Sökning: "water Pollution conclusion"
Visar resultat 46 - 49 av 49 uppsatser innehållade orden water Pollution conclusion.
46. Introduction of vegetation in large scale hydrodynamic models
Master-uppsats, Lunds universitet/Avdelningen för Teknisk vattenresursläraSammanfattning : Vegetation is known to have different effects in shallow water environments, including changes in hydrodynamics. This often creates the need to include vegetation in large scale hydrodynamic models, which nowadays can already be achieved using some software packages available in the market. LÄS MER
47. Wastewater use in Agriculture in Andhra Pradesh, India : An evaluation of irrigation water quality in reference to associated health risks and agricultural suitability
Uppsats för yrkesexamina på avancerad nivå, Institutionen för geovetenskaperSammanfattning : Användandet av obehandlat avloppsvatten inom jordbruket är en växande företeelse i många delar av världen. Speciellt i vattenfattiga områden där avloppsvattnet ses som en värdefull och pålitlig resurs. Det höga näringsinnehållet minskar behovet av konstgödsel och detta ökar böndernas inkomster. LÄS MER
48. The White Paper on Environmental Liability - A study of its effects on Swedish legislation and environmental protection
Uppsats för yrkesexamina på avancerad nivå, Lunds universitet/Juridiska institutionenSammanfattning : In February 2000 the Commission of the European Community presented the long awaited White Paper on Environmental Liability. The White Paper outlines the key elements for a future directive on environmental liability, covering contaminated soil and subsoil, water pollution and damage to biodiversity. LÄS MER
49. Distributed hydrological modelling in a GIS perspective : an evaluation of the MIKE SHE model
Magister-uppsats, Lunds universitet/Institutionen för naturgeografi och ekosystemvetenskapSammanfattning : The strain on water resources with the increased man-induced environmental changes through water pollution, is creating a growing demand in the understanding and management of complex hydrological systems where both water quality and quantity are concerned. This is beyond the capabilities of lumped models and more advanced tools are needed to predict these effects and hence the need for physically-based distributed hydrological models. LÄS MER