Driven by the impact of economic growth, urbanization, and national strategies for low-carbon development, the TNGC of urban households in China is growing rapidly. In this paper, the feasible ...generalized least square method is used to investigate the consumption of natural gas and the per capita natural gas consumption of urban residents in 30 provinces in China (not including central heating and the natural gas consumption of natural gas vehicles). We study the factors influencing natural gas consumption by urban residents in China and conduct scenario forecasting. The empirical results show that the impact coefficients of PNGs and household income on average natural gas consumption are − 0.895 and 0.222, respectively, while the impact coefficients of the NGP are − 0.603 and 0.346, respectively. The scenario forecast results show that the consumption of natural gas in Chinese households reached 75.469 billion cubic meters in 2025. China's natural gas season peak pressure will continue to increase. In response to this, the following three suggestions are proposed. (1) According to the price elasticity of natural gas, the Chinese government should adjust and improve the mechanism for the formation of PNGs for residents and promote the marketization of natural gas. (2) Accelerate the construction of natural gas reserves and allocate the natural gas supply according to regional differences in natural gas consumption to enhance China's natural gas peak shaving capacity. (3) Improve and optimize natural gas development plans to achieve coordinated development of natural gas supply and demand.
•We analyze the factors influencing changes in the average consumption of natural gas in households.•We analyze the factors influencing changes in the residential population who use natural gas.•The price and income will affect both the number of natural gas and the average household consumption.•We have found that China's natural gas season peaking pressure will continue to increase.
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GEOZS, IJS, IMTLJ, KILJ, KISLJ, NLZOH, NUK, OILJ, PNG, SAZU, SBCE, SBJE, UL, UM, UPCLJ, UPUK, ZRSKP
Recent emission measurement campaigns have improved our understanding of the total greenhouse gas (GHG) emissions across the natural gas supply chain, the individual components that contribute to ...these emissions, and how these emissions vary geographically. However, our current understanding of natural gas supply chain emissions does not account for the linkages between specific production basins and consumers. This work provides a detailed life cycle perspective on how GHG emissions vary according to where natural gas is produced and where it is delivered. This is accomplished by disaggregating transmission and distribution infrastructure into six regions, balancing natural gas supply and demand locations to infer the likely pathways between production and delivery, and incorporating new data on distribution meters. The average transmission distance for U.S. natural gas is 815 km but ranges from 45 to 3000 km across estimated production-to-delivery pairings. In terms of 100-year global warming potentials, the delivery of one megajoule (MJ) of natural gas to the Pacific region has the highest mean life cycle GHG emissions (13.0 g CO2e/MJ) and the delivery of natural gas to the Northeast U.S. has the lowest mean life cycle GHG emissions (8.1 g CO2e/MJ). The cradle-to-delivery scenarios developed in this work show that a national average does not adequately represent the upstream GHG emission intensity for natural gas from a specific basin or delivered to a specific consumer.
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IJS, KILJ, NUK, PNG, UL, UM
3.
The Bridge Gustafson, Thane
2020, 2020-01-07
eBook
A Marginal Revolution Best Book of the Year Winner of the Shulman Book Prize A noted expert on Russian energy argues that despite Europe's geopolitical rivalries, natural gas and deals based on it ...unite Europe's nations in mutual self-interest. Three decades after the fall of the Berlin Wall and the breakup of the Soviet empire, the West faces a new era of East–West tensions. Any vision of a modern Russia integrated into the world economy and aligned in peaceful partnership with a reunited Europe has abruptly vanished.Two opposing narratives vie to explain the strategic future of Europe, one geopolitical and one economic, and both center on the same resource: natural gas. In The Bridge, Thane Gustafson, an expert on Russian oil and gas, argues that the political rivalries that capture the lion's share of media attention must be viewed alongside multiple business interests and differences in economic ideologies. With a dense network of pipelines linking Europe and Russia, natural gas serves as a bridge that unites the region through common interests.Tracking the economic and political role of natural gas through several countries—Russia and Ukraine, the United Kingdom, Germany, the Netherlands, and Norway— The Bridge details both its history and its likely future. As Gustafson suggests, there are reasons for optimism, but whether the "gas bridge" can ultimately survive mounting geopolitical tensions and environmental challenges remains to be seen.
This book addresses unique issues and many challenges in the entire “food chain” of natural gas engineering related to upstream, midstream and downstream. It can serve as a reference book for all ...engineers in the energy business, a textbook for students in petroleum and chemical engineering curricula, and a handbook for training departments of a large group of companies.
Liquefied natural gas (LNG) is a commercially attractive phase of the commodity that facilitates the efficient handling and transportation of natural gas around the world. The LNG industry, using ...technologies proven over decades of development, continues to expand its markets, diversify its supply chains and increase its share of the global natural gas trade. The Handbook is a timely book as the industry is currently developing new large sources of supply and the technologies have evolved in recent years to enable offshore infrastructure to develop and handle resources in more remote and harsher environments. It is the only book of its kind, covering the many aspects of the LNG supply chain from liquefaction to regasification by addressing the LNG industries' fundamentals and markets, as well as detailed engineering and design principles.
The history of natural gas wellhead and pipeline regulation, deregulation and regulatory reforms are discussed. These reforms brought natural gas shortages and pipeline inefficiencies to an end. They ...also created an economic platform that could support unanticipated developments in the supply and costs of domestic natural gas. Such unanticipated developments emerged in the last few years as several technological innovations came together to make it commercially attractive to development US shale gas deposits located deep in the earth. How and why shale gas supplies will lead to dramatic changes in the United States' energy future with appropriate environmental regulatory reforms are discussed. PUBLICATION ABSTRACT
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BFBNIB, CEKLJ, INZLJ, IZUM, KILJ, NMLJ, NUK, ODKLJ, PILJ, PNG, SAZU, UL, UM, UPUK, ZRSKP
Natural gas vehicles offer the benefits of reducing oil use, CO2 emissions and air pollutants. Promoting the use of natural gas vehicles is considered as one of the most important strategies towards ...sustainable transportation. China made remarkable progress in promoting natural gas vehicles over recent years, and its 4.6 million natural gas vehicles in 2014 represented the world׳s largest natural gas vehicle fleet. In this paper, the development of natural gas vehicles in China is reviewed based on a triple-perspective (Fuel-Vehicle-Infrastructure) technical–economical framework. The review indicates that (a) pricing of vehicle-use Compressed Natural Gas (CNG) and Liquefied Natural Gas (LNG) is essential in determining natural gas vehicle development. A pricing principle similar to the fixed CNG/gasoline price ratio (0.75:1) should be applied to LNG/diesel price ratio; (b) for CNG passenger vehicles, the modified CNG vehicles, with ¥3000–5000 additional cost, is more attractive to consumers than originally manufactured CNG vehicles, with about ¥10,000 additional cost. Vehicle retrofit should be permitted by the government with the precondition that retrofit standards are strictly enforced; (c) for CNG/LNG transit buses, the deployment is strongly affected by local government׳s preference. In regions with sufficient natural gas supply, the government should prioritize the deployment of CNG/LNG transit buses rather than other technologies; (d) for LNG commercial vehicles, with ¥60,000–80,000 higher cost than their counterpart diesel vehicles, financial incentive is critical for their development. China׳s current vehicle subsidy scheme should be extended to cover LNG commercial vehicles; (e) regarding refueling infrastructures, interference with urban land-use planning and long-time administrative approval are the major barriers. Local governments should launch dedicated plans and strategies to support the further deployment of CNG/LNG refueling infrastructures.
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GEOZS, IJS, IMTLJ, KILJ, KISLJ, NUK, OILJ, PNG, SAZU, SBCE, SBJE, UL, UM, UPCLJ, UPUK, ZRSKP
Shale gas production represents a large potential source of natural gas for the nation. The scale and rapid growth in shale gas development underscore the need to better understand its environmental ...implications, including water consumption. This study estimates the water consumed over the life cycle of conventional and shale gas production, accounting for the different stages of production and for flowback water reuse (in the case of shale gas). This study finds that shale gas consumes more water over its life cycle (13–37 L/GJ) than conventional natural gas consumes (9.3–9.6 L/GJ). However, when used as a transportation fuel, shale gas consumes significantly less water than other transportation fuels. When used for electricity generation, the combustion of shale gas adds incrementally to the overall water consumption compared to conventional natural gas. The impact of fuel production, however, is small relative to that of power plant operations. The type of power plant where the natural gas is utilized is far more important than the source of the natural gas.
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Microbial communities associated with produced water from hydraulic fracturing are not well understood, and their deleterious activity can lead to significant increases in production costs and ...adverse environmental impacts. In this study, we compared the microbial ecology in prefracturing fluids (fracturing source water and fracturing fluid) and produced water at multiple time points from a natural gas well in southwestern Pennsylvania using 16S rRNA gene-based clone libraries, pyrosequencing, and quantitative PCR. The majority of the bacterial community in prefracturing fluids constituted aerobic species affiliated with the class Alphaproteobacteria. However, their relative abundance decreased in produced water with an increase in halotolerant, anaerobic/facultative anaerobic species affiliated with the classes Clostridia, Bacilli, Gammaproteobacteria, Epsilonproteobacteria, Bacteroidia, and Fusobacteria. Produced water collected at the last time point (day 187) consisted almost entirely of sequences similar to Clostridia and showed a decrease in bacterial abundance by 3 orders of magnitude compared to the prefracturing fluids and produced water samplesfrom earlier time points. Geochemical analysis showed that produced water contained higher concentrations of salts and total radioactivity compared to prefracturing fluids. This study provides evidence of long-term subsurface selection of the microbial community introduced through hydraulic fracturing, which may include significant implications for disinfection as well as reuse of produced water in future fracturing operations.
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Natural gas, the cleanest fossil fuel, accounts for 24% of global energy demand. As the demand rises, there is a higher technology requirement towards efficient gas storage and transportation. ...Therefore, based on the technology paradigm theory, this study developed a data analysis system based on bibliometric analysis and visualization techniques to reveal the development path for natural gas transportation technologies. It has identified that competition and diffusion stages of gas transportation technologies are common natural gas transportation technologies and adsorbed natural gas respectively, while the gas hydrates technology is in the shift stage. The importance of laws and policies in driving the technological evolution in these three stages was also examined. Natural gas hydrate’s superior energy storage capacity and moderate synthesis conditions make it a promising natural gas transportation technology. However, challenges, such as technological limitations, industrial realization, economic benefits, and environmental impacts hinder the paradigm shift. Therefore, an integrated natural gas transport system involving natural gas hydrate technology is proposed and associated policy recommendations are given in technological innovation, monitoring systems, and resource allocation to facilitate the development of natural gas hydrate transportation technology.
•Three technological paradigmatic stages of natural gas transportation are determined.•Law and policy play critical roles in driving the technological evolution.•NGH transportation technology has vast potential, with four challenges highlighted.•An integrated system involving PNG, LNG, CNG, NGH and stakeholders is proposed.•Policy recommendations in terms of technology, regulatory and resource are given.
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GEOZS, IJS, IMTLJ, KILJ, KISLJ, NLZOH, NUK, OILJ, PNG, SAZU, SBCE, SBJE, UILJ, UL, UM, UPCLJ, UPUK, ZAGLJ, ZRSKP