![]() ![]() Benzer bir eğilim görünür ışık geçirgenliği için gözlenmiştir. Test süresi boyunca ortalama güneş ışınımı 527.6 W/m2 olarak ölçülmüş ve PV camın arkasında ilgili değer 41.6 W/m2 olarak bulunmuştur. Ön ve arka yüzeyler arasındaki ortalama sıcaklık farkı gelen güneş ışınımının güçlü bir fonksiyonu olarak 16.59 ☌ ve ümit verici bulunmuştur. Sonuçlar ilk bakışta TRPVG-Ar16’nın iyi bir ısıl yalıtıcı olduğunu göstermiştir. Testler Nisan 2019’da ısıl direnç için argon gazının PV hücrelerin arkasında 16 mm kalınlığındaki bir boşluğu doldurduğu ve konstrüksiyonun gerisinde düşük emisyonlu kaplamalı ısıl dirençli yenilikçi bir cam ile desteklenen özellikli bir numune için (TRPVG-Ar16) yapılmıştır. ![]() Mevcut araştırmanın kapsamı içerisinde, gelen güneş ışığının UVC ve UVA kısımlarının soğurulması, görünür ışık geçirgenliği ve ısıl radyasyonun kontrolü, farklı gürültü seviyelerinin azaltılması, elektrik üretim performansı ve solar cam boyunca sıcaklık farkı kapsamlı olarak analiz edilmektedir. Literatürde yapılan çalışmalarda, yenilikçi bir yapı elemanı olarak TRPVG’nin yüksek ısıl direnç, kendi kendini temizleyebilme ve rekabetçi maliyet gibi çok fonksiyonlu faydalarına işaret edilmektedir. Outside the simulation environment, the noise level is measured to be 84.3 dBA while it is 56.5 dBA for the indoor, which corresponds to about 32.9% reduction in dBA value.īu çalışmada, benzersiz bir fotovoltaik (PV) cam konsepti, ısı yalıtımlı PV cam (TRPVG), tanıtılmakta ve enerji üretimi, ısıl, optik ve akustik performans parametreleri deneysel olarak incelenmektedir. The tests carried out for various noise levels also demonstrate that TRPVG-Ar16 is a promising noise absorber. UVC and UVA measurements reveal that the novel TRPVGAr16 technology is capable of blocking 100% of UV part of incoming sunlight, which needs to be noted. Average light intensity measurements from the front and back of TRPVG-Ar16 are reported to be 622.3 and 75.4 lx, respectively. A similar tendency is observed for the visible light transmittance. The average solar radiation is measured to be 527.6 W/m2 during the test period, and the aforesaid value behind the PV glazing is found to be 41.6 W/m2. The average temperature difference between front and back surfaces is determined to be 16.59 ☌, which is promising and a strong function of incoming solar radiation. The results reveal that TRPVGAr16 is a very good thermal insulator at first glance. The tests are conducted in April 2019 for a specific sample (TRPVG-Ar16) in which argon gas fills a 16 mm thick gap at the rear of PV cells for thermal resistance, and a novel low-e coated thermally resistive glass is reinforced behind the structure. Within the scope of the present research, absorption of UVC and UVA part of incoming sunlight, control of visible light transmittance and solar thermal radiation, reduction of different noise levels, electricity production performance and temperature difference throughout the solar glass are comprehensively analysed. In the previous literature works, multifunctional benefits of TRPVG as a novel building element such as high thermal resistance, self-cleaning and competitive cost are addressed. Special summaries are provided in boxes and the ten problems are illustrated with cartoons.In this communication, a unique photovoltaic (PV) glass concept, heat insulative PV glass (TRPVG), is introduced, and its energy production, thermal, optical and acoustic performance parameters are experimentally investigated. In part two, he develops his intentionalist approach to consciousness. ![]() In the book's first part Tye lays out the domain, the ten problems and an associated paradox, along with all the theories currently available and the difficulties they face. He develops this representational approach to consciousness in detail with great ingenuity and originality. Tye argues that all experiences and all feelings represent things, and that their phenomenal aspects are to be understood in terms of what they represent. The test of any such theory, according to Tye, lies in how well it handles ten critical problems of consciousness. Can neurophysiology ever reveal to us what it is like to smell a skunk or to experience pain? In what does the feeling of happiness consist? How is it that changes in the white and gray matter composing our brains generate subjective sensations and feelings? These are several of the questions that Michael Tye addresses, while formulating a new and enlightening theory about the phenomenal "what it feels like" aspect of consciousness.
0 Comments
Leave a Reply. |
Details
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |