| Forside | | Indhold | | Forrige |
Beplantede filteranlæg til rensning af spildevand i det åbne land
Arbeitsblatt ATV-A 262 (1997). Grundsätze für Bemessung, Bau und Betrieb von
Pflanzenbeeten für kommunales Abwasser bei Ausbaugrössen bis 1000 Einwohnerwerte.
Arias, C.A., Del Bubba, M. & Brix, H. (200): Phosphorus removal by sands for use as
media in subsurface flow constructed reed beds. – Water Research 35, 1159-1168
Barrow, N.J. (1978). The description of phosphate adsorption curves. - J. Soil Sci. 29,
447-462.
Brix, H. (1994). Functions of macrophytes in constructed wetlands. - Wat. Sci. Tech.
29, 71-78.
Brix, H. (1997). Do macrophytes play a role in constructed treatment wetlands? - Wat.
Sci. Tech. 35, 11-17.
Brix, H. (1998). Denmark. - In: Vymazal J., Brix H., Cooper P.F., Green M.B. and Haberl
R. (Eds.), Constructed wetlands for wastewater treatment in Europe. Backhuys Publishers,
Leiden, The Netherlands, page 123-152.
Brix, H. (1999). How 'green' are aquaculture, constructed wetlands and conventional
wastewater treatment systems. - Water Science and Technology 40(3), 45-50
Brix, H. & Johansen, N.H. (1999). Treatment of domestic sewage in a two-stage
constructed wetland - design principles. - In: Vymazal J. (Ed.), Nutrient cycling and
retention in natural and constructed wetlands. Backhuys Publishers, Leiden, The
Netherlands, page 155-163.
Brix, H. & Schierup, H.-H. (1989). The use of macrophytes in water pollution
control.. – Ambio 18, 100-107
Brix, H., Arias, C.A. & Del Bubba, M. (2001): Media selection for sustainable
phosphorus removal in subsurface flow constructed wetlands. – Water, Science and
Technology (in press).
Brix, H., Lyngby, J.E., Schierup ,H.-H. (1983). Eelgrass (Zostera marina L.) as
an indicator organism of trace metals in the Limfjord, Denmark. - Mar. Environ. Res. 8,
165-181.
Ciupa, R. (1996). The experience in the operation of constructed wetlands in
North-Eastern Poland. Proc. 5th Int. Conf. on Wetland Systems for Water Pollution Control,
Vienna, Austria, vol 2, IX6.1-IX6.8.
Dansk Akvakultur Institut (1989a). Grøn spildevandsrensning, - 1. Årsrapport. Dansk
Akvakultur Institut, ATV
Dansk Akvakultur Institut (1989b). Forsøg med kommunalt spildevand som
næringssaltkilde til plantedyrkning. - Delrapport fra projektet Grøn
Spildevandsrensning, Dansk Akvakultur Institut, ATV, 20 sider
Dansk Akvakultur Institut (1989c). Grøn renseteknologi til husspildevand. - Notat,
Dansk Akvakultur Institut, ATV, 29 sider
Dansk Akvakultur Institut (1990a). Pilotprojekt Grøn Spildevandsrensning. – 2.
Årsrapport. Dansk Akvakultur Institut, ATV
Dansk Akvakultur Institut (1990b): Hygiejneproblemer ved udnyttelse af husspildevand
til plantedyrkning. - Notat, Dansk Akvakultur Institut, ATV, 38 sider
Dansk Standard (1997). Water Quality - Determination of phosporus - Ammonium molybdate
spectrometric method. - DS/EN 1189, Danish Standards Association.
Day, P.R. (1965). Particle fractionation and particle-size analysis. - In: Black C.A.,
Evans D.D., Ensminger L.E., White J.L. and Clark F.E. (Eds.), Methods of soil analysis.
American Society of Agronomy. Inc., Publishers, Madison, Wisconsin, USA, page 545-567.
Department of Environment Transport and the Regions (2000). The Building Act 1984,
Review of Part H (Drainage and Solid Waste) of the Building Regulations 1991 and
Associated Legislation, side 75-76.
DIFTA/DAI (1990): Næringsstoffjernelse hos tomatplanter ved varierende vandflow -
Dansk Institut for Fiskeri Teknologi og Akvakultur, Akvakultur afd., ATV
Drizo, A., Frost, C.A., Smith, K.A. & Grace, J. (1997). Phosphate and ammonium
removal by constructed wetlands with horizontal subsurface flow, using shale as a
substrate. - Wat. Sci. Tech. 35, 95-102.
Gerritse R.G. (1993). Prediction of travel times of phosphate in soils at a disposal
site for wastewater. - Wat. Res. 27, 263-267.
Gervin, L. & Brix, H. (2001). Removal of nutrients from combined sewer overflows
and lake water in a vertical-flow constructed wetland system. - Wat. Sci. Tech (in press).
Harremoes, P. (1998). The challenge of managing water and material balances in relation
to eutrophication. - Wat. Sci. Tech. 37, 9-17.
Henze, M. (1986) Grøn Spildevandsteknologi. - Vækst 2, 6-7.
Hieltjes, A.H.M. & Lijklema, L. (1980). Fractionation of inorganic phosphates in
calcareous sediments. - J. Environ. Qual. 9, 405-407.
Hinge, J. & H. Stewart (1997). Solar wastewater treatment in Denmark: Demonstration
project at the Danish Folkecenter for Renewable Energy. Side 123-126 i C. Etnier & B.
Guterstam, (eds.) Ecological Engineering for Wastewater Treatment. 2nd edition, CRC Press,
Boca Raton, Florida.
Jensen, E., Pedersen, J.S. & Hallig, V.Aa. (1984). Grønsager i væksthus. 2. Udg.,
Gartner INFO, København
Jenssen, P.D. & Siegrist, R.L. (1990). Technology assessment of wastewater
treatment by soil infiltration systems. Wat. Sci. Tech. 22, 83-92.
Jenssen, P.D., Krogstad, T., Briseid, T., Norgaard, E. (1991). Testing of reactive
filter media (LECA) for use in agricultural drainage systems. – Proc. Int. seminar of
the Technical section of C.I.G.R. on Environment Challenges and Solutions in Agricultural
Engineering, Agricultural Univ. of Norway, Ås, Norway, July 1-4, pp. 160-166.
Jungersen, G. (1997) Resource-saving and ecological aspects of using wastewater from
eel breeding as a source of nutrients, water, and carbon dioxide for plant production.
Side 127-134 i C. Etnier & B. Guterstam, (eds.) Ecological Engineering for Wastewater
Treatment, 2nd edition, CRC Press, Boca Raton, Florida.
Kadlec, R.H. & Knight, R.L. (1996). Treatment Wetlands. – Lewis Publishers.
Boca Raton, New York, London, Tokyo.
Klute, A. (1965). Laboratory measurement of hydraulic conductivity of saturated soil.
In: Black C.A., Evans D.D., Ensminger L.E., White J.L. and Clark F.E. (Eds.), Methods of
soil analysis. American Society of Agronomy. Inc., Publishers, Madison, Wisconsin, USA,
page 210-221.
Lantzke, I.R., Heritage, A.D., Pistillo, G. & Mitchell, D.S. (1998). Phosphorus
removal rates in bucket size planted wetlands with a vertical hydraulic flow. - Wat. Res.
32, 1280-1286.
Maurer M., Abramomovich D., Siegrist H. and Gujer W. (1999). Kinetics of biologically
induced phosphorus precipitation in waste-water treatment. Wat. Res. 33, 484-493.
Miljøstyrelsen (1999a). Rodzoneanlæg op til 30 PE. – Vejledning fra
Miljøstyrelsen Nr. 1, Miljø- og Energiministeriet, 46 sider.
Miljøstyrelsen (1999b). Nedsivningsanlæg op til 30 PE. – Vejledning fra
Miljøstyrelsen Nr. 2, Miljø- og Energiministeriet, 44 sider.
Netter R. (1992). The Purification Efficiency of Planted Soil Filters for Wastewater
Treatment. Wat. Sci. Tech. 26, 2317-2320.
Olsen S.R. and Watanabe, F.S. (1957). A method to determine a phosphorus adsorption
maximum of soils as measured by the Langmuir isotherm. Soil Sci. Soc.Proc. 1957, 144-149.
Reed, S. C., Salisbury, J., Fillmore, L., and Bastian, R. K. (1996) An evaluation of
the "Living Machine" wastewater treatment concept. In Preprint Vol1, 5th
International Conference on Wetland Systems for Water Pollution Control. Vienna, Austria,
Sept. 1996, VI/5, 8 sider.
Sandbæk, J. (1990). Plantebaseret Spildevandsrensning. - Specialerapport.. Botanisk
Institut, Århus Universitet. 101 sider.
Saxgren, J. (1995). Aquadomen, Kolding Højskole. NetNyt 1995 (1):4-5.
Saxgren, J. (1997). Living with your wastewater. Side 135-138 i C. Etnier & B.
Guterstam, (eds.) Ecological Engineering for Wastewater Treatment, 2nd edition, CRC Press,
Boca Raton, Florida.
Stumm W. and Morgan J.J., (1981). Aquatic chemistry. An introduction emphasizing
chemical equilibria in natural waters. 2nd edition, John Wiley & Sons, Inc.,
Todd, J. (1997). Ecological Engineering, Living Machines, and the Visionary Landscape.
Side 107-112 i C. Etnier & B. Guterstam, (eds.) Ecological Engineering for Wastewater
Treatment. 2nd edition, CRC Press, Boca Raton, Florida.
Todd, J. & Josephson, B. (1996) The design of living technologies for waste
treatment. - Ecological Engineering 6: 109-136.
Veith J.A. and Sposito G. (1977). On the use of the Langmuir equation in the
interpretation of "adsorption" phenomena. Soil Sci. Soc. Am. J. 41, 697-702.
Vymazal J., Brix H., Cooper P.F., Haberl R., Perfler R. and Laber J. (1998a). Removal
mechanisms and types of constructed wetlands. In: Vymazal J., Brix H., Cooper P., Green
M.B. and Haberl R. (Eds.), Constructed wetlands for wastewater treatment in Europe.
Backhuys Publisher, Leiden, The Netherlands, page 17-66.
Vymazal J., Brix H., Cooper P.F., Green M.B. and Haberl R., eds. (1998b). Constructed
wetlands for wastewater treatment in Europe. Backhuys Publishers, Leiden, The Netherlands.
Warne, B (1997) Stensund wastewater aquaculture: The building.- Side 107-112 i C.
Etnier & B. Guterstam, (eds.) Ecological Engineering for Wastewater Treatment. 2nd
edition, CRC Press, Boca Raton, Florida.
Wood, R.B. & McAtamney, C.F. (1996). Constructed wetlands for waste water
treatment: the use of laterite in the bed medium in phosphorus and heavy metal removal. -
Hydrobiol. 340, 323-331.
Zhu, T., Jenssen, P.D., Mæhlum, T. & Krogstad, T. (1997). Phosphorus sorption and
chemical characteristics of lightweight aggregates (LWA) - potential filter media in
treatment wetlands. - Wat. Sci. Tech. 35, 103-108.
Österreichisches Normeringsinstitut (1997). Bepflanzte Bodenfilter
(Pflanzenkläranlagen) Anwendung, Bemessung, Bau und Betrieb. ÖNORM B 2505
| Forside | | Indhold | | Forrige | | Top |