Earth and Planetary Sciences
Cooling
100%
Heat
100%
Wind
100%
Night
100%
Stack
100%
Ventilation
100%
Surface Pressure
50%
Air
50%
Heat Transmission
50%
Water
37%
Building
37%
Air Flow
25%
Pipes (Tubes)
25%
Calculation
25%
Crossing
25%
Room
25%
Actuator
25%
Plastic
25%
Energy Consumption
12%
Architectural Design
12%
Feasibility
12%
Prototype
12%
Heat Production
12%
Heat Exchanger
12%
Wind Pressure
12%
Temperature Distribution
12%
Finite Difference Method
12%
Temperature Sensor
12%
Spacers
12%
Bracket
12%
Counterflow
12%
Literature
12%
Model
12%
Consumption
12%
Denmark
12%
Core
12%
Heating
12%
Liquid
12%
Efficiency
12%
Criterion
12%
Summer
12%
Fitting
12%
Software
12%
Floor
12%
Proposal
12%
Loop
12%
Bending
12%
Drag
12%
Indoor Environment
12%
Drop Transfer
12%
Engineering
Heat Recovery
100%
Wind
100%
Pressure Drop
37%
Water
37%
Buildings
37%
Fans
37%
Air Flow
25%
Exchanger
25%
Production
25%
Heat Exchanger
25%
Measurement
12%
Full Scale
12%
Ventilation System
12%
Prototype
12%
Electric Power Utilization
12%
Heating System
12%
Fresh Air
12%
Recovery Efficiency
12%
Optimal Solution
12%
Design Criterion
12%
Final Design
12%
Supply System
12%
Floors
12%
Production Procedure
12%
Pressure Loss
12%
Summer Period
12%
System Pressure
12%
Proposal Design
12%
Bending (Forming)
12%
Counterflow
12%
Models
12%
Wings
12%
Environment
12%
Development
12%
Generates
12%
Performance
12%
Design
12%
Elements
12%
Energy Engineering
12%
Determines
12%
Fluid
12%
Temperature Distribution
12%
Thermal Sensor
12%
Architectural Design
12%
Physics
Cooling
100%
Heat
100%
Heat Transfer
100%
Air
50%
Pressure
50%
Water
37%
Air Flow
25%
Calculation
25%
Pipes (Tubes)
25%
Temperature Distribution
12%
Wind Pressure
12%
Counterflow
12%
Environment
12%
Model
12%
Performance
12%
Temperature
12%
Liquids
12%
Heating
12%
Cores
12%
Enthalpy
12%
Bending
12%
Drag
12%