990 resultados para Gas pipelines--Georgia
Resumo:
Mode of access: Internet.
Resumo:
Pt/SnO2 nanowires/SiC based metal-oxidesemiconductor (MOS) devices were fabricated and tested for their gas sensitivity towards hydrogen. Tin oxide (SnO2) nanowires were grown on SiC substrates by the vapour liquid solid growth process. The material properties of the SnO2 nanowires such as its formation and dimensions were analyzed using scanning electron microscopy (SEM). The currentvoltage (I-V) characteristics at different hydrogen concentrations are presented. The effective change in the barrier height for 0.06 and 1% hydrogen were found to be 20.78 and 131.59 meV, respectively. A voltage shift of 310 mV at 530°C for 1% hydrogen was measured.
Resumo:
In this work, a simple correlation, which incorporates the mixture velocity, drift velocity, and the correction factor of Farooqi and Richardson, was proposed to predict the void fraction of gas/non-Newtonian intermittent flow in upward inclined pipes. The correlation was based on 352 data points covering a wide range of flow rates for different CMC solutions at diverse angles. A good agreement was obtained between the predicted and experimental results. These results substantiated the general validity of the model presented for gas/non-Newtonian two-phase intermittent flows.
Resumo:
This paper describes a device which can be used to detect variation in the integrity of the surrounding medium which supports buried gas pipes. The method is also applicable to other kinds of pipe. Variation in pipe support condition leads to increased likelihood of pipe damage under vehicle loading. A vibrating 'pig' has been developed and tested on buried pipelines in Britain and the measured data obtained is compared with theoretical models. Certain features, such as voids, hard spots and joints, display characteristic responses to vibration and a library of such characteristics has been constructed both experimentally and from the theoretical models.
Resumo:
The best places to locate the Gas Supply Units (GSUs) on a natural gas systems and their optimal allocation to loads are the key factors to organize an efficient upstream gas infrastructure. The number of GSUs and their optimal location in a gas network is a decision problem that can be formulated as a linear programming problem. Our emphasis is on the formulation and use of a suitable location model, reflecting real-world operations and constraints of a natural gas system. This paper presents a heuristic model, based on lagrangean approach, developed for finding the optimal GSUs location on a natural gas network, minimizing expenses and maximizing throughput and security of supply.The location model is applied to the Iberian high pressure natural gas network, a system modelised with 65 demand nodes. These nodes are linked by physical and virtual pipelines – road trucks with gas in liquefied form. The location model result shows the best places to locate, with the optimal demand allocation and the most economical gas transport mode: by pipeline or by road truck.
Resumo:
A major determinant of the level of effective natural gas supply is the ease to feed customers, minimizing system total costs. The aim of this work is the study of the right number of Gas Supply Units – GSUs - and their optimal location in a gas network. This paper suggests a GSU location heuristic, based on Lagrangean relaxation techniques. The heuristic is tested on the Iberian natural gas network, a system modelized with 65 demand nodes, linked by physical and virtual pipelines. Lagrangean heuristic results along with the allocation of loads to gas sources are presented, using a 2015 forecast gas demand scenario.
Resumo:
In this paper we study the optimal natural gas commitment for a known demand scenario. This study implies the best location of GSUs to supply all demands and the optimal allocation from sources to gas loads, through an appropriate transportation mode, in order to minimize total system costs. Our emphasis is on the formulation and use of a suitable optimization model, reflecting real-world operations and the constraints of natural gas systems. The mathematical model is based on a Lagrangean heuristic, using the Lagrangean relaxation, an efficient approach to solve the problem. Computational results are presented for Iberian and American natural gas systems, geographically organized in 65 and 88 load nodes, respectively. The location model results, supported by the computational application GasView, show the optimal location and allocation solution, system total costs and suggest a suitable gas transportation mode, presented in both numerical and graphic supports.
Resumo:
To comply with natural gas demand growth patterns and Europe´s import dependency, the gas industry needs to organize an efficient upstream infrastructure. The best location of Gas Supply Units – GSUs and the alternative transportation mode – by phisical or virtual pipelines, are the key of a successful industry. In this work we study the optimal location of GSUs, as well as determining the most efficient allocation from gas loads to sources, selecting the best transportation mode, observing specific technical restrictions and minimizing system total costs. For the location of GSUs on system we use the P-median problem, for assigning gas demands nodes to source facilities we use the classical transportation problem. The developed model is an optimisation-based approach, based on a Lagrangean heuristic, using Lagrangean relaxation for P-median problems – Simple Lagrangean Heuristic. The solution of this heuristic can be improved by adding a local search procedure - the Lagrangean Reallocation Heuristic. These two heuristics, Simple Lagrangean and Lagrangean Reallocation, were tested on a realistic network - the primary Iberian natural gas network, organized with 65 nodes, connected by physical and virtual pipelines. Computational results are presented for both approaches, showing the location gas sources and allocation loads arrangement, system total costs and gas transportation mode.
Resumo:
Desde la caída de la URSS el continente Euroasiático ha sufrido cambios importantes como una nueva configuración del Sistema Internacional que generó procesos políticos a través de la lucha de los Estados por alcanzar sus objetivos. La ubicación geográfica y los recursos resaltan la importancia de la zona y es por esto empiezan los conflictos entre los Estados por obtener un control y poder sobre estos territorios. Rusia afianzo su fuerza con la influencia que logró sobre los territorios que quedaron después de la disolución de la URSS en 1991 creando así una zona de protección y apoyo para sus intereses. Por su lado Georgia que había logrado finalmente su independencia total buscaba consolidar una estabilidad política, económica, social y cultural, elementos que se habían perdido un poco después de las invasiones y ocupaciones por otros poderes. En este contexto cae como una bomba la intención independentista de Abjasia y Osetia del Sur, territorios que siempre habían estado bajo mando de otros poderes y ahora querían libertad a través de la conformación de un Estado propio y una autonomía que les permitiera tener un gobierno y un aparato estatal que velara por sus intereses. Este trabajo se centrará en contestar a la siguiente pregunta ¿De qué manera la situación geopolítica de Osetia del Sur y Abjasia y las relaciones entre Rusia y Georgia influyeron en el conflicto generado a partir de la intención de independencia de los territorios de Abjasia y Osetia del Sur?
Resumo:
Estudio de caso que busca evaluar el uso del gas natural dentro de la política exterior rusa como recurso estratégico en las relaciones con Ucrania. Se describe y analiza cómo la importancia geoestratégica de Ucrania genera una percepción de seguridad y relevancia económica en Rusia, por esta razón la Federación utiliza el gas natural como mecanismo de presión frente al Estado ucraniano para satisfacer sus intereses nacionales en función de los elementos mencionados anteriormente.Todo lo anterior a través de la Teoría del Heartland desarrollada por Halford Mackinder y El Concepto de Área Pivote de Zbigniew Brzezinski para determinar cómo se genera la importancia del Estado ucraniano frente a Rusia
