Arbejdsrapport fra Miljøstyrelsen, 9/2006 – Klimaeffekters betydning for ekstremregn og dermed funktionen af afløbssystemer

Klimaeffekters betydning for ekstremregn og dermed funktionen af afløbssystemer

7 Referencer

Arnbjerg-Nielsen, K (1996): Statistical analysis of urban hydrology with special emphasis on rainfall modelling. PhD-thesis. Department of Environmental Science and Engineering, Technical University of Denmark. ISBN 87-89220-31-5.

Arnbjerg-Nielsen, K (2002): Trend i Ekstremregn. Rapport til Styregruppen for Regnmålersystemet, Spildevandskomiteen. COWI, Lyngby.

Asquith, WH og Famiglietti, JS (2000): Precipitation areal-reduction factor estimation using an annual-maxima centered approach. Journal of Hydrology, 230, 1-2, 55-69

Bechmann og Buishand (2002): Statistical downscaling relationships for precipitation in the Netherlands and North Germany. International Journal of Climatology, 22, 2002, 15-32

Bogner, K, Onof, C og Townsend, J (2002): Climate change and the Hydraulic Design of Sewerage Systems Volume IIA - Time Series and Design Event Update. Report 03/CL/10/4. UK Water Industry Research Limited, London. ISBN 1 84057 329 5.

Burian, SJ og Durrans, SR (2002): Evaluation of an artificial neural network rainfall disaggregation model. Water Science and Technology, 45, 2, 99-104

Chow, VT, Maidment, DR og Mays, LW (1988): Applied Hydrology. International Edition. McGraw-Hill, New York. ISBN 0-07-100174-3.

Christensen, JH og Christensen, OB (2001): Regional Climate Scenarios - A study on precipitation. In: Jørgensen, AM, Fenger, J, og Halsnæs, K: Climate Change Research - Danish Contributions. Danish Meteorological Institute and GADS forlag, Copenhagen. ISBN: 87-12-03775-3

Cowpertwait, PSP, Metcalfe, AV, O'Connell, PE, Mawdsley, JA, Threlfall, JL (1991): Stochastic Generation of Rainfall Time Series. Report FR0217, Foundation for Water Research.

Cowpertwait, PSP (1995): A generalized spatial-temporal model of rainfall based on a clustered point process. Proceedings of the Royal Society, London, A, 450, 163-175.

Cowpertwait, PSP, Kilsby, CG, O'Connell, PE (2002): A space-time Neyman-Scott model of rainfall: Empirical analysis of extremes. Water Resources Research, 38, 8, p 6-1 - 6-14

Cowpertwait, PSP, Lockie, T. og Davis, MD (2004): A stochastic spatial-temporal disaggregation model for rainfall. Res. Lett. Inf. Math. Sci., 2004, Vol.6, pp109-122 Available online at http://iims.massey.ac.nz/research/letters/

Cowpertwait, PSP, O'Connell, PE, Metcalfe, AV og Mawdsley. JA (1996a): Stochastic Point Process Modelling of Rainfall. I. Single-site fitting and validation. Journal of Hydrology. 175(1-4), 17-46.

Cowpertwait, PSP, O'Connell, PE, Metcalfe, AV og Mawdsley. JA (1996b): Stochastic Point Process Modelling of Rainfall. II. Regionalisation and Disaggregation. Journal of Hydrology. 175(1-4): 47-65.

Jensen, M, Rattenborg, M, Prisum, M og Poulsen, P (1984): Maksimalafstrømninger og bassinvoluminer fra historiske regnserier. Skrift 18. Spildevandskomiteen, Ingeniørforeningen i Danmark. ISBN 87-88671-00-3.

Christensen, J.H. and Christensen, O.B. (2003): Severe summertime flooding in Europe: Even as summers become drier, the incidence of severe precipitation could increase. Nature, 421, 805-806

Jørgensen, AT og Johansen, RM (2004): Klimaændringernes betydning for afløbssystemerne. Eksamensprojekt efteråret 2003, Diplomingeniørstudiet (B). Miljø & Ressourcer, DTU.

Koutsoyiannis (1994): A stochastic disaggregation method for design storm and flood synthesis. Journal of Hydrology, 156, 193-225.

Koutsoyiannis, D og Onof, C(2001): Rainfall disaggregation using adjusting procedures on a Poisson cluster model, Journal of Hydrology, 246, 109-122.

May, W, Christensen, BO og Christensen, J.H. (2005): Potential future changes in heavy rainfall events in Europe simulated by the HIRHAM regional climate model. Draft paper presented at 10th International Conference on Urban Drainage, 21-26 August 2005, Copenhagen, Denmark.

Michele, CD, Kottegoda, NT og Rosso, R (2001): The derivation of areal reduction factor of storm rainfall from its scaling properties. Water Resources Research, 37, 12, 3247-3252.

Michele, CD, Kottegoda, NT og Rosso, R (2002): IDAF (intensity-duration-area frequency) curves of extreme storm rainfall: a scaling approach. Water Science and Technology, 45, 2, 83-90.

Mikkelsen, PS, Madsen, H, Arnbjerg-Nielsen, K, Jørgensen, HK, Rosbjerg, D og Harremoës, P (1999): Regional variation af ekstremregn i Danmark. Skrift 26. Spildevandskomiteen, Ingeniørforeningen i Danmark. ISBN 87-89220-49-8.

NERC (1975): Flood Studies Report, Volumes I-V, National Environmental research Council, London.

NERC (2000): Flood estimation handbook, Handbook and Volumes I-V. Center for Ecology & Hydrology, National Environmental research Council, London.

Niemczynowicz, J (1990): Necessary level of accuracy in rainfall input for runoff modelling. In Iwasa, U og Sueishi, T (Ed): Proc. of the 5th Int. Conf. on Urban Storm Drainage. July 23-27. pp 593-602. Osaka University, Japan.

Olsson, J og Berndtsson, R (1998): Temporal rainfall disaggregation based on scaling properties. Water Science and Technology, 37, 11, 73-79.

Olsson, J, Uvo, CB, Jinno, K, Kawamura, A, Nishiyama, K, Koreeda, N, Nakashima, T, og Morita, O (2004): Neural networks for rainfall forecasting by atmospheric downscaling. Journal of Hydrologic Engineering, 9, 1, 1-12

Onof, C (2002): Climate change and the Hydraulic Design of Sewerage Systems Volume IIB - Time Series Rainfall: Disaggregation. Report 03/CL/10/5. UK Water Industry Research Limited, London. ISBN 1 84057 330 7.

Onof, C, Yameundjeu, B, Paoli, J-P og Ramesh, N (2002): A Markov modulated Poisson process model for rainfall increments. Water Science and Technology, 45, 2, 91-97.

Onof, C, Townsend, J og Kee, R (2005): Comparison of two hourly-to-5-minute rainfall disaggregators. Atmospheric Reseach. In Press.

Ormsbee, LE (1989): Rainfall Disagregation Model for Continuous Hydrologic Modeling. Journal of Hydraulic Engineering. 115, 4, 507-525.

Sivapalan, M og Blöschl, G (1998): Transformation of point rainfall to areal rainfall: Intensity-duration-frequency curves. Journal of Hydrology, 204, 1-4, 150-167.

Srikanthan, R og McMahon, TA (1983): Sequential Generation of Short Time-Interval Rainfall Data. Nordic Hydrology, 14, 5, 277-306.

Tank, A.K., Wijngaard, J., and Engelen, A. van (2002): Climate of Europe. Assessment of observed daily temperature and precipitation extremes. European Climate Assessment. ISBN 90-396-2208-9.

Umakhanthan, K og Ball, JE (2002): Estimation of rainfall heterogeneity across space and time scale. Global Solutions for Urban Drainage, 2002, p 1-16

US Weather Bureau (1958): Rainfall-intensity-frequency regime. Part 2 - Southeastern United States. Technical Report no. 29.

Wallingford, HR (2005): TSRSim: a new rainfall generation tool. Press release from HR Wallingford, 6 May 2005. Downloaded from http://www.hrwallingford.co.uk/news/# den 27. juli 2005.

Wending, I og James, W (2002): Two neural networks for generation of high-resolution long-term storm rainfall compared to Ormbee's method - Case study for Toronto. Global Solutions for Urban Drainage, 2002, 1-16.

Wilson, EM (1990): Engineering Hydrology. 4th Edition. MacMillan Education Ltd, Hampshire. ISBN 0-333-51717-2.

WRc. (1996): STORMPAC User Guide - Version 2.0. Software documentation manual. Report UC2680. Water Research Center, Swindon