[27] Rew RK and Davis GP (1990), NetCDF: an interface for science data access,

IEEE Computer Graphics and Applications 10, 76-82.

[28] Byun DW (1999), Dynamically consistent formulations in meteorological and

air quality models for multi-scale atmospheric applications: Part I. Governing

equations in generalized coordinate system, J. Atmos. Sci. 56, 3789-3807.

[29] Byun DW (1999), Dynamically consistent formulations in meteorological and

air quality models for multi-scale atmospheric applications: Part II. Mass

conservation issues, J. Atmos. Sci. 56, 3808-3820.

[30] Ooyama KV (1990), A thermodynamic foundation for modeling the moist

atmosphere, J. Atmos. Sci. 47, 2580-2593.

[31] Seaman NL (2000), Meteorological modeling for air-quality assessments,

Atmos. Environ. 34, 2231-2259.

[32] Stauffer DR and Seaman NL (1994) Multiscale four-dimensional data

assimilation, J. Appl. Meteor., 33, 416-434.

[33] Tremback CJ (1990), Numerical simulation of a mesoscale convective complex:

model development and numerical results, Ph.D. dissertation, Colorado State


[34] Sugata S, Byun DW, and Uno I (2000), Simulation of sulfate aerosol in East

Asia using Models-3/CMAQ with RAMS meteorological data, in Millennium

NATO/CCMS International Technical Meeting on Air Pollution Modelling and

Its Applications, Boulder, CO, May 15-19.

[35] Seaman NL (1995), Status of meteorological pre-processors for air-quality

modeling, In proceedings of the International Conf. on Particulate Matter,

Pittsburgh, PA, Air & Waste Management Association, 639-650.


[36] Vogel B, Fiedler F, and Vogel H (1995), Influence of topography and biogenic

volatile organic compounds emission in the state of Baden-Wurttemberg on

ozone concentrations during episodes of high air temperatures, J. Geophys. Res.

100, 22,907-22,928.

[37] Xiu A, Mathur R, Coats C, and Alapaty K (1998), On the development of an air

quality modeling system with integrated meteorology, chemistry, and emissions,

in Proceedings of the International Symposium on Measurement of Toxic and

Related Air Pollutants, Research Triangle Park, North Carolina, 144-152.

[38] Dudhia J, Gill D, Klemp J, and Skamarock W (1998), WRF: Current status of

model development and plans for the future, in Preprints of the Eighth

PSU/NCAR Mesoscale Model User’s Workshop, Boulder, Colorado, 15-16


[39] Klemp JB, Skamarock WC, and Dudhia J (2001), Conservative split-explicit

time integration methods for the compressible nonhydrostatic equations,

available at


[40] Benjey WG, and Moghari NM (1996), Functionality of an integrated emission

preprocessing system for air quality modeling: the Models-3 emission

processor, in The Emissions Inventory: Programs & Progress. VIP-56,

Proceedings of a Specialty Conference, Research Triangle Park, NC, October

11-13, 1995. U.S. EPA, Research Triangle Park, NC, and A&WMA, Pittsburgh,


[41] Benjey WG, Godowitch JM, and Gipson GL (1999), Emission subsystem,

Chapter 4 in Science Algorithms of the EPA Models-3 Community Multiscale

Air Quality (CMAQ) Modeling System, edited by D. Byun and J.K.S. Ching,

National Exposure Research Laboratory, U.S. EPA, Research Triangle Park,




n1051 - n1052 - n1053 - n1054 - n1055 - n1056 - n1057 - n1058 - n1059 - n1060 - n1061 - n1062 - n1063 - n1064 - n1065 - n1066 - n1067 - n1068 - n1069 - n1070 - n1071 - n1072 - n1073 - n1074 - n1075 - n1076 - n1077 - n1078 - n1079 - n1080 - n1081 - n1082 - n1083 - n1084 - n1085 - n1086 - n1087 - n1088 - n1089 - n1090 - n1091 - n1092 - n1093 - n1094 - n1095 - n1096 - n1097 - n1098 - n1099 - n1100


   Flag of Portugal 


 castellano: DISPER CUSTIC DESCAR RADIA    italiano:     


 français:    português:  





deutsch: DIS CUS  DES  RAD

castellano: DIS CUS DES  RAD   english: DIS CUS DES RAD  


 português: DIS CUS DES RAD   italiano:   DIS CUS  DES RAD


français:  DIS CUS DES RAD