The beauty of a lush green lawn may be more costly than just the use of water, according to researchers at UBCO.
Gyan Kumar Chhipi Shrestha, a Ph.D. candidate with the school of engineering, recently published several research papers about water use, water distribution systems and the energy consumed supplying water to homes.
Not only did he examine the cost of supplying water to homes, but also investigated the long-term, or life cycle costs, of water distribution systems to several communities.
And the ecological footprint is staggering, he said, when the energy used to distribute water is considered.
香蕉视频直播淭he Okanagan Valley is a semi-arid region and even though we have lots of lakes, the valley also has the lowest amount of freshwater available in Canada,香蕉视频直播 said Shrestha. 香蕉视频直播淎t the same time, we have one of the highest per capita use of domestic water in the country.香蕉视频直播
There is a huge disconnect between the amount of water available in the Okanagan and the amount used, he said. At its peak in the summer, the rate of consumption in the Okanagan is about a 1,000 litres per person per day香蕉视频直播攃ompared to the Canadian average of more than 340 litres a day. This overuse is primarily due to residential lawn irrigation, he said.
The key finding from his research is that the residential density significantly affects per capita water-energy-carbon nexus and life cycle cost of water distribution systems.
The findings suggest community developers should consider the importance of constructing medium to high-density buildings in urban neighborhoods to achieve optimal 香蕉视频直播榳atergy.香蕉视频直播
Working with UBC Okanagan香蕉视频直播檚 associate dean of engineering Rehan Sadiq, co-supervisor of the study, Shrestha香蕉视频直播檚 research specifically examines water distribution systems in various residential densities, how much these systems cost to operate and how reductions can be implemented.
香蕉视频直播淲ater, energy, and carbon emissions are important elements of urban water sustainability; these elements are interconnected,香蕉视频直播 said Sadiq. 香蕉视频直播淎nd neighborhood densification is a strategy primarily applied to reduce per capita infrastructure and land requirement and densification also affects residential landscaping and water systems.香蕉视频直播
Shrestha completed an integrated study of the water-energy-carbon or 香蕉视频直播榳atergy香蕉视频直播 dynamics of water distribution and residential landscaping under neighborhood densification.
He then proposed a conceptual framework to study the impacts of urban residential density on the water-energy-carbon nexus of water distribution and residential landscaping system.
Along with supervisor professor Kasun Hewage, Shrestha used a planned neighbourhood under development in Peachland as a case study and compared 11 neighbourhood design options of single and multi-family homes and various population densities.
The cost of water distribution systems can be lower in high-density residences, mostly because single family homes tend to have landscaped areas that require maintenance, Hewage said.
香蕉视频直播淭he densities of neighbourhoods affect water demand, and we香蕉视频直播檙e looking for an optimal density,香蕉视频直播 he said.香蕉视频直播淲e wanted to a find a balance between increased density and decreased water consumption. When we look at single-family homes, generally 40 to 60 per cent of a property area is landscaped and will require water to maintain them.香蕉视频直播