Engineering
Ships
100%
Life Cycle Assessment
46%
Optimization
42%
Solidification
36%
Reduction
33%
Hybrid
27%
Evaluation
24%
Lifecycle
23%
Power Engineering
22%
Propulsion System
22%
Fuel
21%
Carbon Capture
19%
High Speed
19%
Greenhouse Gas
18%
Simulation
18%
Hydrodynamics
18%
Storage
16%
Solar Panel
15%
Applications
14%
Performance
13%
Determines
13%
Experiments
12%
Maintenance Strategy
12%
Economic Assessment
12%
Emission Reduction
12%
Life Cost
12%
Solidification Process
12%
Computational Fluid Dynamics
11%
Environmental Impact
11%
Global Warming
11%
Energy Efficiency
11%
Development
10%
Payback Time
10%
Environment
10%
Lifecycle Cost
10%
Engines
10%
Life Cycle Analysis
10%
International Maritime Organisation
10%
Limitations
10%
Marine Industry
9%
Solar Energy
9%
Stages
8%
Emission Control
8%
Coating
8%
Installation
7%
Hazards
7%
Computer Simulation
7%
Tugboats
7%
Hulls (Ship)
7%
Ship Design
7%
Earth and Planetary Sciences
Investigation
28%
Carbon
26%
Carbon Dioxide Emission
24%
Solidification
24%
Science and Technology
22%
Ship
18%
Carbon Capture and Storage
16%
Feasibility
16%
Simulation
14%
Emission Reduction
11%
Comparison
11%
Utilization
11%
Global Warming
9%
Engine
8%
Fuel
8%
Industry
8%
Carbon Dioxide
8%
Convention
8%
Experiment
7%
Project
7%
Cost
7%
Emission
6%
Shallow Water
6%
Evaluation
6%
Hydrodynamics
6%
Propulsion
6%
Oscillating Water Column
6%
Wave Power
6%
Output
6%
Optimization
6%
Dynamic Simulation
6%
Tool
6%
Life Cycle Assessment
6%
Fluid Dynamics
6%
Catamaran
6%
Tug
6%
Hydrogen
6%
Risk Assessment
6%
Greenhouse Gas Emission
6%
Ammonia
6%
Wave
5%
Physics
Solidification
18%
Technology
15%
Simulation
14%
Engine
13%
Utilization
12%
Water
12%
Cycles
12%
Assessments
12%
Optimization
12%
Carbon Dioxide
9%
Emission
7%
Propulsion
6%
Carbon Dioxide Emission
6%
Life Cycle Assessment
6%
Charge Flow Device
6%
Geometry
6%
Hydrodynamics
6%
Wave Type
6%
Numerical Analysis
6%
Shallow Water
6%
Hydrogen
6%
Vapor
6%
Liquids
6%
Insulation
6%
Impact
5%
Model
5%