Shale gas: a step toward sustainable energy future

The world energy consumption is going to rise by nearly 50% in 2050 when compared to 2010. With conventional and unconventional reserves depleting, demand for energy supply is rising. The feasibility and the current efficiency of renewable energy sources may not be capable of satisfying the world en...

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Veröffentlicht in:	Journal of Petroleum Exploration and Production Technology 2021-05, Vol.11 (5), p.2127-2141
Hauptverfasser:	Bellani, Jayesh, Verma, Harsh Kumar, Khatri, Dhrumil, Makwana, Dhruv, Shah, Manan
Format:	Artikel
Sprache:	eng
Schlagworte:	Alternative energy sources Current efficiency Earth and Environmental Science Earth Sciences Economics Energy consumption Energy demand Energy resources Energy sources Energy Systems Environmental management Feasibility studies Force and energy Fossil fuels Gas fields Geology Green technology Industrial and Production Engineering Industrial Chemistry/Chemical Engineering Monitoring/Environmental Analysis Natural gas Offshore Engineering Permeability Political factors Porosity Potential resources Renewable energy Renewable energy sources Renewable resources Reserves Resource management Review Paper-Exploration Engineering Sedimentary rocks Shale Shale gas Shale oils Shales Supply and demand Sustainability
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container_title	Journal of Petroleum Exploration and Production Technology
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creator	Bellani, Jayesh Verma, Harsh Kumar Khatri, Dhrumil Makwana, Dhruv Shah, Manan
description	The world energy consumption is going to rise by nearly 50% in 2050 when compared to 2010. With conventional and unconventional reserves depleting, demand for energy supply is rising. The feasibility and the current efficiency of renewable energy sources may not be capable of satisfying the world energy demand by themselves. Increase in production of non-renewable energy source, i.e., the fossil fuels may help to fulfill the energy requirement of future generations. Shale gas is one of the unconventional sources of energy. Shale gas deposits are scattered all over the planet in low-permeability and low porosity reservoirs. India has overall reserves of shale gas between 600 and 2000 TCF, of which 63 TCF is of recoverable shale gas (Pradhan and Prakash 2000). Shale production depends on many factors such as political matters, wars, social and economic aspects, and exploration techniques. Depending on the recoverable reserve (RR), production of shale gas entails different methods and with a different method, comes different problems described and discussed in this manuscript. Along with the problems, the technically recoverable reserves of different countries, different production mechanisms, and economic aspects of shale gas are also discussed.
doi_str_mv	10.1007/s13202-021-01157-7
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subjects	Alternative energy sources Current efficiency Earth and Environmental Science Earth Sciences Economics Energy consumption Energy demand Energy resources Energy sources Energy Systems Environmental management Feasibility studies Force and energy Fossil fuels Gas fields Geology Green technology Industrial and Production Engineering Industrial Chemistry/Chemical Engineering Monitoring/Environmental Analysis Natural gas Offshore Engineering Permeability Political factors Porosity Potential resources Renewable energy Renewable energy sources Renewable resources Reserves Resource management Review Paper-Exploration Engineering Sedimentary rocks Shale Shale gas Shale oils Shales Supply and demand Sustainability
title	Shale gas: a step toward sustainable energy future
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