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as.data.frame(<weather_station>)
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Create a data.frame from a weather station object |
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bound_mech_avg()
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Mechanical internal boundary layer; average height. |
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bound_mech_low()
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Mechanical internal boundary layer; lowest height. |
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bound_thermal_avg()
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Thermal internal boundary layer. |
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bowen_ratio()
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Bowen-ratio |
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build_weather_station()
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Weather Station |
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check_availability()
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Check Availability |
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heat_capacity()
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Volumetric heat capacity |
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hum_absolute()
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Absolute humidity |
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hum_evap_heat()
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Enthaly of vaporization |
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hum_moisture_gradient()
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Moisture gradient |
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hum_precipitable_water()
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Total precipitable water |
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hum_sat_vapor_pres()
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Saturation vapor pressure |
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hum_specific()
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Specific humidity |
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hum_vapor_pres()
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Vapor pressure |
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lamb()
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lambda PT coefficient (???) |
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latent_bowen()
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Latent Heat using Bowen Method |
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latent_monin()
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Latent Heat using Monin-Obukhov length |
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latent_penman()
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Latent Heat Penman Method |
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latent_priestley_taylor()
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Latent Heat Priestley-Taylor Method |
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pos_anemometer_height()
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Necessary Anemometer height. |
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pos_max_dist()
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Maximum distance between climate station and obstacle. |
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pos_min_dist()
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Minimum Distance between climate station and obstacle |
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pres_air_density()
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Air density |
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pres_p()
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Air pressure |
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rad_bal_total()
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Total radiation balance |
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rad_emissivity_air()
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Emissivity of the atmosphere |
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rad_lw_in()
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Longwave radiation of the atmosphere |
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rad_lw_in_topo()
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Incoming longwave radiation corrected by topography. |
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rad_lw_out()
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Longwave radiation of the surface |
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rad_sw_in()
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Shortwave radiation onto a horizontal area on the ground |
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rad_sw_in_topo()
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Incoming shortwave radiation in dependency of topography |
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rad_sw_out()
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Reflected shortwave radiation |
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rad_sw_radiation_balance()
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Shortwave radiation balance |
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rad_sw_toa()
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Shortwave radiation at top of atmosphere |
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sc()
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sc PT coefficient (???) |
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sensible_bowen()
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Sensible Heat using Bowen Method |
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sensible_monin()
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Sensible Heat using Monin-Obukhov length |
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sensible_priestley_taylor()
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Sensible Heat Priestley-Taylor Method |
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soil_attenuation()
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Soil attenuation length |
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soil_heat_cap()
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Soil volumetric heat capacity |
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soil_heat_flux()
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Soil heat flux |
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soil_thermal_cond()
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Soil thermal conductivity |
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sol_angles()
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Solar azimuth and elevation angles |
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sol_azimuth()
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Solar azimuth angle |
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sol_eccentricity()
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Eccentricity |
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sol_elevation()
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Solar elevation angle |
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surface_properties
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Emissivity and roughness lenght for different surfaces. |
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temp_pot_temp()
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Potential Temperature |
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terr_sky_view()
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Sky view factor |
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trans_aerosol()
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Transmittance due to aerosols |
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trans_air_mass_abs()
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Absolute optical air mass |
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trans_air_mass_rel()
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Relative optical air mass |
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trans_gas()
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Transmittance due to gas |
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trans_ozone()
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Transmittance due to ozone |
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trans_rayleigh()
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Transmittance due to rayleigh scattering |
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trans_total()
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Total transmittance |
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trans_vapor()
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Transmittance due to water vapor |
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turb_displacement()
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Displacement height |
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turb_flux_calc()
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Sensible and latent heat fluxes |
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turb_flux_ex_quotient_imp()
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Exchange quotient for impulse transmission |
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turb_flux_ex_quotient_temp()
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Exchange quotient for heat transmission |
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turb_flux_grad_rich_no()
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Gradient-Richardson-Number |
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turb_flux_imp_exchange()
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Turbulent impulse exchange |
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turb_flux_monin()
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Monin-Obhukov-Length |
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turb_flux_stability()
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Stability |
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turb_roughness_length()
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Roughness length |
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turb_ustar()
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Friction velocity |
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weather_station_example_data
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Example data of a weather station located in Caldern, Hessen, Germany. |