🔺 #News
✅ یازدهمین نمایشگاه بین المللی انرژی های تجدیدپذیر، بهره وری و صرفه جویی انرژی ایران
📆 ۲ تا ۵ اسفندماه
🇮🇷 محل دائمی نمایشگاه های بین المللی تهران
🌐 www.energysaving.ir
▶️ @Reference_Energy
#نمایشگاه #انرژی
✅ یازدهمین نمایشگاه بین المللی انرژی های تجدیدپذیر، بهره وری و صرفه جویی انرژی ایران
📆 ۲ تا ۵ اسفندماه
🇮🇷 محل دائمی نمایشگاه های بین المللی تهران
🌐 www.energysaving.ir
▶️ @Reference_Energy
#نمایشگاه #انرژی
🔺 #Reference
📌 Horizon Research Publishing Corporation
🔺 Journals
🔺 Online Submission
🔺 Books
🌐 http://www.hrpub.org/
▶️ @Reference_Energy
📌 Horizon Research Publishing Corporation
🔺 Journals
🔺 Online Submission
🔺 Books
🌐 http://www.hrpub.org/
▶️ @Reference_Energy
✒️ #Article 64
🔺 Horizon Research Publishing Corporation - Civil Engineering and Architecture - 2014
@Reference_Energy
📌 Emerging Trends in Tall Building Design: Environmental Sustainability through Renewable Energy Technologies
@Reference_Energy
🔺 ABSTRACT
Tall buildings are considered as a great consumer of energy which utilized huge amount of resources and materials; produce massive volumes of waste discharge into the environment and more often called as unsustainable buildings. Building materials such as steel and cement with high intensities of embodied energy are required to create the skeletal framework and lay the foundation for their long lasting structures. The growing global pressure to reduce carbon footprint and concerns for creating sustainable habitats, have also greatly ignited the quest to delve for innovative solutions and emerging trends in tall building designs. This paper discusses environmental sustainability in tall buildings with special reference to the application of renewable energy technologies. Further the paper also validates the application of renewable energy technologies by two detailed case study namely Bahrain World Trade Center, Bahrain and The Pearl River Tower, Guangzhou.
▶️ @Reference_Energy
🔺 Keywords:
#Tall_Buildings
#Environmental_Sustainability
#Renewable_Energy_Technologies
👇👇👇
🔺 Horizon Research Publishing Corporation - Civil Engineering and Architecture - 2014
@Reference_Energy
📌 Emerging Trends in Tall Building Design: Environmental Sustainability through Renewable Energy Technologies
@Reference_Energy
🔺 ABSTRACT
Tall buildings are considered as a great consumer of energy which utilized huge amount of resources and materials; produce massive volumes of waste discharge into the environment and more often called as unsustainable buildings. Building materials such as steel and cement with high intensities of embodied energy are required to create the skeletal framework and lay the foundation for their long lasting structures. The growing global pressure to reduce carbon footprint and concerns for creating sustainable habitats, have also greatly ignited the quest to delve for innovative solutions and emerging trends in tall building designs. This paper discusses environmental sustainability in tall buildings with special reference to the application of renewable energy technologies. Further the paper also validates the application of renewable energy technologies by two detailed case study namely Bahrain World Trade Center, Bahrain and The Pearl River Tower, Guangzhou.
▶️ @Reference_Energy
🔺 Keywords:
#Tall_Buildings
#Environmental_Sustainability
#Renewable_Energy_Technologies
👇👇👇
🔺 #News
📌 اولین رویداد معرفی استارتاپ های حوزه انرژی ایران
📆 ۴ و ۵ اسفند ماه ۱۳۹۷
🇮🇷 مرکز همایش های بین المللی صدا و سیما
🌐 www.itechac.com
▶️ @Reference_Energy
📌 اولین رویداد معرفی استارتاپ های حوزه انرژی ایران
📆 ۴ و ۵ اسفند ماه ۱۳۹۷
🇮🇷 مرکز همایش های بین المللی صدا و سیما
🌐 www.itechac.com
▶️ @Reference_Energy
Media is too big
VIEW IN TELEGRAM
🔺 #Clip
🏡 ساختمان سبز
🔺 تعریف ساختمان سبز
🔺 برندسازی ساختمان برای کمک به فروش و ساخت و ساز
🔺 فاکتور های مهم در ساخت ساختمان سبز
#Energy_Efficiency
#Water_Conservation
#Indoor_Air_Quality
#Resource_Conservation
#Community_Design
♻️ Build it Green
▶️ @Reference_Energy
🏡 ساختمان سبز
🔺 تعریف ساختمان سبز
🔺 برندسازی ساختمان برای کمک به فروش و ساخت و ساز
🔺 فاکتور های مهم در ساخت ساختمان سبز
#Energy_Efficiency
#Water_Conservation
#Indoor_Air_Quality
#Resource_Conservation
#Community_Design
♻️ Build it Green
▶️ @Reference_Energy
🔺 #Reference #Software
🐝 Honeybee Wiki Home
📌 راهنمای تصویری و مرحله ای هانی بی
🌐 https://github.com/mostaphaRoudsari/honeybee/wiki
▶️ @Reference_Energy
#Honeybee
🐝 Honeybee Wiki Home
📌 راهنمای تصویری و مرحله ای هانی بی
🌐 https://github.com/mostaphaRoudsari/honeybee/wiki
▶️ @Reference_Energy
#Honeybee
✨ زاد روز خواجه نصیرالدین طوسی و روز مهندس بر شما مهندسان عزیز خجسته باد ✨
✅ کانال مرجع انرژی در ساختمان
♻️ @Reference_Energy
✅ کانال مرجع انرژی در ساختمان
♻️ @Reference_Energy
#درخواستی
✒️ #Article 65
🔺 Performance Analysis of External Shading Devices
@Reference_Energy
📌 Building and Environment, Vol. 22, No. 4, pp. 269-284, 1987
@Reference_Energy
🔺 ABSTRACT
The performance of the basic vertical and horizontal types of external shading devices was studied in detail. The different performance modes are presented in the form of shading masks featured
by the cutoff angles.
Mathematical formulae were derived to express the cutoff angles in terms of the various geometrical parameters characterizing the combination of the shading device and the fenestration. These angles define the partial and complete shading phases. The formulae are put in generalized forms, in terms of normalized geometrical ratios, so as to be independent of the absolute dimensions. A unified approach was followed for both vertical and horizontal devices so that the derived normalized expressions can be adopted for the two types.
The effect of the various geometrical factors on the cutoff angles, i.e. on the form of the shading mask, was investigated for different configurations of vertical and horizontal shades. Based on the derived relations, the trends of variation, of the cutoff angles with these factors, are graphically presented for each case.
▶️ @Reference_Energy
🔺 Keywords:
#External_Shading
#Shading_Devices
#Performance_Analysis
👇👇👇
✒️ #Article 65
🔺 Performance Analysis of External Shading Devices
@Reference_Energy
📌 Building and Environment, Vol. 22, No. 4, pp. 269-284, 1987
@Reference_Energy
🔺 ABSTRACT
The performance of the basic vertical and horizontal types of external shading devices was studied in detail. The different performance modes are presented in the form of shading masks featured
by the cutoff angles.
Mathematical formulae were derived to express the cutoff angles in terms of the various geometrical parameters characterizing the combination of the shading device and the fenestration. These angles define the partial and complete shading phases. The formulae are put in generalized forms, in terms of normalized geometrical ratios, so as to be independent of the absolute dimensions. A unified approach was followed for both vertical and horizontal devices so that the derived normalized expressions can be adopted for the two types.
The effect of the various geometrical factors on the cutoff angles, i.e. on the form of the shading mask, was investigated for different configurations of vertical and horizontal shades. Based on the derived relations, the trends of variation, of the cutoff angles with these factors, are graphically presented for each case.
▶️ @Reference_Energy
🔺 Keywords:
#External_Shading
#Shading_Devices
#Performance_Analysis
👇👇👇
🔺 #Reference #Software
📌 دانلود فایل های اقلیمی شهرهای مختلف ایران
🌐 http://climate.onebuilding.org/WMO_Region_2_Asia/IRN_Iran/index.html
▶️ @Reference_Energy
#epw #stat #WMO
📌 دانلود فایل های اقلیمی شهرهای مختلف ایران
🌐 http://climate.onebuilding.org/WMO_Region_2_Asia/IRN_Iran/index.html
▶️ @Reference_Energy
#epw #stat #WMO
#درخواستی
🔺 #Reference
📌 بهینه سازی مصرف آب در مدارس
✅ Water efficiency guide for schools 👇
🌐 https://www.educationsoutheastwater.com.au/resources/water-efficiency-practical-guide-for-schools
✅ The Schools Water Efficiency Program 👇
🌐 https://www.myswep.com.au/
✅ WaterSense
🔺 EPA - United States Environmental Protection Agency 👇
🌐 https://www.epa.gov/watersense
▶️ @Reference_Energy
#water_efficiency #school
🔺 #Reference
📌 بهینه سازی مصرف آب در مدارس
✅ Water efficiency guide for schools 👇
🌐 https://www.educationsoutheastwater.com.au/resources/water-efficiency-practical-guide-for-schools
✅ The Schools Water Efficiency Program 👇
🌐 https://www.myswep.com.au/
✅ WaterSense
🔺 EPA - United States Environmental Protection Agency 👇
🌐 https://www.epa.gov/watersense
▶️ @Reference_Energy
#water_efficiency #school
#درخواستی
🔺 #Doc
📌 Guide to water efficiency in schools
🔺 To all Primary and Post Primary schools
🔺 circulars.gov.ie
▶️ @Reference_Energy
#water_efficiency #school
👇👇👇
🔺 #Doc
📌 Guide to water efficiency in schools
🔺 To all Primary and Post Primary schools
🔺 circulars.gov.ie
▶️ @Reference_Energy
#water_efficiency #school
👇👇👇
#درخواستی
🔺 #Doc
📌 Water efficiency in schools
🔺 Sustainability Victoria
🔺 2016
▶️ @Reference_Energy
#water_efficiency #school
👇👇👇
🔺 #Doc
📌 Water efficiency in schools
🔺 Sustainability Victoria
🔺 2016
▶️ @Reference_Energy
#water_efficiency #school
👇👇👇
#درخواستی
🔺 #Doc
📌 Sustainable water management in schools
🔺 CIRIA RP716
▶️ @Reference_Energy
#water_efficiency #school
👇👇👇
🔺 #Doc
📌 Sustainable water management in schools
🔺 CIRIA RP716
▶️ @Reference_Energy
#water_efficiency #school
👇👇👇
#درخواستی
🔺 #Doc
📌 Saving Water in Educational Facilities
🔺 EPA – WaterSense
▶️ @Reference_Energy
#water_efficiency #school
👇👇👇
🔺 #Doc
📌 Saving Water in Educational Facilities
🔺 EPA – WaterSense
▶️ @Reference_Energy
#water_efficiency #school
👇👇👇
#درخواستی
✒️ #Article 66
🔺 Armanshahr Architecture & Urban Development - Spring 2017
@Reference_Energy
📌 The Analysis of Daylight Factor and Illumination in Iranian Traditional Architecture
Case Studies: Qajar Era Houses, Qazvin, Iran
@Reference_Energy
🔺 ABSTRACT
As buildings are the biggest consumers of energy, reducing the total energy consumption in this area may have a significant role in preserving non-renewable resources. Appropriate use of daylight may decrease the need for electric lighting which may lead to reduced energy consumption and costs in lighting. Moreover, in the Iranian traditional architecture, there have been various passive strategies to take advantage of the renewable resources to provide thermal and visual comfort for users. Using daylight is one of these methods and strategies. The present study aims at analyzing the lighting condition of these buildings. Therefore, four buildings in Qazvin city, which belong to Qajar period (1785-7925 A.D.), were selected as the case studies. Then, the elected buildings were simulated as three-dimensional models. Finally, the analysis of daylight factor and illuminance was conducted using Ecotect Analysis, Energy Plus and VELUX Daylight Visualizer Software. After the analysis of data obtained from the respective simulations and their comparison with the extant standards of lighting, it was found that the average daylight factor at all under-scrutiny rooms was acceptable; in addition, 76 percent of rooms required no artificial light during the daytime. The reason for appropriate lighting in these spaces is positioning alongside the sunlit side of the building as well as use of big windows. In addition, the analysis of illuminance shows that the distribution of light in interior spaces is even. Moreover, although much amount of light enters the space, the use of light color prevents contrast and daze while enhances visual comfort.
▶️ @Reference_Energy
🔺 Keywords
#Iranian_Traditional_Architecture
#Daylight_Simulation_Software
#Illuminance
#Ecotect
#Energy_Plus
#VELUX_Daylight_Visualizer
#Daylight_Factor
👇👇👇
✒️ #Article 66
🔺 Armanshahr Architecture & Urban Development - Spring 2017
@Reference_Energy
📌 The Analysis of Daylight Factor and Illumination in Iranian Traditional Architecture
Case Studies: Qajar Era Houses, Qazvin, Iran
@Reference_Energy
🔺 ABSTRACT
As buildings are the biggest consumers of energy, reducing the total energy consumption in this area may have a significant role in preserving non-renewable resources. Appropriate use of daylight may decrease the need for electric lighting which may lead to reduced energy consumption and costs in lighting. Moreover, in the Iranian traditional architecture, there have been various passive strategies to take advantage of the renewable resources to provide thermal and visual comfort for users. Using daylight is one of these methods and strategies. The present study aims at analyzing the lighting condition of these buildings. Therefore, four buildings in Qazvin city, which belong to Qajar period (1785-7925 A.D.), were selected as the case studies. Then, the elected buildings were simulated as three-dimensional models. Finally, the analysis of daylight factor and illuminance was conducted using Ecotect Analysis, Energy Plus and VELUX Daylight Visualizer Software. After the analysis of data obtained from the respective simulations and their comparison with the extant standards of lighting, it was found that the average daylight factor at all under-scrutiny rooms was acceptable; in addition, 76 percent of rooms required no artificial light during the daytime. The reason for appropriate lighting in these spaces is positioning alongside the sunlit side of the building as well as use of big windows. In addition, the analysis of illuminance shows that the distribution of light in interior spaces is even. Moreover, although much amount of light enters the space, the use of light color prevents contrast and daze while enhances visual comfort.
▶️ @Reference_Energy
🔺 Keywords
#Iranian_Traditional_Architecture
#Daylight_Simulation_Software
#Illuminance
#Ecotect
#Energy_Plus
#VELUX_Daylight_Visualizer
#Daylight_Factor
👇👇👇