Browsing by Author "Cetin M., Sevik H."
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Publication Evaluating the recreation potential of Ilgaz Mountain National Park in Turkey.(2016-01-01T00:00:00Z) Cetin, Mehmet, Sevik, Hakan; Cetin, M, Sevik, HIn recent years, natural areas have become a preferred recreation area for people looking to escape their busy urban lives. The world has become so complicated that people now seek solace in areas of nature. Recreational activities conducted in natural areas, such as Ilgaz Mountain National Park, should be respectful of the environment to ensure balance and no negative environmental impact. This balance should safeguard environmental protection and only be used with the right to establish recreation planning. National parks are protected areas where the most beautiful wonders of nature exist. Thus, urban planning for recreation, and demand for recreation areas, must demonstrate both the potential of recreation resources and the protection of Ilgaz Mountain National Park. Urban open and green spaces have an important function, and in this study, it has been looked at Ilgaz Mountain National Park to examine the current situation. The aim of this study is to ensure the sustainability of natural and cultural resources via an evaluation to reveal the necessary practices and precautions regarding the area's recreational potential. As a result, Ilgaz Mountain National Park's recreation potential was found to be 72 %, and thus, it is considered to be an area of high recreation potential.Publication Measuring the impact of selected plants on indoor CO2 concentrations(2016-01-01) Cetin M., Sevik H.; Cetin, M, Sevik, HNearly 90% of people’s lives are lived indoors, and their health is affected by the concentrations of CO2 in these spaces. Carbon dioxide concentrations can rapidly change based on human activity in indoor living spaces. Indoor plants and the concentration of CO2 in the local environment are factors that influence most people. Plants, depending on the ambient light and temperature conditions, and which are necessary to perform photosynthesis or respiration, directly affect the concentration of CO2 in the local environment. Furthermore, indoor plants influence the level of CO2 in the local environment but have not been researched enough in recent years concerning their specific effects. This study attempts to determine the effects of indoor plants on the concentration of CO2 in an indoor environment under certain light conditions. Five indoor plants were placed in a glass-walled compartment in order to measure the amount of CO2. The glass compartment used in the study was positioned in a way to prevent direct sunlight yet provide an illuminated environment. The plants were placed into this airtight compartment with a glass wall, which had a volume of approximately 0.5 m3 (0.7 m x 0.7 m x 1 m). The measurements of CO2 within the compartment were carried out via Extech Desktop Indoor Air Quality CO2 Datalogger, and the CO2 measuring device placed in the compartment was set to measure CO2 once every five minutes. The study found that all plants reduced the concentration of CO2 to a certain extent during the day.