The impact of responsive systems on energy consumption and thermal performance of buildings
Joint Authors
Fuad, Manar Muhammad
Ibrahim, Vitta Abd al-Rahim
Radwan, Ahmad Husni
Source
Journal of al Azhar University : Engineering Sector
Issue
Vol. 14, Issue 52 (31 Jul. 2019), pp.1037-1049, 13 p.
Publisher
al-Azhar University Faculty of Engineering
Publication Date
2019-07-31
Country of Publication
Egypt
No. of Pages
13
Main Subjects
Topics
- Natural resources
- Global warming
- Building materials
- Thermal properties
- Architecture
- Greenhouse gases
- Smart materials
Abstract AR
من السهل اليوم التنبؤ بأن أنظمة البناء ستصبح نشطة في تشغيل النظام المتجاوب من خلال التحكم في استهلاك الطاقة لتحسين المعايير المعقدة إلى جانب ضمان الارتياح المحلي للاستخدام النهائي.
من الضروري تمكين التكامل بين المبنى و البيئة المحيطة.
لذلك تعتبر الاستجابة في الهندسة المعمارية إحدى السمات التي يمكنك تطبيقها.
أظهرت الدراسات أن السبب الأكبر لذلك هو أن مليارات الأشخاص سيعيشون في مدن خاصة في آسيا و إفريقيا وأن معظم المدن ليست جاهزة لهذا النمو الهائل و من الصعب إظهار المباني و المزيد من الأضرار التي تلحق بالبيئة و تسبب مدننا في تنبعث منها 80 ٪ من صناعة غازات الدفيئة و النقل و التنقل.
لذلك يجب أن تستخدم الموارد الطبيعية لتقليل استهلاك الطاقة الذي يسعى إلى تصميم مستدام للمباني.
ليست المدن هي الفنادق فقط و لكنها مهيأة للعيش من أجل التأثير على خصائصها و تحسينها.
Abstract EN
It is easy today to predict that the building systems will become active in the responsive system
operation by controlling their energy consumption to optimize complex criteria beyond ensuring local
end-use comfort satisfaction.
It's necessary to enable integration between the building and the
surrounding environment.
So, Responsiveness in architecture is one of the attributes that you can
apply.
Studies have shown that the biggest reason for this, billions of people will live in cities
especially in Asia and Africa, and most cities are not ready for this massive growth, it's hard to show
buildings and more damage to the environment, cause our cities to emit 80% of greenhouse gases
industry, transportation and Mobility.
So, it should use natural resources to reduce energy
consumption that seeks sustainable building design.
Cities are not only the hotels, but it's placed to
live in order to influence and improve their characteristics.
This study is a part of a thesis titled
"Analytical study of responsive architecture and smart materials and their impact on environmental
design" and it aims to understand and multiple forms of architectural response such as a kinetic
facades or human interface with the building to generate energy or use local building materials which
reduce energy consumption and resources.
We have to work on the future cities to achieve livability
and responsiveness it's become first for a smart, So it's important to know the architecture information
and Knowledge.
This paper aims to know how to reduce energy consumption in buildings according to
use a responsive system in architecture to achieve this and improve the efficiency and thermal
performance of buildings.
American Psychological Association (APA)
Fuad, Manar Muhammad& Ibrahim, Vitta Abd al-Rahim& Radwan, Ahmad Husni. 2019. The impact of responsive systems on energy consumption and thermal performance of buildings. Journal of al Azhar University : Engineering Sector،Vol. 14, no. 52, pp.1037-1049.
https://search.emarefa.net/detail/BIM-1022785
Modern Language Association (MLA)
Fuad, Manar Muhammad…[et al.]. The impact of responsive systems on energy consumption and thermal performance of buildings. Journal of al Azhar University : Engineering Sector Vol. 14, no. 52 (Jul. 2019), pp.1037-1049.
https://search.emarefa.net/detail/BIM-1022785
American Medical Association (AMA)
Fuad, Manar Muhammad& Ibrahim, Vitta Abd al-Rahim& Radwan, Ahmad Husni. The impact of responsive systems on energy consumption and thermal performance of buildings. Journal of al Azhar University : Engineering Sector. 2019. Vol. 14, no. 52, pp.1037-1049.
https://search.emarefa.net/detail/BIM-1022785
Data Type
Journal Articles
Language
English
Notes
-
Record ID
BIM-1022785