiao Zhou, Zheng Zhou, and Yu Yang. "Geochemical characteristics of natural gases from different petroleum systems in the Longgang gas field, Sichuan Basin, China." Energy Exploration & Exploitation 36, no. 6 (March 15, 2018): 1376–94. http://dx.doi.org/10.1177/0144598718763902.

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Located in the Sichuan Basin, China, the Longgang gas field consists of three vertically developed petroleum systems with the Triassic Leikoupo Formation as a dividing interface. There is one marine petroleum system below the interface and one continental petroleum system above it. The marine petroleum system is composed of coal measures, the main source rock in the Longtan Formation, and marine reef reservoirs in the Changxing and Feixianguan formations. The continental petroleum system can also be subdivided into two sets. One is the Xujiahe petroleum system sourced from the Xujiahe coal measures in the Upper Triassic formation. The other is a Jurassic petroleum system that is sourced from Jurassic lacustrine black shales. The gas pools in the marine system contain H2S gas. The gases are very dry and the δ13C1 and δ13C2 values display less negative values with an average of −29.2 and −25.0‰, respectively. The gases are humic origin generated at highly to over mature stages from coal measures of the Longtan Formation. The natural gas in the continental petroleum system does not contain H2S. The natural gases from the Xujiahe petroleum system are mainly wet gases with a few dry gases, and belong to typical humic type sourced from coal measures of the Xujiahe Formation. All the gases from this Jurassic petroleum system are wet gases and the alkane gases show more negative carbon isotopic values typical of sapropels. These are derived from the lower Jurassic lacustrine black mudstone. The three sets of petroleum systems in the Longgang gas field are vertically well separated. Each system has its own source rock, and there are no gases from other sources despite multiple tectonic events in the past. The reservoirs had been in a relatively stable tectonic condition with excellent seals by cap rocks during the gas accumulation period.

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YAMAZAKI, Toyohiko. "Fundamental studies on recovery of petroleum and natural gas." Journal of The Japan Petroleum Institute 34, no. 3 (1991): 210–17. http://dx.doi.org/10.1627/jpi1958.34.210.

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Uri, Noel D., and Mohinder Gill. "Agricultural demands for natural gas and liquefied petroleum gas in the USA." Applied Energy 41, no. 3 (January 1992): 223–41. http://dx.doi.org/10.1016/0306-2619(92)90004-u.

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Dickinson, Richard R. "Fuel Oil." Energy Exploration & Exploitation 4, no. 2-3 (May 1986): 125–34. http://dx.doi.org/10.1177/014459878600400204.

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As the price of petroleum has increased, the power industry has displaced a great deal of more expensive petroleum and natural gas with coal and nuclear power. The petroleum industry has installed processing facilities to upgrade its heavy fuel oil to make lighter products. These two actions, when combined, have effectively resulted in producing clean products indirectly from coal. A profitable synfuels industry has been created by the refining and power industries without conscious direction on their part—and without government support. The net effect has been to substantially reduce demand for both crude oil and natural gas, stretching future supplies of petroleum energy. This displacement has contributed to the temporary bubble in natural gas and the present oversupply of crude oil, creating downward price pressures on both crude oil and products. Even so, fuel oil prices have remained relatively stable because the industry has installed sufficient capability through its refinery improvements to upgrade fuel oil into more clean products, thereby reducing production of heavy fuel oil. In the future, we can expect the interaction among these fuels to continue to exert their effects. Since there are many consumers who can use either natural gas or fuel oil, their prices will remain tied to each other. Fuel oil prices will set the upper limits to which the burner tip price of natural gas can rise. Conversely, natural gas prices will tend to set the floor under fuel oil prices.

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Ben'yaminovich, O. A. "Industrial processing of helium-containing natural gas and petroleum associated gas in Russia." Chemical and Petroleum Engineering 31, no. 2 (February 1995): 86–88. http://dx.doi.org/10.1007/bf01147380.

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Dissertations / Theses on the topic "Of Petroleum and Natural Gas Engineering"

Isemin, Isemin Akpabio. "Numerical Simulation of Gas Coning of a Single Well Radial in a Naturally Fractured Reservoir." Thesis, Norges teknisk-naturvitenskapelige universitet, Institutt for petroleumsteknologi og anvendt geofysikk, 2012. http://urn.kb.se/resolve?urn=urn:nbn:no:ntnu:diva-19275.

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Gas coning is the tendency of the gas to drive oil downward in an inverse cone due to the downward movement of gas into the perforations of a producing well thereby reducing oil production and the overall recovery efficiency of the oil reservoir. This work addresses gas coning issues in a naturally fractured reservoir via a numerical simulation approach on a single-well radial cross-section using the ECLIPSE 100 reservoir simulator. Matrix and fracture properties are modelled. Critical rate, breakthrough time and GOR after breakthrough is determined which is used to investigate the effect of matrix and fracture properties on gas coning effective reservoir parameters such as oil flow rate, matrix and fracture porosity, vertical and horizontal matrix and fracture permeability, matrix block size, etc. Results show that reservoir parameters that affect coning include oil flow rate, matrix and fracture porosity, matrix and vertical permeability, anisotropy ratio, perforated interval thickness, density difference and mobility ratio. While matrix block size and fracture spacing have no significant effect on gas coning.

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Thomas, Lee W. "Three-phase dynamic displacement measurements of relative permeability in porous media using three immiscible liquids : a thesis in Petroleum and Natural Gas Engineering." Thesis, Monterey, California. Naval Postgraduate School, 1991. http://hdl.handle.net/10945/26302.

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Cerna, Cinthia Kelly Quispe 1983. "Análise integrada de testes de pressão e simulação numérica para um reservatório de gás e condensado." [s.n.], 2014. http://repositorio.unicamp.br/jspui/handle/REPOSIP/265915.

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Orientador: Rosângela Barros Zanoni Lopes Moreno
Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Engenharia Mecânica
Made available in DSpace on 2018-08-25T19:13:12Z (GMT). No. of bitstreams: 1 Cerna_CinthiaKellyQuispe_M.pdf: 4891576 bytes, checksum: 1e055010e701f9aed8364c71a0e68a06 (MD5) Previous issue date: 2014
Resumo: O comportamento de um reservatório de gás e condensado durante a depleção é altamente complexo. Quando a pressão do reservatório cai abaixo da pressão de orvalho, forma-se um banco de condensado ao redor do poço, que afeta a produtividade do poço e a composição do fluido produzido. Dados experimentais e de campo evidenciam a existência de três regiões no sentido radial, desde a zona imediata ao poço até a zona mais afastada, com variação na saturação de condensado. A primeira região é aquela mais afastada do poço, onde a pressão de reservatório é maior que a pressão de orvalho, e não se tem presença de condensado. A segunda região caracteriza-se pela formação de duas fases no reservatório, embora o condensado ainda não seja móvel nesta região. Na terceira região, a saturação de condensado alcança uma saturação crítica e observa-se o início do escoamento de duas fases. O objetivo deste trabalho é caracterizar as regiões de escoamento no reservatório onde existe formação do banco de condensado e avaliar seu impacto na produtividade do poço. Adicionalmente, busca-se comparar as diferentes técnicas de avaliação deste tipo de reservatório. A análise foi baseada em dados obtidos durante a vida produtiva do poço com uso de ferramentas analíticas e numéricas. As análises dos testes transientes de pressão, em termos de pseudopressão monofásica e bifásica, foram desenvolvidas a partir de dados do período build up de dois testes de pressão utilizando o conhecimento de curvas de permeabilidade relativa. Em seguida, foi construído um modelo numérico de simulação composicional ajustado com os dados existentes dos fluidos e do reservatório, com a finalidade de modelar o comportamento do reservatório de gás condensado. A análise integrada permitiu validar os resultados e prever o comportamento do reservatório no futuro. Como resultados da avaliação foram identificadas as três regiões de escoamento, possibilitando comparar os resultados para permeabilidade, efeito de película e distribuição radial de saturação de condensado utilizando os diferentes métodos de análise. A contribuição deste trabalho reside na integração de análise de testes de poço e simulação numérica neste tipo de reservatório. Além disso, pode-se contribuir para uma melhor gestão do reservatório e procura de soluções para reduzir o efeito de condensação retrógrada
Abstract: The behavior of a gas condensate reservoir during depletion is highly complex. A bank of condensate is formed around the wellbore when the reservoir pressure drops below the dew-point pressure. As a result, the well productivity and the composition of the produced fluid are compromised. Experimental and field data have evidenced the existence of three regions in the radial direction from the zone immediately around to the wellbore to the farthest area, with variations in fluid saturations. In the first region, farthermost from the well, the reservoir pressure is higher than dew point pressure and there is no condensate drop-out. The second region is characterized by the formation of two phases in the reservoir, however the condensate is not mobile. In the third region, the condensate saturation reaches a critical saturation and is observed the beginning of the two-phase flow. This study aims to characterize the condensate bank of the reservoir where gas condensation occurs and to evaluate the condensate bank impact in the well productivity. Additionally, it seeks to compare the different techniques of evaluation of this reservoir type. The analysis was based on pressure data obtained during its productive life, through analytical and numerical tools. The analysis of pressure transient tests, in terms of single phase and two phase pseudo-pressure, were performed on build-up data using the knowledge of relative permeability curves. Further, a numerical compositional model was built and adjusted with the data of the reservoir and its fluids, with the purpose of modeling the behavior of a gas condensate reservoir. The integrated evaluation allowed us to validate the results and predict the behavior of the reservoir in the future. Based on the analysis, three flow regions were identified and it was possible to evaluate the difference on the results for effective permeability, formation damage and radial distribution of condensate saturation using different methods. The contribution of this work lies in integrating well test analysis and numerical simulation to evaluate this type of reservoir. Moreover, results can also contribute for a better reservoir management and as a base for finding solutions to reduce the effect of retrograde condensation
Mestrado
Reservatórios e Gestão
Mestra em Ciências e Engenharia de Petróleo

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Kolesnikov, Anton. "Experimental investigation of hydrocarbon formation and transformation under Earth´s upper mantle conditions." Doctoral thesis, KTH, Kraft- och värmeteknologi, 2010. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-27017.

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The theory of the abyssal abiotic petroleum origin considers oil and natural gas to begenerated in the Earth’s upper mantle. Hydrocarbons migrate further through the deep faults into the Earth’s crust, where they can form oil and gas deposits in any kind of rock in any kind of structural position. Until recently one of the main obstacles for further development of this theory has been the lack of the data covering processes of generation and transformations of hydrocarbons. Experimental data, presented in this thesis, confirms the possibility of hydrocarbons formation from mantle inorganic compounds (water, Fe, CaCO3 or graphite) at temperature and pressure of the upper mantle (1500 K and 5 GPa). Experiments were carried out in CONAC high pressure device and multianvil apparatus BARS. Compositions of received gas mixtures were similar to natural gas. Quantity of hydrocarbons depended on the cooling regime of reaction mixture under pressure. Slow cooling favored higher quantity. We found that donor of carbon (CaCO3 or graphite) determines formation of “dry” (methane-rich) gas or “wet” (light hydrocarbons-rich) gas. Experiments in laser-heated diamond anvil cells showed that methane and ethane partially react under upper mantle thermobaric conditions (2-5 GPa, 1000-1500 K) to form mixture of hydrocarbons: methane, ethane, propane and n-butane – main compounds of natural gas. Similarity of final product mixture obtained from methane and ethane means thermodynamic stability of hydrocarbons in the thermobaric conditions of the upper mantle and equilibrium character of the observed processes.
QC 20101203

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Roychaudhuri, Basabdatta. "Spontaneous Countercurrent and Forced Imbibition in Gas Shales." Thesis, University of Southern California, 2018. http://pqdtopen.proquest.com/#viewpdf?dispub=10635652.

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In this study, imbibition experiments are used to explain the significant fluid loss, often more than 70%, of injected water during well stimulation and flowback in the context of natural gas production from shale formations. Samples from a 180 ft. long section of a vertical well were studied via spontaneous and forced imbibition experiments, at lab-scale, on small samples with characteristic dimensions of a few cm; in order to quantify the water imbibed by the complex multi-porosity shale system. The imbibition process is, typically, characterized by a distinct transition from an initial linear rate (vs. square root of time) to a much slower imbibition rate at later times. These observations along with contact angle measurements provide an insight into the wettability characteristics of the shale surface. Using these observations, together with an assumed geometry of the fracture system, has made it possible to estimate the distance travelled by the injected water into the formation at field scale.

Shale characterization experiments including permeability measurements, total organic carbon (TOC) analysis, pore size distribution (PSD) and contact angle measurements were also performed and were combined with XRD measurements in order to better understand the mass transfer properties of shale. The experimental permeabilities measured in the direction along the bedding plane (10^–1–10^–2 mD) and in the vertical direction (~10^–4 mD) are orders of magnitude higher than the matrix permeabilities of these shale sample (10^–5 to 10^–8 mD). This implies that the fastest flow in a formation is likely to occur in the horizontal direction, and indicates that the flow of fluids through the formation occurs predominantly through the fracture and micro-fracture network, and hence that these are the main conduits for gas recovery. The permeability differences among samples from various depths can be attributed to different organic matter content and mineralogical characteristics, likely attributed to varying depositional environments. The study of these properties can help ascertain the ideal depth for well placement and perforation.

Forced imbibition experiments have been carried out to better understand the phenomena that take place during well stimulation under realistic reservoir conditions. Imbibition experiments have been performed with real and simulated frac fluids, including deionized (DI) water, to establish a baseline, in order to study the impact on imbibition rates resulting from the presence of ions/additives in the imbibing fluid. Ion interactions with shales are studied using ion chromatography (IC) to ascertain their effect on imbibition induced porosity and permeability change of the samples. It has been found that divalent cations such as calcium and anions such as sulfates (for concentrations in excess of 600 ppm) can significantly reduce the permeability of the samples. It is concluded, therefore, that their presence in stimulating fluids can affect the capillarity and fluid flow after stimulation. We have also studied the impact of using fluoro-surfactant additives during spontaneous and forced imbibition experiments. A number of these additives have been shown to increase the measured contact angles of the shale samples and the fluid recovery from them, thus making them an ideal candidate for additives to use. Their interactions with the shale are further characterized using the Dynamic Light Scattering (DLS) technique in order to measure their hydrodynamic radius to compare it with the pore size of the shale sample.

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Wu, Dien-yeh. "Evaluation of light duty vehicle conversions to natural gas and liquefied petroleum gas : speciated and off-cycle emissions /." Digital version accessible at:, 1998. http://wwwlib.umi.com/cr/utexas/main.

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Khazam, Mohsen. "Application of phase behaviour and flow models to gas injection and gas-condensate recovery processes." Thesis, Heriot-Watt University, 1994. http://hdl.handle.net/10399/1359.

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Barbosa, Luis Felipe Ferreira Motta. "Drilling optimization of petroleum and natural gas wells : application of artificial intelligence /." Guaratinguetá, 2019. http://hdl.handle.net/11449/180784.

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Orientador: João Andrade de Carvalho Junior
Coorientador: Andreas Nascimento
Banca: Mauro Hugo Mathias
Banca: José Luiz Gonçalves
Abstract: To meet the increasing primary energy demand, more challenging petroleum reserves started being explored, such as the reservoirs from pre-salt formation close to the Brazilian and Angolan coasts. Historically, low penetration rates in drilling the pre-salt carbonates were reported in the literature, resulting in large capital expenditure on well's construction. Since the major part of exploration cost is associated with drilling, optimizing this activity is of major importance. In this context, the main objective of the present thesis is to investigate methods for real-time drilling optimization of oil and natural gas wells. A common way to optimize drilling activities is to determine the optimum operational variables (e.g. weight-on-bit and rotational speed) that maximizes the ROP. However, this may yield a decrease in drilling efficiency. An alternative to reduce problems related to drilling inefficiency, such as excessive bit wear and vibrations, is through the selection of operational variables able to minimize the specific energy (SE) spent to excavate a volumetric unit of rock. For that, it is necessary to employ accurate predictive models able to capture how the operational variables (weight-on-bit, rotational speed, mud flow and so on) influence not only on ROP but also on SE. Therefore, the present thesis employed a well-known machine learning method, called random forest, instead of analytical equations found in drilling engineering books. Thus, it was possible to o... (Complete abstract click electronic access below)
Resumo: Para atender à crescente demanda de energia primária, começaram a ser exploradas reservas de petróleo em áreas mais desafiadoras, tais como os reservatórios da formação do pré-sal próximos às costas brasileira e angolana. Historicamente, observa-se baixa taxa de penetração na perfuração dos carbonatos do pré-sal, resultando em altos custos na construção de poços. Como a maior parte dos custos de exploração está associado com perfuração, a otimização desta atividade é de grande importância. Neste contexto, o principal objetivo desta dissertação é investigar métodos de otimização em tempo-real de poços de petróleo e gás natural. Uma forma comum de se otimizar a perfuração é através da determinação dos parâmetros operacionais (peso na broca e rotação) que maximizem a taxa de penetração (rate of penetration, ROP). Contudo, isto pode acarretar na diminuição da eficiência do processo de perfuração. Assim, uma forma de diminuir problemas relacionadas a ineficiências da perfuração, tais como gasto excessivo da broca ou vibrações, é através da seleção dos parâmetros operacionais, minimizando a energia específica (specific energy, SE) gasta para escavar uma unidade volumétrica de rocha. Para tanto, é necessário o emprego de modelos precisos que relacionem como as variáveis operacionais (peso da broca, rotação, vazão do fluido de perfuração entre outros) influenciam, não somente o ROP, mas também a SE. Desde modo, a presente dissertação empregou um método conhecido de aprendizagem de má... (Resumo completo, clicar acesso eletrônico abaixo)
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Teixeira, Marco Antonio Simões. "Predição de mapeamento para navegação autônoma de um robô de inspeção em vasos de pressão esféricos." Universidade Tecnológica Federal do Paraná, 2017. http://repositorio.utfpr.edu.br/jspui/handle/1/2860.

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ANP; FINEP; CAPES; PETROBRAS; MCTI;
Vasos de pressão esféricos usados para armazenar gás liquefeito de petróleo necessitam ser inspecionados periodicamente a fim de identificar problemas em sua estrutura e evitar futuros acidentes. Este trabalho visa desenvolver uma técnica de mapeamento com base na predição do mapa para a navegação de um robô de inspeção autônomo. A técnica desenvolvida consiste na realização dos seguintes passos: busca autônoma de características conhecidas, percepção do ambiente, estimativa do ambiente, predição das características, mapa por técnica de grade de ocupação e voxel, aplicação de grau de incerteza nas medições e planejamento de trajetória. Ao final desta etapa tem-se a predição do mapeamento completo do tanque a ser inspecionado, contendo as suas principais características físicas como centro, raio, placas e cordões de soldas. Este trabalho auxilia a tarefa de inspeção em vasos de pressão esféricos realizado por um robô autônomo fornecendo um mapa completo do ambiente, com a possibilidade de armazenar a posição de fissuras e outros problemas identificados durante a inspeção.
Spherical pressure vessels used for the storage of liquefied petroleum gas need to be periodically inspected in order to identify problems in their structure and to prevent future accidents. This work aims at the development of a mapping technique based on map prediction for the navigation of an autonomous inspection robot. The technique developed consists of the following steps: autonomous search of known characteristics, perception of the environment, estimation of the environment, prediction of the characteristics, creation of occupation grid filled by voxels, application of degree of uncertainty in measurements and path planning. In the end, it is predicted the complete mapping of the tank to be inspected, containing its main physical characteristics, such as center, radius, plates and weld bead. This work assists the task of inspection in spherical pressure vessels performed by an autonomous robot providing a complete map of the environment, with the possibility of storing the position of fissures and other problems identified during the inspection.

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Pariti, Uma Mahesh 1969. "Coal sorption behavior using gas mixture." Thesis, The University of Arizona, 1992. http://hdl.handle.net/10150/291953.

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This thesis discusses an experimental study involving sorption studies using methane, carbon dioxide, and a multicomponent gas mixture representative of in situ gas composition. Using the isotherms for pure methane and carbon dioxide, isotherm and variation in gas composition with desorption for gas mixture were established using a numerical technique. When using gas mixture, composition of the desorbing gas at each pressure level was monitored. Results indicate that during desorption, methane concentration decreased as the pressure was decreased while carbon dioxide concentration increased. Experimental results for sorption and variation in gas composition of the gas mixture compare very well with the theoretically obtained results. It is, therefore, possible to establish the sorption isotherm, Langmuir constants for gas mixtures and estimate the variation in gas composition with desorption theoretically, if the sorption isotherms for individual component gases are available and the in situ gas composition is known.

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Books on the topic "Of Petroleum and Natural Gas Engineering"

Ali, Ghalambor, ed. Natural gas engineering handbook. 2nd ed. Houston, TX: Gulf Pub. Company, 2012.

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Ali, Ghalambor, ed. Natural gas engineering handbook. Houston, TX: Gulf Pub. Co., 2005.

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Lyons, William C. Standard handbook of petroleum & natural gas engineering. 2nd ed. Burlington, MA: Elsevier/Gulf Professional Pub., 2005.

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Riazi, M. R. Exploration and production of petroleum and natural gas. West Conshohocken, PA: ASTM International, 2016.

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Mohamed, Aggour, and Fahim M. A, eds. Petroleum and gas field processing. New York: Marcel Dekker, 2003.

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Working guide to petroleum and natural gas production engineering. Amsterdam: Gulf Pub./Elsevier, 2010.

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Termeer, Chris. Oil and natural gas exploration and drilling operations. Clearwater Beach, Florida: Chris Termeer, 2013.

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The properties of petroleum fluids. 2nd ed. Tulsa, Okla: PennWell Books, 1990.

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Kuzʹmichev, O. B. Issledovanie ėlektricheskikh poleĭ estestvennogo proiskhozhdenii︠a︡ v neftegazorazvedochnykh skvazhinakh: Teorii︠a︡, apparatura, metodika, skvazhinnye ispytanii︠a︡. Sankt-Peterburg: Nedra, 2006.

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Christiansen, Paige W. The story of oil in New Mexico. Socorro: New Mexico Bureau of Mines & Mineral Resources, 1989.

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Book chapters on the topic "Of Petroleum and Natural Gas Engineering"

Shafer, Wade H. "Petroleum and Natural Gas Engineering." In Masters Theses in the Pure and Applied Sciences, 287–90. Boston, MA: Springer US, 1997. http://dx.doi.org/10.1007/978-1-4615-5969-6_35.

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Shafer, Wade H. "Petroleum and Natural Gas Engineering." In Masters Theses in the Pure and Applied Sciences, 329–30. Boston, MA: Springer US, 1993. http://dx.doi.org/10.1007/978-1-4615-2453-3_36.

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Shafer, Wade H. "Petroleum and Natural Gas Engineering." In Masters Theses in the Pure and Applied Sciences, 363–66. Boston, MA: Springer US, 1994. http://dx.doi.org/10.1007/978-1-4615-1969-0_36.

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Shafer, Wade H. "Petroleum and Natural Gas Engineering." In Masters Theses in the Pure and Applied Sciences, 370–73. Boston, MA: Springer US, 1990. http://dx.doi.org/10.1007/978-1-4615-7394-4_36.

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Shafer, Wade H. "Petroleum and Natural Gas Engineering." In Masters Theses in the Pure and Applied Sciences, 351–56. Boston, MA: Springer New York, 1987. http://dx.doi.org/10.1007/978-1-4615-7388-3_36.

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Shafer, Wade H. "Petroleum and Natural Gas Engineering." In Masters Theses in the Pure and Applied Sciences, 331–34. Boston, MA: Springer US, 1988. http://dx.doi.org/10.1007/978-1-4615-7391-3_36.

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Shafer, Wade H. "Petroleum and Natural Gas Engineering." In Masters Theses in the Pure and Applied Sciences, 318–21. Boston, MA: Springer US, 1992. http://dx.doi.org/10.1007/978-1-4615-3412-9_36.

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Shafer, Wade H. "Petroleum and Natural Gas Engineering." In Masters Theses in the Pure and Applied Sciences, 359–61. Boston, MA: Springer US, 1992. http://dx.doi.org/10.1007/978-1-4615-3474-7_36.

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Shafer, Wade H. "Petroleum and Natural Gas Engineering." In Masters Theses in the Pure and Applied Sciences, 297–99. Boston, MA: Springer US, 1993. http://dx.doi.org/10.1007/978-1-4615-2832-6_36.

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Shafer, Wade H. "Petroleum and Natural Gas Engineering." In Masters Theses in the Pure and Applied Sciences, 355–58. Boston, MA: Springer US, 1989. http://dx.doi.org/10.1007/978-1-4613-0599-6_36.

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Conference papers on the topic "Of Petroleum and Natural Gas Engineering"

Aguilera, Roberto F. "Indexing and Normalizing Natural Gas Endowment." In SPE Latin American and Caribbean Petroleum Engineering Conference. Society of Petroleum Engineers, 2010. http://dx.doi.org/10.2118/139247-ms.

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De Bel, Ruben, Yuanyuan He, Susanne Eva Johanne Rudolph-Floter, Michael Golombok, and Pacelli Lidio Jose Zitha. "Modeling of Natural Gas Production From Oceanic Hydrate Accumulations." In Latin American and Caribbean Petroleum Engineering Conference. Society of Petroleum Engineers, 2009. http://dx.doi.org/10.2118/123016-ms.

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Heath, S. M., R. C. Hodrien, E. Kostakis, and J. P. Harrison. "Underground Storage of Natural Gas in Unlined Hard Rock Caverns." In SPE/ISRM Rock Mechanics in Petroleum Engineering. Society of Petroleum Engineers, 1998. http://dx.doi.org/10.2118/47221-ms.

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vesovic, Velisa. "Flow Assurance: Reliable and Accurate Prediction of the Viscosity of Natural Gas." In Latin American & Caribbean Petroleum Engineering Conference. Society of Petroleum Engineers, 2007. http://dx.doi.org/10.2118/107154-ms.

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Al-Awad, Musaed N. J., Abdulrahman A. AlQuraishi, Omar A. Almisned, and Kamal A. Haroon. "Potential Saudi Standard Sandstone for Applied Studies of Petroleum and Natural Gas Engineering." In SPE Saudi Arabia Section Technical Symposium. Society of Petroleum Engineers, 2008. http://dx.doi.org/10.2118/120810-ms.

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Brignoli, M., F. J. Santarelli, and F. Zausa. "Storing liquid natural gas in a depleted reservoir: Preliminary results of a feasibility study." In Rock Mechanics in Petroleum Engineering. Society of Petroleum Engineers, 1994. http://dx.doi.org/10.2118/28123-ms.

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Ramial, V., and T. M. Boopsingh. "A Financial Analysis of the Natural Gas Industry of Trinidad and Tobago." In SPE Latin America/Caribbean Petroleum Engineering Conference. Society of Petroleum Engineers, 1994. http://dx.doi.org/10.2118/27039-ms.

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Furlonge, Haydn. "Natural Gas Supply/Demand Balance: The Case of Trinidad and Tobago." In SPE Latin American and Caribbean Petroleum Engineering Conference. Society of Petroleum Engineers, 2001. http://dx.doi.org/10.2118/69521-ms.

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Masanobu, Sotaro, Shunji Kato, Arata Nakamura, Takashi Sakamoto, Toshio Yoshikawa, Atsushi Sakamoto, Hideo Uetani, Kenichi Kawazuishi, and Kunihisa Sao. "Development of Natural Gas Liquefaction FPSO." In ASME 2004 23rd International Conference on Offshore Mechanics and Arctic Engineering. ASMEDC, 2004. http://dx.doi.org/10.1115/omae2004-51382.

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Abstract:

Natural gas is abundant and is cleaner than petroleum. Therefore, demand for natural gas is expected to grow significantly. However, the means of transporting natural gas is presently limited to pipelines and LNG tankers, thereby making its wider use unlikely. There are substantial numbers of known gas reservoirs that are difficult to develop utilizing current transportation means because of constraints such as the scale of gas fields, water depth, distance to shore, and distance from markets. A new, economical, reliable development technique or transportation means is required for developing such gas reservoirs. Ministry of Economy, Trade and Industry (METI), Japan National Oil Corporation (JNOC) and private corporations have jointly investigated the Natural Gas Liquefaction Floating Production, Storage and Offloading (NGL-FPSOs) units to effectively develop gas reservoirs by converting the gas into NGL. This paper presents the background on NGL-FPSO development and findings on its application.

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Lino, U. de R. A. "An Evaluation of Natural Gas Huff ‘n' Puff Field Tests in Brazil." In SPE Latin America/Caribbean Petroleum Engineering Conference. Society of Petroleum Engineers, 1994. http://dx.doi.org/10.2118/26974-ms.

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Reports on the topic "Of Petroleum and Natural Gas Engineering"

Joel L. Morrison and Sharon L. Elder. Consortium for Petroleum & Natural Gas Stripper Wells. Office of Scientific and Technical Information (OSTI), December 2006. http://dx.doi.org/10.2172/901289.

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Joel L. Morrison and Sharon L. Elder. Consortium for Petroleum & Natural Gas Stripper Wells. Office of Scientific and Technical Information (OSTI), March 2007. http://dx.doi.org/10.2172/909265.

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Joel L. Morrison and Sharon L. Elder. Consortium for Petroleum & Natural Gas Stripper Wells. Office of Scientific and Technical Information (OSTI), September 2006. http://dx.doi.org/10.2172/895862.

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Morrison, Joel. Consortium for Petroleum & Natural Gas Stripper Wells. Office of Scientific and Technical Information (OSTI), December 2011. http://dx.doi.org/10.2172/1174138.

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Russell E. Fray. Ultra-Deepwater and Unconventional Natural Gas and Other Petroleum Resources. Office of Scientific and Technical Information (OSTI), June 2007. http://dx.doi.org/10.2172/910493.

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Russell E. Fray. Ultra-Deepwater and Unconventional Natural Gas and Other Petroleum Resources. Office of Scientific and Technical Information (OSTI), May 2007. http://dx.doi.org/10.2172/909165.

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Russell E. Fray. Ultra-Deepwater and Unconventional Natural Gas and Other Petroleum Resources. Office of Scientific and Technical Information (OSTI), April 2007. http://dx.doi.org/10.2172/909177.

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Motta, R. C., K. J. Kelly, and W. W. Warnock. Compressed natural gas and liquefied petroleum gas conversions: The National Renewable Energy Laboratory`s experience. Office of Scientific and Technical Information (OSTI), April 1996. http://dx.doi.org/10.2172/257404.

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Morrison, Joel. Consortium for Petroleum & Natural Gas Stripper Wells PART 2 OF 3. Office of Scientific and Technical Information (OSTI), December 2011. http://dx.doi.org/10.2172/1174139.

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Morrison, Joel. Consortium for Petroleum & Natural Gas Stripper Wells PART 3 OF 3. Office of Scientific and Technical Information (OSTI), December 2011. http://dx.doi.org/10.2172/1174140.

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