You need JavaScript to view this

Pollution concentration estimates in ecologically important zones

Abstract

Method based on using the pollutant transport equation and the adjoint technique is described here for estimating the pollutant concentration level in ecologically important zones. The method directly relates the pollution level in such zones with the power of the pollution sources and the initial pollution field. Assuming that the wind or current velocities are known (from climatic data or dynamic model), the main and adjoint pollutant transport equations can be considered in a limited area to solve such theoretically and practically important problems as: (1) optimal location of new industries in a given region with the aim to minimize the pollution concentration in certain ecologically important zones, (2) optimization of emissions from operating industries, (3) detection of the plants violating sanitary regulations, (4) analysis of the emissions coming from the vehicle traffic (such emissions can be included in the model by means of the linear pollution sources located along the main roadways), (5) estimation of the oil pollution in various ecologically important oceanic (sea) zones in case of accident with the oil tanker, (6) evaluation of the sea water desalination level in estuary regions, and others. These equations considered in a spherical shell domain can also be applied to  More>>
Authors:
Skiba, Y N [1] 
  1. Mexico City Univ. (Mexico). Center for Atmospheric Sciences
Publication Date:
Dec 31, 1995
Product Type:
Conference
Report Number:
NEI-FI-290-Vol.3; CONF-9505322-Vol.3
Reference Number:
SCA: 540120; PA: FI-96:003592; EDB-96:137100; SN: 96001645581
Resource Relation:
Conference: 10. world clean air congress, Espoo (Finland), 28 May - 2 Jun 1995; Other Information: DN: Sponsored by the International Union of Air Pollution Prevention and Environmental Protection Associations (UIAPPA) and hosted by the Finnish Air Pollution Prevention Society (FAPPS); PBD: 1995; Related Information: Is Part Of Proceedings of the 10th world clean air congress. Impacts and management; Kaemaeri, J.; Tolvanen, M.; Anttila, P.; Salonen, R.O. [eds.]; PB: 632 p.
Subject:
54 ENVIRONMENTAL SCIENCES; AIR POLLUTION; MATHEMATICAL MODELS; ECOLOGICAL CONCENTRATION; ENVIRONMENTAL TRANSPORT
OSTI ID:
283500
Research Organizations:
Finnish Air Pollution Prevention Society, Helsinki (Finland)
Country of Origin:
Finland
Language:
English
Other Identifying Numbers:
Other: ON: DE96777170; ISBN 952-90-6474-8; TRN: FI9603592
Availability:
OSTI as DE96777170
Submitting Site:
FI
Size:
pp. [4]
Announcement Date:
Sep 20, 1996

Citation Formats

Skiba, Y N. Pollution concentration estimates in ecologically important zones. Finland: N. p., 1995. Web.
Skiba, Y N. Pollution concentration estimates in ecologically important zones. Finland.
Skiba, Y N. 1995. "Pollution concentration estimates in ecologically important zones." Finland.
@misc{etde_283500,
title = {Pollution concentration estimates in ecologically important zones}
author = {Skiba, Y N}
abstractNote = {Method based on using the pollutant transport equation and the adjoint technique is described here for estimating the pollutant concentration level in ecologically important zones. The method directly relates the pollution level in such zones with the power of the pollution sources and the initial pollution field. Assuming that the wind or current velocities are known (from climatic data or dynamic model), the main and adjoint pollutant transport equations can be considered in a limited area to solve such theoretically and practically important problems as: (1) optimal location of new industries in a given region with the aim to minimize the pollution concentration in certain ecologically important zones, (2) optimization of emissions from operating industries, (3) detection of the plants violating sanitary regulations, (4) analysis of the emissions coming from the vehicle traffic (such emissions can be included in the model by means of the linear pollution sources located along the main roadways), (5) estimation of the oil pollution in various ecologically important oceanic (sea) zones in case of accident with the oil tanker, (6) evaluation of the sea water desalination level in estuary regions, and others. These equations considered in a spherical shell domain can also be applied to the problems of transporting the pollutants from a huge industrial complex, or from the zone of an ecological catastrophe similar to the Chernobyl one}
place = {Finland}
year = {1995}
month = {Dec}
}