Environmental Engineering Reference
In-Depth Information
McHugh TE, De Blanc PC, Pokluda RJ (2006) Indoor air as a source of VOC contamination in
shallow soils below buildings. Soil Sediment Contamin, Taylor and Francis, Philadelphia, PA,
SN 1532-0383, 15(1):103-122
McQuarrie DA, Simon JD (1997) Physical chemistry: a molecular approach, chapter 24, University
Science Books, 55D Gate Five Road, Sausalito, CA 94965
Mendoza CA, Frind EO (1990a) Advective-dispersive transport of dense organic vapours in the
unsaturated zone 1. Model development. Water Resour Res 26(3):379-387
Mendoza CA, Frind EO (1990b) Advective-dispersive transport of dense organic vapours in the
unsaturated zone II. Sensitivity analysis. Water Res Res 26(3):388-398
Millington RJ, Quirk JP (1961) Permeability of porous solids, Trans. Faraday Soc 57:1200-1207
Naturvårdsverket (1996) Development of generic guideline values. Model and data used for generic
guideline values for contaminated soils in Sweden. Swedish Environmental Protection Agency,
NV Report No. 4639, Stockholm, Sweden
Naturvårdsverket (2005) Beräkningsmodell för riktvärden för mark, remissversion, Swedish
Environmental Protection Agency, Stockholm, Sweden
Ostendorf DW, Kampbell DH (1991) Biodegradation of hydrocarbon vapors in the unsaturated
zone. Water Resour Res 27(4):453-462
Parker JC (2003) Physical processes affecting the natural depletion of volatile organic compounds
in soil and groundwater. Vadose Zone J 2:222-230(2003)
Pennell KG, Bozkurt O, Suuberg EM Development and application of a 3-D model for evaluating
site-specific features on vapor intrusion rates in homogenous geologies. J Air Waste Manage
Assoc. Accepted September 2008
Provoost J, Cornelis C (2004a) Technical guidance document, part 1 - derivation of soil screening
levels and background values, advise on behalf of the Flemish Public Waste Agency (OVAM),
report in Dutch, April 2004
Provoost J, Cornelis C (2004b) Technical guidance document, part 2 - Site specific risk assessment
for contaminated sites, advise on behalf of the Flemish Public Waste Agency (OVAM), report
in Dutch, April 2004
Provoost J, Cornelis C (2004c) Technical guidance document, part 3 - background document with
formulas for the multi-media model Vlier-Humaan, advise on behalf of the Flemish Public
Waste Agency (OVAM), report in Dutch, 2004
Provoost J, Cornelis C (2004d) Technical guidance document, part 4 - background document for
chemical properties and specifications, advise on behalf of the Flemish Public Waste Agency
(OVAM), report in Dutch, 2004
Provoost J, Reijnders L, Swartjes F, Bronders J, Seuntjens P, Lijzen J (2008) Functionality
and accuracy of seven vapour intrusion screening models for VOC in groundwater. J Soils
Sediments - Protection, Risk Assess Remediation, ISSN 1439-0108, doi:10.1007/s11368-008-
0036-y
Provoost J, Bosman A, Reijnders L, Bronders J, Touchant K, Swartjes F (2009) Vapour intrusion
from the vadose zone - seven algorithms compared. J Soils Sediments - Protection, Risk Assess
Remediation, ISSN 1439-0108, doi:10.1007/s11368-009-0127-4
Rikken MGJ, Lijzen JPA, Cornelese AA (2001) Evaluation of model concepts on human expo-
sure. Proposals for updating the most relevant exposure routes of CSOIL. National institute of
public health and environmental protection, RIVM report 711701022, RIVM, Bilthoven, the
Netherlands
Roggemans S, Bruce CL, Johnson PC, Johnson RL (2001) Vadose zone natural attenua-
tion of hydrocarbon vapors: an empirical assessment of soil gas vertical profile data. API
soil and groundwater technical task force bulletin no. 15. American Petroleum Institute.
Washington, DC
Roggemans S (1998) Natural attenuation of hydrocarbon vapors in the unsaturated zone, M.S.
Thesis, Arizona State University
SFT (1995) Management for contaminated land: preliminary guidelines for executive procedures,
report 97:01, Norwegian Pollution Control Authority, Oslo, ISBN 82-7655-030-4
Search WWH ::




Custom Search