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David F. Cavers Honored

Author: Rasouli Aisan
Viberg Elin
Publication venue: Duke University School of Law
Publication date: 01/07/1988
Field of study

Denna rapport är en del av en större förstudie som handlar om lönsamheten i en liten vindkraftsanläggning bestående av tre vindkraftverk placerade på Öland. Syftet för denna del är att undersöka kostnaden för underhållet, olika underhållsstrategier och lagerhållning. Rapporten beskriver även de olika komponenterna i ett vindkraftverk, vilka fel som inträffar samt hur ofta de inträffar. Den metod som har använts är att genom litteraturstudie sammanställa statistik för felfrekvens, hindertid och kostnader. Driftkostnaden för tre vindkraftverk beräknades till 80.7- 100.8 miljoner kronor och förväntas ha en tillgänglighet på 94-99 %. Det är dock svårt att exakt kartlägga de fel som inträffar i vindkraftverket på grund av dess komplexa struktur. Vindkraftsanläggningen kan inte med säkerhet förväntas vara ekonomiskt lönsam. Det ekonomiska perspektivet är en viktig del, men för att lösa problemen med den globala uppvärmningen krävs det att det ses i ett bredare perspektiv.

Publikationer från KTH

Duke Law Scholarship Repository

Digitala Vetenskapliga Arkivet - Academic Archive On-line

Tilt angle optimization of photovoltaic panels

Author: Puig Cayuela Vicenç
Rasouli Dogaheh Zahra
Publication venue: 'Institute of Electrical and Electronics Engineers (IEEE)'
Publication date: 01/01/2019
Field of study

© 2019 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for all other uses, in any current or future media, including reprinting/republishing this material for advertising or promotional purposes, creating new collective works, for resale or redistribution to servers or lists, or reuse of any copyrighted component of this work in other works.The solar PV power sector in Spain has been developing at a spectacular rate in recent years. The energy cost and the dependence on fossil fuels can be reduced by improving the efficiency of photovoltaic energy production. The performance of a solar radiation conversion system is affected by a tilt angle with the horizontal plane. Thus, the photovoltaic array needs to be tilted at the correct angle to maximize the performance of the system. In this paper, we found the optimum tilt angle and applied for Barcelona, Spain, located at latitude 41o 22' 56'' North and longitude 2o 6'56'' East. The optimal tilt angle for Winter (December, January, February) is 56.46 and the optimum tilt angle for Spring (March, April, May Ls 2 .11°and the optimum tilt angle for Summer(Jun, July, August Ls 13.76° and the optimum tilt angle for Autumn (September, 2ctober, November Ls 8.1 °. finally, the annual optimum tilt angle for our latitude Ls 36.87°, ZLth thLs optimal slope angle, maximum monthly and annual solar radiation is calculated. In this way, we can increase the energy generation when achieved to maximum solar radiation. With this process, we were able to increase 10.54% of energy.Peer ReviewedPostprint (author's final draft

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