İsmail Üstün scite author profile

As Turkey uses about 25.7% of energy consumption in residential area and doing this with natural gas imported from the abroad, production of efficient insolation materials is important to decrease energy dependence and deficiency. Due to both waste minimisation and money saving, there are great efforts on developing new environment friendly insulation materials. In the scope of the current study, the heat transfer coefficient was acquired by applying the linear heat conduction coefficient measurement device to find the heat transfer coefficient of the pomegranate seed sample obtained from various processes for the production of insolation material. The sample also have been examined with a two-port vector network analyser to see electromagnetic property. At the end of the experiment, the heat transfer coefficient of the sample produced from pomegranate seeds was calculate as k = 0.6115 W/mK. Moreover, it has been found that the obtained sample performs better than the other insulation materials in terms of electromagnetic perspective. With this feature of the sample, it has been found that using as insolation material in the areas with the high electromagnetic field can minimize the effect of the harmful electromagnetism in the place where it is applied.

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Experimental investigation of thermal coefficient of the graphene used concrete

Köse

Koç

Yağlı

et al. 2019

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Today, fossil fuels are used primarily in energy production throughout the world. However, the ever-diminishing energy production and developing technology has encouraged energy recovery, saving or different topics. Grafen is one of the most remarkable studies in the field of nanotechnology in recent years. This nanotechnological product, considered as one of the mainstream products of future technology, has superior properties in some physical and chemical issues compared to many materials. Because of its high conductivity and durability, it continues to attract attention in energy and materials science. In this paper, the concrete samples obtained by mixing the graphene at certain ratios were compared with pure concrete (graphene free concrete) and the thermal conductivity of the grafen added concrete was determined. Finally, the thermal conductivity of the pure concrete (thermal conductivity of 1.3096 W/mK) added with 1 gr, 2 gr, 3 gr, 4 gr and 5 gr graphene were calculated as 1.6516, 1.6668, 1.6773, 1.8080 and 1.8486 (W/mK), respectively.

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Empirical models for estimating the daily and monthly global solar radiation for Mediterranean and Central Anatolia region of Turkey

Üstün

Karakuş

Yağlı

2020

IJGW

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