Pureに変更を加えた場合、すぐここに表示されます。

Fingerprint Naoya Sakodaが取り組む研究トピックをご確認ください。これらのトピックラベルは、この人物の研究に基づいています。これらを共に使用することで、固有の認識が可能になります。

Physics & Astronomy

Chemistry and Materials

hydrogen
hydrogen sulfide
methane
sulfides
dioxides
ethers
gases
nitrogen
nickel
wire
carbon dioxide

Engineering

refueling
pressure measurement
heat pumps
regenerators
fuel cells
containers

General

equations of state
thermodynamic properties
pressure sensors
binary mixtures
stations
vehicles
vessels
curves
divergence
gasoline
refrigerants
orifices
thermal radiation
thermodynamics
critical point
coolers
fluids
baths
data acquisition
condensation
permeability
atmospheres
liquid phases
simulation

Physics

temperature
specific heat
mass flow rate
traveling waves
vacuum
viscosity
inlet pressure
differential pressure
temperature distribution

Engineering & Materials Science

Hydrogen
Temperature
Cryosurgery
Equations of state
Heat exchangers
Gases
Refrigerants
Polyether ether ketones
Flow rate
Wire
Thermoacoustics
Coolants
Fueling
Vacuum
Regenerators
Refrigerators
Viscosity measurement
Computer simulation
Hydrogen storage
Heat radiation
Heat transfer
Fuel cells
Temperature distribution
Orifices
Permeation
Cooling
Gasoline
Thermodynamics
Equations of state of gases
Condensation
Fires
Nickel
Pumps
Thermal load
Vapor pressure
Natural convection
Temperature measurement
Carbon dioxide
Turbulent flow
Phase equilibria
Fluxes
Global warming
Containers
Stainless steel
Vapors
Radiation
Fluids
Thermodynamic properties
Experiments
Hydrocarbons

Chemical Compounds

Cryosurgery
Temperature
Gases
Equations of state
Hydrogen
Polyether ether ketones
Heat exchangers
Methane
Thermoacoustics
Hydrogen Sulfide
Regenerators
Refrigerators
Viscosity measurement
Binary mixtures
Thermodynamic properties
Temperature distribution
Heat transfer
Refrigerants
Equations of state of gases
Condensation
Coolants
Isochores
Phase equilibria
Stainless Steel
Carbon Dioxide
Pumps
Wire
Thermodynamics
Carbon Monoxide
Thermal load
Vapor pressure
Natural convection
Temperature measurement
Flow rate
Turbulent flow
Ethane
Cooling
Hydrocarbons
Vacuum
Radiation
Vapors
Experiments
Evaporators
Pressure measurement
Propane
Isotherms
Liquids