Engineering
Production
100%
Performance
100%
Hot Dry Rock
100%
Heat Extraction
100%
Multiobjective Optimization
66%
Geothermal Energy
66%
Optimization
50%
Geothermal Reservoir
50%
Pressure Difference
33%
Injection Rate
16%
Efficiency
16%
Models
16%
Recovery Factor
16%
Reservoir Performance
16%
Mechanical Model
16%
Energy Development
16%
Realization
16%
Sensitivity Analysis
16%
Natural Resources
16%
Research
16%
Optimization Method
16%
Thermal Hydraulics
16%
Well Spacing
16%
Accident Prevention
16%
Development
16%
Integration
16%
Parametric Study
16%
Hot Dry Rock Systems
16%
Deep Geothermal
16%
Energy Source
16%
Breakthrough Phenomenon
16%
Temperature
16%
Operating Parameter
16%
Geothermal System
16%
Power Generation
16%
INIS
optimization
100%
heat extraction
100%
rocks
100%
performance
100%
injection
66%
production
66%
geothermal energy
33%
exploitation
33%
sensitivity analysis
11%
operation
11%
carbon
11%
parametric analysis
11%
efficiency
11%
resource development
11%
power generation
11%
geothermal systems
11%
comparative evaluations
11%
recovery
11%
china
11%
well spacing
11%
pressure range mega pa
11%
energy sources
11%
geothermal resources
11%
safety
11%
hot-dry-rock systems
11%
decision making
11%
thermal hydraulics
11%
Keyphrases
Heat Extraction Performance
100%
Hot Dry Rock
100%
Balanced Method
100%
Injection-production Pressure Difference
50%
Double Carbon Goals
25%
Hot Dry Rock Systems
25%
Reservoir Protection
25%
Heat Extraction Optimization
25%
Natural Resource Development
25%
Natural Resource Utilization
25%
Qinghai
25%
Injection-production Wells
25%
Heat Extraction Rate
25%
Deep Geothermal Resources
25%