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الرئيسية > Assessing the Effect of Buildi...>مارك

Assessing the Effect of Building Skin Adaptability on Energy Consumption in Hot Arid Regions

المصدر: المجلة العلمية لجامعة الملك فيصل - العلوم الأساسية والتطبيقية
الناشر: جامعة الملك فيصل
المؤلف الرئيسي: Khelil, Sara (Author)
مؤلفين آخرين: Khelil, Alla Eddine (Co-Author) , Bouzir, Tallal Abdel Karim (Co-Author) , Berkouk, Djihed (Co-Author) , Zemmouri, Noureddine (Co-Author)
المجلد/العدد: مج23, ع1
محكمة: نعم
الدولة: السعودية
التاريخ الميلادي: 2022
الصفحات: 36 - 43
ISSN: 1658-0311
رقم MD: 1288198
نوع المحتوى: بحوث ومقالات
اللغة: الإنجليزية
قواعد المعلومات: science
مواضيع:
جلود البناء | استهلاك الطاقة | المناطق الحارة
كلمات المؤلف المفتاحية:
Building’s Skin | Energy Efficiency | Harvesting Daylighting | Hot and Arid Regions | Kinetic Architecture | Parametric Design
رابط المحتوى:
PDF (صورة)     
صورة الغلاف QR قانون
حفظ في:
LEADER 02560nam a22002657a 4500
001 2045290
041 |a eng 
044 |b السعودية 
100 |9 684168  |a Khelil, Sara  |e Author 
245 |a Assessing the Effect of Building Skin Adaptability on Energy Consumption in Hot Arid Regions 
260 |b جامعة الملك فيصل  |c 2022 
300 |a 36 - 43 
336 |a بحوث ومقالات  |b Article 
520 |b Building skins have a vital role in energy efficiency, particularly in terms of the conservation or consumption of energy. Many factors must be considered by designers to prevent wasting significant quantities of energy, to preserve and provide internal air conditioning and lighting, particularly in hot dry locations where the integration of sun protection systems is highly recommended. This pilot study looks at the challenge of developing energy-efficient building skins in hot regions like Biskra city by applying a natural daylight strategy represented by a parameterised moveable-shading component to the skin of a hospital patient’s room. In this research, we aim to assess the adoption of building skin parameterisation as a beneficial technique for reducing energy consumption and improving internal temperature and lighting in this environment by developing and implementing a computational design methodology. Promising experimental results demonstrate the benefit of this proposal. The use of parameterisation in the design of patient’s room skins, with moveable, tightly folded morphology, providing self-shading, are essential and effective techniques for ensuring good natural lighting and reducing both temperature and energy consumption. 
653 |a جلود البناء  |a استهلاك الطاقة  |a المناطق الحارة 
692 |b Building’s Skin  |b Energy Efficiency  |b Harvesting Daylighting  |b Hot and Arid Regions  |b Kinetic Architecture  |b Parametric Design 
700 |9 684169  |a Khelil, Alla Eddine  |e Co-Author 
700 |9 684170  |a Bouzir, Tallal Abdel Karim  |e Co-Author 
700 |9 684172  |a Berkouk, Djihed  |e Co-Author 
700 |9 684173  |a Zemmouri, Noureddine  |e Co-Author 
773 |c 014  |e Scientific Journal of King Faisal University - Basic and Applied Sciences  |f almajalat aleilmiat lijamieat almalik fysl. aleulum al'asasiat waltatbiqia  |l 001  |m مج23, ع1  |o 0184  |s المجلة العلمية لجامعة الملك فيصل - العلوم الأساسية والتطبيقية  |v 023  |x 1658-0311 
856 |u 0184-023-001-014.pdf 
930 |d y  |p y  |q n 
995 |a science 
999 |c 1288198  |d 1288198 

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