Sustainable wastewater management from shale oil production wells: emerging opportunities and barriers
Advanced Techniques in Reservoir Management
FOS: Mechanical engineering
Drilling
Environmental engineering
Shale oil formations
Ocean Engineering
Total dissolved solids
Wastewater
Shale oil
01 natural sciences
Environmental science
Shale Gas Reservoirs
12. Responsible consumption
Engineering
Treated wastewater
Petroleum engineering
TD201-500
Produced water
Waste management
0105 earth and related environmental sciences
Oil shale
Global and Planetary Change
Water supply for domestic and industrial purposes
Fresh water
Hydraulic Fracturing in Shale Gas Reservoirs
Mechanical Engineering
FOS: Environmental engineering
Geology
FOS: Earth and related environmental sciences
Hydraulic fracturing
Mechanical engineering
6. Clean water
Sewage treatment
Drilling fluid
13. Climate action
Global Methane Emissions and Impacts
Environmental Science
Physical Sciences
DOI:
10.1007/s13201-022-01645-z
Publication Date:
2022-05-06T09:06:23Z
AUTHORS (7)
ABSTRACT
AbstractDuring the production from shale oil formations, the produced water has been dedicated to different procedures such as chemical enhanced oil recoveries, drilling mud making (e.g., for various purposes of lubrication and cooling) and hydraulic fracturing. One of the main challenges of wastewater treatment corresponds to (TDS) total dissolved solids. To measure the required water needed for different processes, it is necessary to proceed with every step saving and then make an average to calculate the required freshwater. In this regard, we have selected five different oil wells with the same rock and reservoir characteristics. SOW#3 has the highest rate of treatment (26%) and SOW#1 has the minimum treated wastewater during hydraulic fracturing processes. It corresponds to the large volume of solid and oil particles, which remained in the treatment devices. However, it is observed that SOW#1 has the highest rate of treatment (32%) and SOW#4 has the minimum treated wastewater (14%) in chemical enhanced oil recovery methods. On the other hand, SOW#3 has the highest rate of treatment (27%) and SOW#5 has the minimum treated wastewater from drilling mud preparation and other well facilities. It is observed that SOW#1 has the highest rate of treatment (27%) and SOW#5 has the minimum saving water during hydraulic fracturing processes, SOW#1 has the highest rate of treatment (38%) and SOW#4 has the minimum saving water (9%).
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