Sustainable Natural Gas Reservoir and Production Engineering: The Fundamentals and Sustainable Advances in Natural Gas Science and Eng
Editat de David A. Wood, Jianchao Caien Limba Engleză Paperback – 4 noi 2021
- Helps readers advance from basic equations used in conventional gas reservoirs
- Presents structured case studies to illustrate how new principles can be applied in practical situations
- Covers advanced topics, including machine learning applications to optimize predictions, controls and improve knowledge-based applications
- Helps accelerate emission reductions by teaching gas fracturing mechanics with an aim of reducing environmental impacts and developing enhanced oil recovery technologies that capture carbon dioxide
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Specificații
ISBN-13: 9780128244951
ISBN-10: 012824495X
Pagini: 410
Ilustrații: 200 illustrations (100 in full color)
Dimensiuni: 191 x 235 mm
Greutate: 0.7 kg
Editura: ELSEVIER SCIENCE
Seria The Fundamentals and Sustainable Advances in Natural Gas Science and Eng
ISBN-10: 012824495X
Pagini: 410
Ilustrații: 200 illustrations (100 in full color)
Dimensiuni: 191 x 235 mm
Greutate: 0.7 kg
Editura: ELSEVIER SCIENCE
Seria The Fundamentals and Sustainable Advances in Natural Gas Science and Eng
Public țintă
Natural gas engineers; reservoir engineers; production engineers;Cuprins
1. Gas properties, fundamental equations of state and phase relationships
2. Natural gas demand prediction: methods, time horizons, geographical scopes, sustainability issues, and scenarios
3. Machine Learning to Improve Natural Gas Reservoir Simulations
4. In situ stress and mechanical properties of unconventional gas reservoirs
5. Hydraulic fracturing of unconventional reservoirs aided by simulation technologies
6. Experimental methods in fracturing mechanics focused on minimizing their environmental footprint
7. Production decline curve analysis and reserves forecasting for conventional and unconventional gas reservoirs
8. Well Test Analysis for Characterizing Unconventional Gas Reservoirs
9. Carbon-Nanotube-Polymer Nanocomposites Enable Wellbore Cements to Better Inhibit Gas Migration and Enhance Sustainability of Natural Gas Reservoirs
10. Sustainability in Natural Gas Reservoir Drilling: A Review on Environmentally and Economically Friendly Fluids and Optimal Waste Management
11. Enhanced gas recovery technologies aimed at exploiting captured carbon dioxide
12. Sustainability Challenges for the Upstream Sectors of the Natural Gas Industry
2. Natural gas demand prediction: methods, time horizons, geographical scopes, sustainability issues, and scenarios
3. Machine Learning to Improve Natural Gas Reservoir Simulations
4. In situ stress and mechanical properties of unconventional gas reservoirs
5. Hydraulic fracturing of unconventional reservoirs aided by simulation technologies
6. Experimental methods in fracturing mechanics focused on minimizing their environmental footprint
7. Production decline curve analysis and reserves forecasting for conventional and unconventional gas reservoirs
8. Well Test Analysis for Characterizing Unconventional Gas Reservoirs
9. Carbon-Nanotube-Polymer Nanocomposites Enable Wellbore Cements to Better Inhibit Gas Migration and Enhance Sustainability of Natural Gas Reservoirs
10. Sustainability in Natural Gas Reservoir Drilling: A Review on Environmentally and Economically Friendly Fluids and Optimal Waste Management
11. Enhanced gas recovery technologies aimed at exploiting captured carbon dioxide
12. Sustainability Challenges for the Upstream Sectors of the Natural Gas Industry