Enerji çağımızın en önemli konularından biri haline gelmiştir. Enerjinin verimli kullanılması hem devletler hem de şirketler açısından hayati bir önem taşımaktadır. LED teknolojisi aydınlatma cihazları içerisinde en verimli cihazlar olarak görülmektedir. LED aydınlatıcıların soğutulması, cihazın ömrü ve performansı açısından son derece önemlidir. Bu çalışmada alüminyum bloklara göre daha hafif ve modüler yapıda, aydınlatma armatürleri için yüksek ısı atma kapasitesine sahip soğutucu modülüne sahip alternatif çözümler değerlendirilmiş ve yenilikçi bir tasarım geliştirilmiştir. Prototip olarak üretilen soğutucu modülü üzerinde sıcaklık testleri yapılmış ve sportif aydınlatması kullanımında uygunluğu incelenmiştir. Testler sonucunda ısınma probleminin büyük ölçüde çözüldüğü gözlemlenmiştir. Modül içerisinde armatürleri soğutmak maksadıyla kullanılan herhangi bir fan gücüne ihtiyaç duyulmadığı için fazladan enerji harcanmayarak ısı transferinin sağlandığı görülmüştür.
Energy has become one of the most important issues of our age. The efficient use of energy is of vital importance for both governments and companies. LED technology is seen as the most efficient devices among lighting devices. The cooling of LED lights is extremely important for the lifetime and performance of the device. In this study, alternative solutions with a cooling module with a high heat-release capacity for lighting armatures, in a lighter and modular structure than aluminum blocks, have been evaluated and a innovative design has been developed. Temperature tests have been conducted on the refrigerator module produced as a prototype and the suitability in the use of sports lighting has been studied. Tests have shown that the heating problem has been solved to a large extent. In the module, there is no need for any fan power used for the purpose of cooling the armatures and there is no extra energy spent for the heat transfer.
Energy has become one of the most important subjects of our age. Efficient use of energy is vital for both the governments and the companies. LED technology is known as the most efficient device among lighting devices. The cooling of the LED illuminators is crucial for their lifetime and performance. In this study, alternative solutions that have a lighter and modular structure than aluminum blocks, with a high heat transfer capacity for illumination armatures, have been evaluated and an innovative design has been developed. Temperature tests were performed on the cooling module produced as a prototype and its suitability for street lighting use was examined. As a result of the tests, it was observed that the warming problem was largely solved. Since no extra fan power is needed to cool the luminaire in the module, it is seen that heat transfer is provided without extra energy.
Alan : Mühendislik
Dergi Türü : Ulusal
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