Earth and Planetary Sciences
Core
100%
Dissociation
91%
Experiment
83%
Sediment
66%
Model
61%
Methane Hydrate
50%
Simulation
50%
Energy Resource
47%
Resource Exploitation
44%
Utilization
35%
Water
33%
Comparative Study
33%
Methane
33%
Temperature
25%
Literature
25%
Gas
25%
Permeability
25%
Variation
25%
Helium Isotope
23%
Energy Supply
23%
Geothermal Energy
23%
Solar Energy
23%
Effort
16%
Water Flow
16%
Proving
16%
Surface Pressure
16%
Agreement
16%
Extraction
16%
Datum
16%
Far Field
16%
Simulator
16%
Heat
16%
Improvement
16%
Investigation
16%
Matching
16%
Benchmarking
16%
Migration
16%
Porous Medium
16%
Berea Sandstone
16%
Focusing
11%
Uranium
11%
Collection
11%
Summary
11%
Conventional Energy
11%
Supplement
11%
Science and Technology
11%
Earth
11%
In Situ Resource Utilization
11%
Space Exploration
11%
Phase Equilibrium
11%
Engineering
Hydrate Formation
83%
Flash Temperature
69%
Energy Engineering
55%
Energy Resources
47%
Models
45%
Equation of State
41%
Stability
27%
Energy Dissipation
27%
Dynamic Model
27%
Demonstrates
25%
Hydrate Natural Gas
25%
Features Detection
23%
Applications
23%
Experiments
16%
Water
16%
Heat Transfer
16%
Porous Medium
16%
Simulators
16%
Numerical Modeling
16%
Engineering
13%
Good Agreement
13%
Benchmark
13%
Numerical Experiment
13%
Implicit Scheme
13%
Numerical Scheme
13%
Efficiency
13%
Foundations
13%
Nonlinear System
13%
Petroleum Industry
13%
Thermophotovoltaics
11%
Space Activity
11%
Conventional Energy
11%
Convolutional Neural Network
11%
Geothermal Fluid
11%
Learning Technique
11%
Outer Space
11%
Deep Learning
11%
Practical Application
11%
Wind Power
11%
Physics
Cores
100%
Dissociation
91%
Calculation
83%
Volume
83%
Model
50%
Simulation
50%
Pressure
44%
Equations of State
41%
Water
33%
Stability
27%
Mass Transfer
25%
Gases
25%
Temperature
25%
Far Fields
16%
Water Flow
16%
Theoretical Model
16%
Migration
16%
Heat
16%
Moles
13%
Hydrocarbon
13%
Splitting
13%
Iteration
13%
Lunar Geology
11%
Nuclear Fusion
11%
