State of the Art Geo-Energy Technology in China
Dear colleagues, Geological energy has a long history in China. As early as 500 BC, China began to use coal as fuel. In the middle of the 19th century, China began to develop oil resources. After the foundation of new China, with the discovery of the Daqing oilfield, China's oil industry entered an...
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| Formato: | Online |
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| Idioma: | inglês |
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MDPI - Multidisciplinary Digital Publishing Institute
2022
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| Acesso em linha: | ONIX_20220706_9783036543796_7 |
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| collection | Directory of Open Access Books |
| description | Dear colleagues, Geological energy has a long history in China. As early as 500 BC, China began to use coal as fuel. In the middle of the 19th century, China began to develop oil resources. After the foundation of new China, with the discovery of the Daqing oilfield, China's oil industry entered an era of great development. During the 21st century, with the development of drilling technology, the development of unconventional energy such as shale gas and shale oil has entered a new era. In recent years, the development of flammable ice has set off a wave of clean energy. With the carbon reduction plan proposed by the Chinese government, clean geo-energy has been granted unparalleled development space in the future. China's geo-energy development technology used to lag behind that of major developed countries for a long time, but after years of development, it has become the world's leading edge in some fields. Therefore, we specially set up this collection to collect China's advanced geo-energy exploitation technology and development trends, whilst providing some new directions for thinking about geo-energy development in China and even the world. This collection seeks to contribute to such topics through enhanced scientific and multidisciplinary knowledge. |
| format | Online |
| id | doab-20.500.12854ir-87412 |
| institution | Directory of Open Access Books |
| language | eng |
| publishDate | 2022 |
| publishDateRange | 2022 |
| publishDateSort | 2022 |
| publisher | MDPI - Multidisciplinary Digital Publishing Institute |
| publisherStr | MDPI - Multidisciplinary Digital Publishing Institute |
| record_format | ojs |
| spelling | doab-20.500.12854ir-874122024-03-27T16:34:26Z State of the Art Geo-Energy Technology in China Yang, Sheng-Qi Wang, Min Wang, Qi Zhang, Wen Du, Kun Zhu, Chun airflow reversal gas outburst mine ventilation system orthogonal experiment numerical simulation deep chamber asymmetric failure mechanical analysis control measures Yinggehai overpressure hydraulic fracture mudstone fluid pressure red sandstone pre-existing cracks creep behavior temperature long-term permeability partial saturation patchy saturation squirt flow P-wave velocity dispersion and attenuation anelasticity ultrasonic measurements heavy oil reservoirs cyclic steam stimulation conformance control extreme gradient boost (XGBoost) trees prediction model Dongsha Waters in the northern South China Sea margin velocity inversion mud volcano magma intrusion Mesozoic hydrocarbon tubing modal analysis fluid-structure interaction inlet pressure pipeline water hammer gas-liquid two-phase flow pressure velocity lattice Boltzmann method discrete element method sand production force chain network analysis seismic sedimentology sedimentary facies evolution peat accumulation regularity frequency–division amplitude fusion thin sand bodies stable crack propagation crack strain stress–strain curve model wing crack outburst coal primary coal structural parameters infrared spectrum XRD oil shale in situ conversion project biomarker pyrolysis process organic geochemistry thema EDItEUR::G Reference, Information and Interdisciplinary subjects::GP Research and information: general Dear colleagues, Geological energy has a long history in China. As early as 500 BC, China began to use coal as fuel. In the middle of the 19th century, China began to develop oil resources. After the foundation of new China, with the discovery of the Daqing oilfield, China's oil industry entered an era of great development. During the 21st century, with the development of drilling technology, the development of unconventional energy such as shale gas and shale oil has entered a new era. In recent years, the development of flammable ice has set off a wave of clean energy. With the carbon reduction plan proposed by the Chinese government, clean geo-energy has been granted unparalleled development space in the future. China's geo-energy development technology used to lag behind that of major developed countries for a long time, but after years of development, it has become the world's leading edge in some fields. Therefore, we specially set up this collection to collect China's advanced geo-energy exploitation technology and development trends, whilst providing some new directions for thinking about geo-energy development in China and even the world. This collection seeks to contribute to such topics through enhanced scientific and multidisciplinary knowledge. 2022-07-06T11:48:23Z 2022-07-06T11:48:23Z 2022 book ONIX_20220706_9783036543796_7 9783036543796 9783036543802 https://directory.doabooks.org/handle/20.500.12854/87412 eng application/octet-stream Attribution 4.0 International https://mdpi.com/books/pdfview/book/5599 https://mdpi.com/books/pdfview/book/5599 MDPI - Multidisciplinary Digital Publishing Institute 10.3390/books978-3-0365-4380-2 10.3390/books978-3-0365-4380-2 46cabcaa-dd94-4bfe-87b4-55023c1b36d0 9783036543796 9783036543802 264 Basel open access |
| spellingShingle | airflow reversal gas outburst mine ventilation system orthogonal experiment numerical simulation deep chamber asymmetric failure mechanical analysis control measures Yinggehai overpressure hydraulic fracture mudstone fluid pressure red sandstone pre-existing cracks creep behavior temperature long-term permeability partial saturation patchy saturation squirt flow P-wave velocity dispersion and attenuation anelasticity ultrasonic measurements heavy oil reservoirs cyclic steam stimulation conformance control extreme gradient boost (XGBoost) trees prediction model Dongsha Waters in the northern South China Sea margin velocity inversion mud volcano magma intrusion Mesozoic hydrocarbon tubing modal analysis fluid-structure interaction inlet pressure pipeline water hammer gas-liquid two-phase flow pressure velocity lattice Boltzmann method discrete element method sand production force chain network analysis seismic sedimentology sedimentary facies evolution peat accumulation regularity frequency–division amplitude fusion thin sand bodies stable crack propagation crack strain stress–strain curve model wing crack outburst coal primary coal structural parameters infrared spectrum XRD oil shale in situ conversion project biomarker pyrolysis process organic geochemistry thema EDItEUR::G Reference, Information and Interdisciplinary subjects::GP Research and information: general State of the Art Geo-Energy Technology in China |
| title | State of the Art Geo-Energy Technology in China |
| title_full | State of the Art Geo-Energy Technology in China |
| title_fullStr | State of the Art Geo-Energy Technology in China |
| title_full_unstemmed | State of the Art Geo-Energy Technology in China |
| title_short | State of the Art Geo-Energy Technology in China |
| title_sort | state of the art geo energy technology in china |
| topic | airflow reversal gas outburst mine ventilation system orthogonal experiment numerical simulation deep chamber asymmetric failure mechanical analysis control measures Yinggehai overpressure hydraulic fracture mudstone fluid pressure red sandstone pre-existing cracks creep behavior temperature long-term permeability partial saturation patchy saturation squirt flow P-wave velocity dispersion and attenuation anelasticity ultrasonic measurements heavy oil reservoirs cyclic steam stimulation conformance control extreme gradient boost (XGBoost) trees prediction model Dongsha Waters in the northern South China Sea margin velocity inversion mud volcano magma intrusion Mesozoic hydrocarbon tubing modal analysis fluid-structure interaction inlet pressure pipeline water hammer gas-liquid two-phase flow pressure velocity lattice Boltzmann method discrete element method sand production force chain network analysis seismic sedimentology sedimentary facies evolution peat accumulation regularity frequency–division amplitude fusion thin sand bodies stable crack propagation crack strain stress–strain curve model wing crack outburst coal primary coal structural parameters infrared spectrum XRD oil shale in situ conversion project biomarker pyrolysis process organic geochemistry thema EDItEUR::G Reference, Information and Interdisciplinary subjects::GP Research and information: general |
| topic_facet | airflow reversal gas outburst mine ventilation system orthogonal experiment numerical simulation deep chamber asymmetric failure mechanical analysis control measures Yinggehai overpressure hydraulic fracture mudstone fluid pressure red sandstone pre-existing cracks creep behavior temperature long-term permeability partial saturation patchy saturation squirt flow P-wave velocity dispersion and attenuation anelasticity ultrasonic measurements heavy oil reservoirs cyclic steam stimulation conformance control extreme gradient boost (XGBoost) trees prediction model Dongsha Waters in the northern South China Sea margin velocity inversion mud volcano magma intrusion Mesozoic hydrocarbon tubing modal analysis fluid-structure interaction inlet pressure pipeline water hammer gas-liquid two-phase flow pressure velocity lattice Boltzmann method discrete element method sand production force chain network analysis seismic sedimentology sedimentary facies evolution peat accumulation regularity frequency–division amplitude fusion thin sand bodies stable crack propagation crack strain stress–strain curve model wing crack outburst coal primary coal structural parameters infrared spectrum XRD oil shale in situ conversion project biomarker pyrolysis process organic geochemistry thema EDItEUR::G Reference, Information and Interdisciplinary subjects::GP Research and information: general |
| url | ONIX_20220706_9783036543796_7 |