• Refine Query
  • Source
  • Publication year
  • to
  • Language
  • 3
  • Tagged with
  • 3
  • 3
  • 3
  • 2
  • 2
  • 2
  • 2
  • 2
  • 2
  • 2
  • 2
  • 2
  • 2
  • 2
  • 2
  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

The Development of Water Practices within Households in Ribáuè, Mozambique.

Ansved, Julia, Fuhrmann, Hanna January 2013 (has links)
Within the academic discussion, water is argued to be a ‘multifaceted resource’, yet, the social and cultural dimensions of water have received little attention. Furthermore, authors have highlighted a need to explore the phenomenon from both, the macro and micro level, however, debates regarding water tend to revolve around the former. Following the need for a more local perspective, this study looks into water practices of a household, like using a watering can to irrigate crops or purifying water for consumption, as well as the environment in which these occur. Recognising that change is essential for development, it also explores if improvement of these practices is needed, and how development of these, if so, may be encouraged. One perspective fostering such an understanding is Symbolic Interactionism, focusing on individuals and their behaviour and how this is influenced by their perceived reality and the interaction with oneself and others. This perspective is utilised as the analytical framework in order to explore people’s lives and their experiences. The research was carried out as a field work during April and May, 2013, in Ribáuè, Mozambique. This study concludes that there is a recognised need to develop water practices in order to support and create favourable outcomes for households. One of the factors that this study highlights as important is to acknowledge individuals’ cognitive process in relation to the visible actions performed, emphasising the significance of taking both processes into account when attempting to encourage the development of water practices. For instance, it is advisable to provide not only theoretical instructions, but also to demonstrate and let the individuals carry out new practices. By taking such factors into account, this may strengthen the efforts to encourage a household to develop its water practices. This study also proposes potential perspectives for future research.
2

Net Positive Water

Ma, Billy January 2013 (has links)
‘Net Positive Water’ explores the capability of domestic architecture to combat the developing urban water problem. Urban intensification is contributing to the volatility of urban waters and the breakdown of the urban water cycle. Inhabitant water misuse and overconsumption is overwhelming aging municipal utilities, resulting in the decay of urban water quality. LEEDTM and The Living Building Challenge are recognized Green Building Guidelines prescribing sustainable site and building water standards. Case Studies of domestic Green Building projects will showcase water conservation to enable domestic water renewal. Net Zero Water Guidelines based on the Green Building Guidelines outline Potable and Non-Potable water use to achieve a sustainable volume of water demand at 70 litres per capita per day. Sustainable water practices are encouraged by utilizing domestic building systems to increase water value and water awareness. Time-of-Use and Choice-of-Use exposure for household water related tasks establish water savings through the use of best-performing water fixtures and appliances. Net Positive Water Guidelines will establish On-site and Building standards for sustainable harvesting and storage of water resources. Clean and Dirty water management will prescribe Passive design and Active mechanical processes to maintain best-available water quality in the urban domestic environment. Net Positive Water building typology will integrate urban inhabitation as a functional component of the urban water cycle to use, reuse, and renew water resources. The method will be tested using a Mid-rise Pilot project to deploy the necessary Passive and Active mechanisms to generate Net Positive Water quality through Net Zero Water sustainable water use. The pilot project is situated in Waterfront Toronto - The Lower Don Lands development to harness regional interests for water renewal and environmental revitalization.
3

Net Positive Water

Ma, Billy January 2013 (has links)
‘Net Positive Water’ explores the capability of domestic architecture to combat the developing urban water problem. Urban intensification is contributing to the volatility of urban waters and the breakdown of the urban water cycle. Inhabitant water misuse and overconsumption is overwhelming aging municipal utilities, resulting in the decay of urban water quality. LEEDTM and The Living Building Challenge are recognized Green Building Guidelines prescribing sustainable site and building water standards. Case Studies of domestic Green Building projects will showcase water conservation to enable domestic water renewal. Net Zero Water Guidelines based on the Green Building Guidelines outline Potable and Non-Potable water use to achieve a sustainable volume of water demand at 70 litres per capita per day. Sustainable water practices are encouraged by utilizing domestic building systems to increase water value and water awareness. Time-of-Use and Choice-of-Use exposure for household water related tasks establish water savings through the use of best-performing water fixtures and appliances. Net Positive Water Guidelines will establish On-site and Building standards for sustainable harvesting and storage of water resources. Clean and Dirty water management will prescribe Passive design and Active mechanical processes to maintain best-available water quality in the urban domestic environment. Net Positive Water building typology will integrate urban inhabitation as a functional component of the urban water cycle to use, reuse, and renew water resources. The method will be tested using a Mid-rise Pilot project to deploy the necessary Passive and Active mechanisms to generate Net Positive Water quality through Net Zero Water sustainable water use. The pilot project is situated in Waterfront Toronto - The Lower Don Lands development to harness regional interests for water renewal and environmental revitalization.

Page generated in 0.055 seconds