Moreno, Cherry
(2013)
Urban water demand model: the case study of Emilia Romagna (Italy).
[Laurea magistrale], Università di Bologna, Corso di Studio in
Civil engineering [LM-DM270], Documento ad accesso riservato.
Documenti full-text disponibili:
Abstract
Water is the driving force in nature. We use water for washing cars, doing laundry, cooking, taking a shower, but also to generate energy and electricity. Therefore water is a necessary product in our daily lives (USGS. Howard Perlman, 2013).
The model that we created is based on the urban water demand computer model from the Pacific Institute (California). With this model we will forecast the future urban water use of Emilia Romagna up to the year of 2030. We will analyze the urban water demand in Emilia Romagna that includes the 9 provinces: Bologna, Ferrara, Forli-Cesena, Modena, Parma, Piacenza, Ravenna, Reggio Emilia and Rimini. The term urban water refers to the water used in cities and suburbs and in homes in the rural areas. This will include the residential, commercial, institutional and the industrial use.
In this research, we will cover the water saving technologies that can help to save water for daily use. We will project what influence these technologies have to the urban water demand, and what it can mean for future urban water demands. The ongoing climate change can reduce the snowpack, and extreme floods or droughts in Italy. The changing climate and development patterns are expected to have a significant impact on water demand in the future. We will do this by conducting different scenario analyses, by combining different population projections, climate influence and water saving technologies. In addition, we will also conduct a sensitivity analyses. The several analyses will show us how future urban water demand is likely respond to changes in water conservation technologies, population, climate, water price and consumption.
I hope the research can contribute to the insight of the reader’s thoughts and opinion.
Abstract
Water is the driving force in nature. We use water for washing cars, doing laundry, cooking, taking a shower, but also to generate energy and electricity. Therefore water is a necessary product in our daily lives (USGS. Howard Perlman, 2013).
The model that we created is based on the urban water demand computer model from the Pacific Institute (California). With this model we will forecast the future urban water use of Emilia Romagna up to the year of 2030. We will analyze the urban water demand in Emilia Romagna that includes the 9 provinces: Bologna, Ferrara, Forli-Cesena, Modena, Parma, Piacenza, Ravenna, Reggio Emilia and Rimini. The term urban water refers to the water used in cities and suburbs and in homes in the rural areas. This will include the residential, commercial, institutional and the industrial use.
In this research, we will cover the water saving technologies that can help to save water for daily use. We will project what influence these technologies have to the urban water demand, and what it can mean for future urban water demands. The ongoing climate change can reduce the snowpack, and extreme floods or droughts in Italy. The changing climate and development patterns are expected to have a significant impact on water demand in the future. We will do this by conducting different scenario analyses, by combining different population projections, climate influence and water saving technologies. In addition, we will also conduct a sensitivity analyses. The several analyses will show us how future urban water demand is likely respond to changes in water conservation technologies, population, climate, water price and consumption.
I hope the research can contribute to the insight of the reader’s thoughts and opinion.
Tipologia del documento
Tesi di laurea
(Laurea magistrale)
Autore della tesi
Moreno, Cherry
Relatore della tesi
Scuola
Corso di studio
Ordinamento Cds
DM270
Parole chiave
water demand, water demand models, water resources, population projection, climate change, global climate models, water conservation technologies, water price, Italy, Emilia Romagna
Data di discussione della Tesi
3 Ottobre 2013
URI
Altri metadati
Tipologia del documento
Tesi di laurea
(?? magistrale ??)
Autore della tesi
Moreno, Cherry
Relatore della tesi
Scuola
Corso di studio
Ordinamento Cds
DM270
Parole chiave
water demand, water demand models, water resources, population projection, climate change, global climate models, water conservation technologies, water price, Italy, Emilia Romagna
Data di discussione della Tesi
3 Ottobre 2013
URI
Statistica sui download
Gestione del documento: