Search Results

You are looking at 61 - 70 of 1,535 items for :

Clear All
Open access

Bartosz Szeląg and Maciej Mrowiec

, 3, pp. 75–86. Basha, H.A. (1995). Routing equations for detention reservoirs, Journal Hydraulic Engineering , 121, 12, pp. 885–888. Burszta-Adamiak, E. (2012). Analysis of stormwater retention on green roofs, Archives of Environmental Protection , 38, 4, pp. 75–86, pp. 3–13. Burton, K.R. (1980). Stormwater detention basin sizing, Journal Hydraulics Division , 106, 3, pp. 437–439. Chow, V.T., Maidment, D.R. & Mays, L.W. (1988). Applied hydrology, McGraw-Hill, Singapore 1988. Dayarante, S.T. & Perera, B.J.C. (2004). Calibration of

Open access

Lubomír Jaroš, Miloš Starý and Lucie Březková

REFERENCES Březková, L., Starý, M., 2013. The stochastic discharge forecast – creation, interpretation and other applications. In: Chavoshian, A., Takeuchi, K. (Eds.): Floods - From Risk to Opportunity. IAHS Publ. 357. International Association of Hydrological Sciences, Centre for Ecology and Hydrology, Wallingford, Oxfordshire, OX10 8BB, UK. Butcher, W.S., 1971. Stochastic dynamic programming for optimum reservoir operation. JAWRA Journal of the American Water Resources Association, 7, 115–123. Chandramouli, S., Nanduri, U.V., 2011. Comparison

Open access

Renata Gruca-Rokosz, Janusz Tomaszek, Piotr Koszelnik and Ewa Czerwieniec

References Adams D. D., 2005, Diffuse flux of greenhouse gases - methane and carbon dioxide - at the sediment-water interface of some lakes and reservoirs of the world, [in:] Tremblay, A., Varfalvy, L., Roehm, C., Garneau, M. (eds.), Greenhouse gas emissions - fluxes and processes. Hydroelectric reservoirs and natural environments, Springer, Berlin Heidelberg: 129-153. Adams D. D., Baudo R., 2001, Gases (CH 4 , CO 2 and N 2 ) and pore water chemistry in the surface sediments of Lake Orta, Italy

Open access

Szymon Kuczyński

References Chen J-H, Estimation of total hydrocarbon in the presence of capillary condensation for unconventional shale reservoirs, SPE 164468 Clarkson, C.R. (2013) Modelling of supercritical fluid adsorption on organic-rich shales and coal, SPE 164532 Danesh A.,S. Dandekar A. Y., Todal A.C. , Sarkar R., 1991, A Modified Scaling Law and Parachor Method Approach for Improved Prediction of Interfacial Tension of Gas-Condensate System, SPE 2270 Defay R., Prigogine I., (1966). Surface Tension and

Open access

Jerzy Machajski and Dorota Olearczyk

., O learczyk D., R ędowicz W., Water management instruction for storage reservoir Złotniki , Politechnika Wrocławska, Zakład Badawczy Inżynierii Ochrony Środowiska, Jelenia Góra, 2008 (in Polish). [6] N ovak P., M offat A.I.B., N alluri C., N arayanan R., Hydraulic Structures , Taylor & Francis Publishers, New York, 2007. [7] R adczuk L., O learczyk D., Flood protection study for the Kwisa drainage basin , [in:] Hydrologia wielkich wód. Podstawy hydrologiczne dla wyznaczenia zasięgu zalewów powodziowych , Wrocławska Agencja Rozwoju

Open access

Tudor Bugnariu

References [1]. Prişcu R., Stematiu D., (1980). Ingineria seismică a construcţiilor hidrotehnice, Chapter 4. Reservoirs, Elevated Water Tanks, Intake Towers. București: Ed. Didactică și Pedagocică. [2]. Eurocode 8 EN. (1998). 4: 2006

Open access

Jarosław Bodulski and Jarosław Górski

rumowiska unoszonego. (Evaluation of denudation of the Vistula catchment basin based on measurements of suspended load). Prace IMGW nr 6: 6-58. Brański J., Dąbkowski Sz.L., 1976. Uwagi o prognozowaniu zamulenia zbiorników wodnych na rzekach nizinnych. (Notes on forecasting the siltation of water reservoirs on lowland rivers). Arch. Hydrotech. t. 23 z. 3: 375-392. Chaiński J., 2000. Instrukcja eksploatacji zbiornika wodnego Cedzyna. (Instruction of exploitation of Cedzyna reservoir). Kielce

Open access

Rafał Ulańczyk, Czesław Kliś, Damian Absalon and Marek Ruman

1 Introduction Changes in water temperature in lakes and reservoirs is one of the key processes affecting the spatial and temporal distribution of chemical compounds and biological elements such as plankton and fish [ Elci 2008 ; Genova et al. 2010 ; Yu et al. 2010 ]. The water temperature depends on geographic conditions (e.g., bathymetry, elevation, latitude and interactions with groundwater) and seasonal changes in meteorological conditions (e.g., solar radiation, cloud cover, wind speed and direction) [ Lee et al. 2013 ; Tuan et al. 2009 ; Tarasiuk

Open access

Robert Machowski

References Burchard J., Hereźniak-Ciotowa U., Kaca W., 1990, Metody badań i ocena jakości wód powierzchniowych i podziemnych (Methods research and asses quality of surface and groundwater), Wyd. UŁ, Łódź, p. 250 (in Polish). Couture R. M., Gobeil C., Tessier A., 2010, Arsenic. iron and sulfur co-diagenesis in lake sediments, Geochim. Cosmochim. Ac.74: 1238-1255. Czaja S., 2003, Zbiorniki i pojezierza antropogeniczne (Reservoirs and anthropogenic lake district), [in:] T. Szczypek, M

Open access

J. Siemek and J. Stopa

References [1] F. Ascencio, F. Samaniegob, and J. Riverab, “A heat loss analytical model for the thermal front displacement in naturally fractured reservoirs”, Geothermics 50, 112-121 (2014). [2] G. Bodvarsson, “Thermal problems in siting of reinjection wells”, Geothermics 1, 63-66 (1972). [3] J. Stopa and P. Wojnarowski, “Analytical model of cold water front movement in a geothermal reservoir”, Geothermics 35, 59-69 (2006). [4] M.G. Shook, “Predicting thermal breakthrough in heterogeneous media