Global ETD Search

1	Uso de gás natural para produção de óleo diesel no Brasil a partir da rota gás-to-liquids: estudo de viabilidade técnico-econômica usando reservas do Pré-sal / Natural gas usage for diesel fuel production in Brazil through the gas-to-liquids route: Technical and economical feasibility analysis using natural gas reserves from the pre salt. 2016. 113 f. Dissertação (Mestrado em Energia) Instituto de Energia e Ambiente, Universidade de São Paulo, São Paulo, 2016. Quiroga, Gelsio Pereira 30 September 2016 (has links) Devido à sua natureza, o gás natural (GN) tem na distância aos pontos de consumo um obstáculo para sua utilização, a qual vai além simples queima para geração de energia ou obtenção de calor. Portanto, é importante que sejam discutidos novos métodos para distribuí-lo e transformá-lo em fontes de energia de maior valor agregado ou em matéria-prima para fabricação de produtos a serem utilizados na indústria química. Uma opção é a conversão do GN em combustíveis líquidos de pronto uso como óleo diesel, gasolina e querosene de aviação através da rota Gas-To-Liquids (GTL). O presente trabalho avalia o potencial da tecnologia GTL no contexto do crescimento da oferta de gás natural no Brasil pelos gasodutos Rota 2 e Rota 3, contextualizando o cenário brasileiro desse energético, as perspectivas futuras e o estado da tecnologia GTL com o processo Fisher-Tropsch. Para tanto, é simulado e analisado o desempenho econômico de uma planta de diesel GTL operante por 30 anos em cenários de preços de insumo e produto obtidos por projeções de reconhecimento internacional. / The usage of natural gás (NG) is related to the distance to the final customers, that is a real obstacle to its full utilization which is beyond the usage as fuel for electricity or heat generation. It is important to prospect, analyze and propose new methods for distribution and transformation of this important energy suppy to more value added products or special raw material for the chemical industry. The transformation in ready for use liquid fuels like diesel, gasoline and kerosene through the gas-to-liquid route (GTL) is one of the options. This dissertation evaluates the GTL technology in a context of the NG additional volume available through 2 new pipelines coming from offshore, Rota 2 and Rota 3 in the Brazilian context of NG current usage and its future perspectives taking advantage of this additional availability via the traditional and long term tested GTL Fischer-Tropsch (FT) technology. A GTL FT Diesel plant operating for 30 years was taken as an example considering different scenarios for NG and Oil prices retrieved from the IEA data base that is internationally considered as a consistent source of information. Avaliação Técnico-Econômica Diesel Diesel Economical Assessment Fischer-Tropsch Fischer-Tropsch Gás Natural Gas-To-Liquids Gas-To-Liquids GN GTL GTL Natural Gas NG Pré-Sal
2	"Produção de óleo diesel limpo a partir do gás natural: estudo de viabilidade técnico-econômica para a instalação de uma planta GTL (gas-to-liquids) no Brasil" / Production of liquid hydrocarbons employing Natural Gas: a study of the technical and economical feasibility of a GTL plant in Brazil Roberto Callari 26 February 2007 (has links) CALLARI. R. Produção de óleo diesel limpo a partir do gás natural: estudo de viabilidade técnico-econômica para a instalação de uma planta gtl (gas-to-liquids) no Brasil. 2007. 84 p. Tese de Mestrado ? Programa Interunidades de Pós-Graduação em Energia. Universidade de São Paulo. A tecnologia de produção de combustíveis sintéticos iniciou seu desenvolvimento a partir de 1919, na Alemanha, tendo o carvão mineral como insumo para a gaseificação. Este processo conhecido como Gas-To-Liquids (GTL) é uma transformação química que gera produtos líquidos e estáveis à temperatura e pressão ambientes. Essa transformação pode ser realizada no próprio local de produção do gás, evitando investimentos e problemas ambientais na construção de gasodutos. No Brasil, o gás natural apresenta crescente incremento da sua produção, e forte aumento das suas reservas, tanto associado quanto não-associado ao petróleo. Dessa forma, como as estruturas de plataformas normalmente se localizam em áreas remotas, torna-se custoso o aproveitamento desse gás que é liberado pela produção do óleo, sendo o mesmo queimado ou ventado. Devido às restrições estabelecidas pela legislação ambiental, a queima do gás natural nas plataformas de produção passa a ser problemática e crítica. Este trabalho visa avaliar a economicidade da implantação de uma planta para a produção de GTL no Brasil, de modo a permitir a manutenção da produção de petróleo dentro das limitações das leis ambientais, e também gerar um melhor aproveitamento do gás natural, produzindo materiais com maior valor agregado. Assim, para desonerar a produção dos líquidos, a instalação de plantas de transformação de gás natural em GTL, centralizada em áreas de grande produção de gás associado, poderia ser a solução para a queima do gás liberado na produção do óleo. Da mesma forma, as plantas de transformação em GTL poderiam permitir a monetização do gás remoto, através da facilidade de transporte do GTL produzido. Palavras-Chave: gás natural, gas-to-liquids, avaliação econômica, diesel limpo, Fischer-Tropsch / CALLARI. R. Production of liquid hydrocarbons employing Natural Gas: a study of the technical and economical feasibility of a GTL plant in Brazil, 2007. 84 f. Work. Program of Post-Graduation in Energy, Universidade de São Paulo, São Paulo, 2007. The development of the technology for the production of synthetic fuels from the gasification of coal started in 1919 in Germany. For a period of time the liquid hydrocarbons production increased and within the years, it was almost discontinued. The technology known as Gas-To-Liquids (GTL) refers to a chemical transformation that generates liquid products that are stable at room temperature and pressure. The transformation can be accomplished close to the natural gas production sites. In Brazil, the production and use natural gas has been growing because of the increase of the reserves of both, associated and non-associated gas. Natural gas is produced from oil explotation. The production of the liquid fractions requires processing steps. Since the offshore installations are located in distant areas, the use of the gas produced is expensive and in many cases, the gas is burned or exhausted. Due to environmental restraints the gas burning turns to be a critical issue. In order to cheapen the production of liquid products, the installation of plants to transform natural gas through the GTL technology, in associated oil and gas production installations could be the solution for the gas burning or exhaustion. The GTL plants could allow the monetization of the remote gas through the transportation of the GTL fuels produced. This work presents an evaluation of the economic costs for the implantation of a GTL plant in Brazil, in a way that allows the oil production to be kept within the environmental requirements and to generate a better use of natural gas. Avaliação Econômica Diesel limpo Fischer-Tropsch Gás Natural Gas-To-Liquids clean diesel economical assessment Fischer-Tropsch gas-to-liquids natural gas
3	"Produção de óleo diesel limpo a partir do gás natural: estudo de viabilidade técnico-econômica para a instalação de uma planta GTL (gas-to-liquids) no Brasil" / Production of liquid hydrocarbons employing Natural Gas: a study of the technical and economical feasibility of a GTL plant in Brazil Callari, Roberto 26 February 2007 (has links) CALLARI. R. Produção de óleo diesel limpo a partir do gás natural: estudo de viabilidade técnico-econômica para a instalação de uma planta gtl (gas-to-liquids) no Brasil. 2007. 84 p. Tese de Mestrado ? Programa Interunidades de Pós-Graduação em Energia. Universidade de São Paulo. A tecnologia de produção de combustíveis sintéticos iniciou seu desenvolvimento a partir de 1919, na Alemanha, tendo o carvão mineral como insumo para a gaseificação. Este processo conhecido como Gas-To-Liquids (GTL) é uma transformação química que gera produtos líquidos e estáveis à temperatura e pressão ambientes. Essa transformação pode ser realizada no próprio local de produção do gás, evitando investimentos e problemas ambientais na construção de gasodutos. No Brasil, o gás natural apresenta crescente incremento da sua produção, e forte aumento das suas reservas, tanto associado quanto não-associado ao petróleo. Dessa forma, como as estruturas de plataformas normalmente se localizam em áreas remotas, torna-se custoso o aproveitamento desse gás que é liberado pela produção do óleo, sendo o mesmo queimado ou ventado. Devido às restrições estabelecidas pela legislação ambiental, a queima do gás natural nas plataformas de produção passa a ser problemática e crítica. Este trabalho visa avaliar a economicidade da implantação de uma planta para a produção de GTL no Brasil, de modo a permitir a manutenção da produção de petróleo dentro das limitações das leis ambientais, e também gerar um melhor aproveitamento do gás natural, produzindo materiais com maior valor agregado. Assim, para desonerar a produção dos líquidos, a instalação de plantas de transformação de gás natural em GTL, centralizada em áreas de grande produção de gás associado, poderia ser a solução para a queima do gás liberado na produção do óleo. Da mesma forma, as plantas de transformação em GTL poderiam permitir a monetização do gás remoto, através da facilidade de transporte do GTL produzido. Palavras-Chave: gás natural, gas-to-liquids, avaliação econômica, diesel limpo, Fischer-Tropsch / CALLARI. R. Production of liquid hydrocarbons employing Natural Gas: a study of the technical and economical feasibility of a GTL plant in Brazil, 2007. 84 f. Work. Program of Post-Graduation in Energy, Universidade de São Paulo, São Paulo, 2007. The development of the technology for the production of synthetic fuels from the gasification of coal started in 1919 in Germany. For a period of time the liquid hydrocarbons production increased and within the years, it was almost discontinued. The technology known as Gas-To-Liquids (GTL) refers to a chemical transformation that generates liquid products that are stable at room temperature and pressure. The transformation can be accomplished close to the natural gas production sites. In Brazil, the production and use natural gas has been growing because of the increase of the reserves of both, associated and non-associated gas. Natural gas is produced from oil explotation. The production of the liquid fractions requires processing steps. Since the offshore installations are located in distant areas, the use of the gas produced is expensive and in many cases, the gas is burned or exhausted. Due to environmental restraints the gas burning turns to be a critical issue. In order to cheapen the production of liquid products, the installation of plants to transform natural gas through the GTL technology, in associated oil and gas production installations could be the solution for the gas burning or exhaustion. The GTL plants could allow the monetization of the remote gas through the transportation of the GTL fuels produced. This work presents an evaluation of the economic costs for the implantation of a GTL plant in Brazil, in a way that allows the oil production to be kept within the environmental requirements and to generate a better use of natural gas. Avaliação Econômica clean diesel Diesel limpo economical assessment Fischer-Tropsch Fischer-Tropsch Gás Natural gas-to-liquids Gas-To-Liquids natural gas
4	Uso de gás natural para produção de óleo diesel no Brasil a partir da rota gás-to-liquids: estudo de viabilidade técnico-econômica usando reservas do Pré-sal / Natural gas usage for diesel fuel production in Brazil through the gas-to-liquids route: Technical and economical feasibility analysis using natural gas reserves from the pre salt. 2016. 113 f. Dissertação (Mestrado em Energia) Instituto de Energia e Ambiente, Universidade de São Paulo, São Paulo, 2016. Gelsio Pereira Quiroga 30 September 2016 (has links) Devido à sua natureza, o gás natural (GN) tem na distância aos pontos de consumo um obstáculo para sua utilização, a qual vai além simples queima para geração de energia ou obtenção de calor. Portanto, é importante que sejam discutidos novos métodos para distribuí-lo e transformá-lo em fontes de energia de maior valor agregado ou em matéria-prima para fabricação de produtos a serem utilizados na indústria química. Uma opção é a conversão do GN em combustíveis líquidos de pronto uso como óleo diesel, gasolina e querosene de aviação através da rota Gas-To-Liquids (GTL). O presente trabalho avalia o potencial da tecnologia GTL no contexto do crescimento da oferta de gás natural no Brasil pelos gasodutos Rota 2 e Rota 3, contextualizando o cenário brasileiro desse energético, as perspectivas futuras e o estado da tecnologia GTL com o processo Fisher-Tropsch. Para tanto, é simulado e analisado o desempenho econômico de uma planta de diesel GTL operante por 30 anos em cenários de preços de insumo e produto obtidos por projeções de reconhecimento internacional. / The usage of natural gás (NG) is related to the distance to the final customers, that is a real obstacle to its full utilization which is beyond the usage as fuel for electricity or heat generation. It is important to prospect, analyze and propose new methods for distribution and transformation of this important energy suppy to more value added products or special raw material for the chemical industry. The transformation in ready for use liquid fuels like diesel, gasoline and kerosene through the gas-to-liquid route (GTL) is one of the options. This dissertation evaluates the GTL technology in a context of the NG additional volume available through 2 new pipelines coming from offshore, Rota 2 and Rota 3 in the Brazilian context of NG current usage and its future perspectives taking advantage of this additional availability via the traditional and long term tested GTL Fischer-Tropsch (FT) technology. A GTL FT Diesel plant operating for 30 years was taken as an example considering different scenarios for NG and Oil prices retrieved from the IEA data base that is internationally considered as a consistent source of information. Avaliação Técnico-Econômica Diesel Fischer-Tropsch Gás Natural Gas-To-Liquids GN GTL Pré-Sal Diesel Economical Assessment Fischer-Tropsch Gas-To-Liquids GTL Natural Gas NG
5	High-Pressure Natural Gas to Syngas Chemical Looping: Thermodynamic Modeling, Gas-to-Liquid Plant Integration, and Variable Reducer-Combustor Operating Pressure Sandvik, Peter 28 August 2019 (has links) No description available. Chemical Engineering chemical looping natural gas gas-to-liquids simulation high-pressure pressure
6	Monetizing stranded gas : economic valuation of GTL and LNG projects Black, Brodie Gene, 1986- 01 November 2010 (has links) Globally, there are significant quantities of natural gas reserves that lie economically or physically stranded from markets. Options to monetize such reserves include Gas to Liquids (GTL) and Liquefied Natural Gas (LNG) technologies. GTL is a unique monetization option that brings natural gas products to crude oil markets. This technology is commercially immature, appears to have attractive market potential, requires substantial capital investments, and has uncertain operating costs and revenue generation. LNG is a more established monetization option. Project economics for the two technologies are reviewed, as well as literature evaluating such for either or both. Discounted cash flow models are studied for two project scenarios, and results are discussed and compared. The modeling effort seeks to inform the decision to invest in GTL or LNG for the monetization of a stranded gas reserve. / text GTL LNG Gas to Liquids Liquefied Natural Gas Natural gas reserves Stranded gas reserves Economic valuation Monetizing stranded gas Cash flow models
7	Economic viability of a floating gas-to-liquids (GTL) plant / Michael Etim Bassey Bassey, Michael Etim January 2007 (has links) Today, a large proportion of the world's plenteous offshore natural gas resource are stranded, flared or re-injected due to constraints pertaining to its utilisation. The major constraint in the utilisation of this resource is linked to its properties, which makes it difficult to transport or store. Although the resource presents an excellent opportunity for the Gas-to-Liquid (GTL) technology (process for converting natural gas into high energy liquid fuels with qualities that surpass the most stringent current and future clean-fuel requirements), the further processing of this resource is still impeded by high cost of transportation. However, it is believed that the emerging Floating GTL concept could offer superb opportunities to bring such offshore stranded natural gas reserves to markets by converting the gas into high quality liquid fuels, at the production sites, before it is transported using conventional oil tankers or vessels. But the question is: can this venture be profitable or economically viable? In response, an Economic Model (the EV Model) to review the economic viability of the Floating GTL option was developed. Analyses on technical and economical aspects of the floating GTL application offshore are presented with case studies on Syntroleum's and Statoil's floating GTL designs. Profitability analyses were conducted using the EV model to evaluate economic parameters such as Net Present Value (NPV), Internal Rate of Return (IRR), Discounted PayBack Period (DPBP), Profitability index (PI), Break-Even Analysis (BEA) and Scale Economies for some assumed case scenarios involving both designs. In addition, sensitivity analyses were also carried out to find the most sensitive parameters which affect the viability of the floating GTL option. The economic analyses revealed that, a modest feedstock cost (~0 - $3/MSCF), high crude oil price (that stays above $30 per barrel) and reduction trend in capital expenditure (for stand alone Floating GTL plant) up to $20,00O/BPD or lower in the next few years, will open windows for the floating GTL concept. Finally, the energy policy needed to achieve the capitalisation of the plenteous offshore stranded gas resource via floating GTL is also discussed. / Thesis (M.Ing. (Development and Management))--North-West University, Potchefstroom Campus, 2007. Stranded gas Gas-to-liquids (GTL) Floating GTL Internal rate of return Net present value Profitability index Discounted payBack time Break-even analysis Scale economies
8	Economic viability of a floating gas-to-liquids (GTL) plant / Bassey, Michael Etim Bassey, Michael Etim January 2007 (has links) Thesis (M.Ing. (Development and Management))--North-West University, Potchefstroom Campus, 2007. Stranded gas Gas-to-liquids (GTL) Floating GTL Internal rate of return Net present value Profitability index Discounted payBack time Break-even analysis Scale economies
9	Economic viability of a floating gas-to-liquids (GTL) plant / Michael Etim Bassey Bassey, Michael Etim January 2007 (has links) Today, a large proportion of the world's plenteous offshore natural gas resource are stranded, flared or re-injected due to constraints pertaining to its utilisation. The major constraint in the utilisation of this resource is linked to its properties, which makes it difficult to transport or store. Although the resource presents an excellent opportunity for the Gas-to-Liquid (GTL) technology (process for converting natural gas into high energy liquid fuels with qualities that surpass the most stringent current and future clean-fuel requirements), the further processing of this resource is still impeded by high cost of transportation. However, it is believed that the emerging Floating GTL concept could offer superb opportunities to bring such offshore stranded natural gas reserves to markets by converting the gas into high quality liquid fuels, at the production sites, before it is transported using conventional oil tankers or vessels. But the question is: can this venture be profitable or economically viable? In response, an Economic Model (the EV Model) to review the economic viability of the Floating GTL option was developed. Analyses on technical and economical aspects of the floating GTL application offshore are presented with case studies on Syntroleum's and Statoil's floating GTL designs. Profitability analyses were conducted using the EV model to evaluate economic parameters such as Net Present Value (NPV), Internal Rate of Return (IRR), Discounted PayBack Period (DPBP), Profitability index (PI), Break-Even Analysis (BEA) and Scale Economies for some assumed case scenarios involving both designs. In addition, sensitivity analyses were also carried out to find the most sensitive parameters which affect the viability of the floating GTL option. The economic analyses revealed that, a modest feedstock cost (~0 - $3/MSCF), high crude oil price (that stays above $30 per barrel) and reduction trend in capital expenditure (for stand alone Floating GTL plant) up to $20,00O/BPD or lower in the next few years, will open windows for the floating GTL concept. Finally, the energy policy needed to achieve the capitalisation of the plenteous offshore stranded gas resource via floating GTL is also discussed. / Thesis (M.Ing. (Development and Management))--North-West University, Potchefstroom Campus, 2007. Stranded gas Gas-to-liquids (GTL) Floating GTL Internal rate of return Net present value Profitability index Discounted payBack time Break-even analysis Scale economies
10	Escravos gas to liquid and community integration : a multi-case study approach / K.A. Ajoguntan Ajoguntan, Kayode Austine January 2008 (has links) Socioeconomic study is a procedure that ensures that the likely positive and negative impact of a new project on the socioeconomic life of a community is taken into account. It has become a crucial part of sustainable development process. The understanding of socioeconomic study procedures is an increasing necessity for all those involved in the process. Similarly, proper knowledge of the function of socioeconomic study during the environmental impact assessment (EIA) process is of paramount importance for the mitigation of the likely effects of the new development. Furthermore, as the world is gradually growing into a global village, it has become increasingly imperative that organizations integrate the people in their operations' areas in the overall objective of their businesses. Community engagement (CE) is a partnership process that can be used to assess and manage the problem affecting the well-being of a community because of a new development. This research work used the SWOT matrix technique to develop a management framework that companies can use to manage their weaknesses and threats because of inadequate community engagement strategy. To achieve this, the work evaluated the extent to which socioeconomic study is integrated into the EIA processes. It also assessed the extent to which oil companies are using community engagement as a development strategy. The findings of this dissertation revealed that oil explorations in the Niger Delta area have affected the well-being of the people both positively and negatively. Unfortunately, their negative impact outweighed their positive impact. Although they carry out socioeconomic studies, they have been neglecting the recommendations reported in the socioeconomic study document by experts. The level of community engagements therefore has also been very poor. SWOT matrix technique was used to develop the management framework for each company based on the perceived strengths, weaknesses, opportunities and threats of the companies as revealed in this research. This should serve as a guide for the companies in their CE strategies. / Thesis (M.Ing. (Development and Management Engineering))--North-West University, Potchefstroom Campus, 2009. Environmental impact assessment Socioeconomic study Social impact assessment SWOT matrix SWOT analysis Management framework matrix Community engagement strategy Socioeconomic impact indicators Principles of community engagement Gas to liquids Sustainable development Community integration

Search results