Page 33

conferenceseries

.com

September 02-03, 2019 | Berlin, Germany

6

th

World Conference on Climate Change

Volume 10

Journal of Earth Science & Climatic Change

ISSN: 2157-7617

Climate Change 2019

September 02-03, 2019

Urban green and vegetation growth in Košice – Case study

Zuzana Poorova and Zuzana Vranayova

Technical University of Kosice, Sovakia

Statement of the Problem:

The need to house population in urban areas is expected to rise to 66% in 2050, according

to United Nations. The replacement of natural permeable green areas with concrete constructions and hard surfaces

will be noticed. The densification of existing built-up areas is responsible for the decreasing vegetation, which results

in the lack of evapotranspiration cooling the air. Such decreasing vegetation causes urban heat islands. Since roofs

and pavements have a very low albedo, they absorb a lot of sunlight.

Methodology & Theoretical Orientation:

The ideal way to measure any city´s heat island would be to examine

regional weather patterns with and without the city in the place. Measuring heat island´s effects on regional climate

is useful, but it cannot tell how effective mitigation measures would be at reducing a heat island´s effect. This is

where modeling becomes necessary. Models are used to predict how well mitigation measures can reduce urban

temperatures, energy use, air pollution and retain water. The simplest and the most common way to analyze a heat

island is to compare existing weather data from two or more fixed locations.

Findings:

Several studies have shown that natural and permeable surfaces, as in the case of green roofs, can play

crucial role in mitigating this negative climate phenomenon and providing higher efficiency for the building, leading

to savings. Such as water saving, what is the main idea of this research. Green roof advantages concerning water

management include the attenuation of flood peaks in extreme rain events due to stormwater runoff delay, acting like

a meanders of the river through water storage in the layers of the green roof, and reduction into the public drainage

system. Water distress is an issue, which has brought an attention on the possibility using green roof structures

to manage stormwater and allow their storage for later reuse. In Portugal, ANQIP (Associação Nacional para a

Qualidade nas Instalações Prediais) has developed a Technical Specification: ETA 701 for rainwater harvesting in

buildings, being a valuable tool to couple with the green roof technology.

Conclusion & Significance:

Green roofs have the potential to be the most common type of green structures in the

city due to their characteristics, low maintenance and low weight to the buildings.

Zuzana Poorova et al., J Earth Sci Clim Change 2019, Volume: 10

Figure- 1 Predicting map of urban green

and vegetation growth in Košice