#DOC
📘 مستند 119 📘موضوع:
Simulation-based personalized real-time control of adaptive facades in shared office spaces
⬇️⬇️⬇️
Authors:
Amir Tabadkani, Astrid Roetzel, Hong Xian Li, Aris Tsangrassoulis
Journal: Automation in Construction (Q1, IF: 7.7)
Abstract
High-performance facade is a crucial component in buildings that are characterized by extensive large transparent facades especially in shared office environments to control both energy demand and human comfort. Adaptive façades (AFs) offer a multifunctional potential that can react to short-term changes of environment or user preferences. However, there is no methodological framework for controlling such façades for a shared office space where extra conflicts because of different visual discomfort experiences might arise among users when they want to interact with façade due to social constraints such as hesitation or complex ownership. This research paper introduces a novel simulation-based framework that allows personalized real-time control over façade sections or modules. The methodology utilizes parametric simulation tools and offline control programming using Python language within an integrated workflow. Allowing the users to send their visual discomfort requests to the back-end control algorithm could improve both their visual comfort performance and building thermal energy demand by 61% and 29%, respectively, compared to two typical automatic shading controls. Limitations of the current methodology and potential recommendations for future studies are also discussed in detail.
لینک مقاله:
https://authors.elsevier.com/a/1exy23IhXMtgCg
📘 مستند 119 📘موضوع:
Simulation-based personalized real-time control of adaptive facades in shared office spaces
⬇️⬇️⬇️
Authors:
Amir Tabadkani, Astrid Roetzel, Hong Xian Li, Aris Tsangrassoulis
Journal: Automation in Construction (Q1, IF: 7.7)
Abstract
High-performance facade is a crucial component in buildings that are characterized by extensive large transparent facades especially in shared office environments to control both energy demand and human comfort. Adaptive façades (AFs) offer a multifunctional potential that can react to short-term changes of environment or user preferences. However, there is no methodological framework for controlling such façades for a shared office space where extra conflicts because of different visual discomfort experiences might arise among users when they want to interact with façade due to social constraints such as hesitation or complex ownership. This research paper introduces a novel simulation-based framework that allows personalized real-time control over façade sections or modules. The methodology utilizes parametric simulation tools and offline control programming using Python language within an integrated workflow. Allowing the users to send their visual discomfort requests to the back-end control algorithm could improve both their visual comfort performance and building thermal energy demand by 61% and 29%, respectively, compared to two typical automatic shading controls. Limitations of the current methodology and potential recommendations for future studies are also discussed in detail.
لینک مقاله:
https://authors.elsevier.com/a/1exy23IhXMtgCg
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🍀Modelling, Design, and Optimization of Net-Zero Energy Buildings
🍀
این کتاب در رابطه با مدلسازی، طراحی و بهینه سازی ساختمان های با انرژی خالص صفر می باشد.
لینک دانلود کتاب:👇👇👇👇👇👇
🌐https://b2n.ir/e19237
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🍀Modelling, Design, and Optimization of Net-Zero Energy Buildings
🍀
این کتاب در رابطه با مدلسازی، طراحی و بهینه سازی ساختمان های با انرژی خالص صفر می باشد.
لینک دانلود کتاب:👇👇👇👇👇👇
🌐https://b2n.ir/e19237
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🍀Design And Optimization Of Thermal Systems, With MATLAB® Applications 🍀
این کتاب در رابطه با طراحی و بهینهسازی سیستمهای حرارتی با نرم افزار متلب همراه با ارائه فرمولهای محاسباتی و ... می باشد.
لینک دانلود کتاب:👇👇👇👇👇👇
🌐https://b2n.ir/x66393
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🍀Design And Optimization Of Thermal Systems, With MATLAB® Applications 🍀
این کتاب در رابطه با طراحی و بهینهسازی سیستمهای حرارتی با نرم افزار متلب همراه با ارائه فرمولهای محاسباتی و ... می باشد.
لینک دانلود کتاب:👇👇👇👇👇👇
🌐https://b2n.ir/x66393
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#DOC
📘 مستند 120 📘موضوع:
Thermal comfort analysis of earth-sheltered buildings: The case of meymand village, Iran
⬇️⬇️⬇️
Authors:
Amirreza Khaksar, Amir Tabadkani, Seyed Majid Mofidi Shemirani, Aso Hajirasouli, Saeed Banihashemi, Shady Attia
Journal: Frontiers of Architectural Research
Abstract
Vernacular buildings are known for their localized passive settings to provide comfortable indoor environment without air conditioning systems. One alternative is the consistent ground temperature over the year that earth-sheltered envelopes take the benefit; however, ensuring annual indoor comfort might be challenging. Thus, this research monitors the indoor thermal indicators of 22 earth-sheltered buildings in Meymand, Iran with a warm-dry climate. Furthermore, the observations are used to validate the simulation results through two outdoor and indoor environmental parameters, air temperature and relative humidity during the hottest period of the year. Findings indicated that the main thermal comfort differences among case studies were mainly due to their architectural layouts where the associated variables including length, width, height, orientation, window-to-wall ratio, and shading depth were optimized through a linkage between Ladybug-tools and Genetic Algorithm (GA) concerning adaptive thermal comfort model definition and could enhance the annual thermal comfort by 31%.
لینک مقاله:
https://authors.elsevier.com/sd/article/S2095-2635(22)00047-4
📘 مستند 120 📘موضوع:
Thermal comfort analysis of earth-sheltered buildings: The case of meymand village, Iran
⬇️⬇️⬇️
Authors:
Amirreza Khaksar, Amir Tabadkani, Seyed Majid Mofidi Shemirani, Aso Hajirasouli, Saeed Banihashemi, Shady Attia
Journal: Frontiers of Architectural Research
Abstract
Vernacular buildings are known for their localized passive settings to provide comfortable indoor environment without air conditioning systems. One alternative is the consistent ground temperature over the year that earth-sheltered envelopes take the benefit; however, ensuring annual indoor comfort might be challenging. Thus, this research monitors the indoor thermal indicators of 22 earth-sheltered buildings in Meymand, Iran with a warm-dry climate. Furthermore, the observations are used to validate the simulation results through two outdoor and indoor environmental parameters, air temperature and relative humidity during the hottest period of the year. Findings indicated that the main thermal comfort differences among case studies were mainly due to their architectural layouts where the associated variables including length, width, height, orientation, window-to-wall ratio, and shading depth were optimized through a linkage between Ladybug-tools and Genetic Algorithm (GA) concerning adaptive thermal comfort model definition and could enhance the annual thermal comfort by 31%.
لینک مقاله:
https://authors.elsevier.com/sd/article/S2095-2635(22)00047-4
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🍀تبدیل خودکار زبان برنامه نویسی🍀
بعد از برنامه نویسی خودکار توسط GitHub Copilot، حالا با رونمایی از GitHub Copilot Labs شما میتونین کدها رو از هر زبان به هر زبان دیگه ای ترجمه کنین!
https://lnkd.in/e_cT3pzM
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🍀تبدیل خودکار زبان برنامه نویسی🍀
بعد از برنامه نویسی خودکار توسط GitHub Copilot، حالا با رونمایی از GitHub Copilot Labs شما میتونین کدها رو از هر زبان به هر زبان دیگه ای ترجمه کنین!
https://lnkd.in/e_cT3pzM
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#DOC
📘 مستند 121 📘موضوع:
Comparison of Thermal Energy Saving Potential and Overheating Risk of Four Adaptive Façade Technologies in Office Buildings
⬇️⬇️⬇️
Authors:
Shady Attia, Stéphanie Bertrand, Mathilde Cuchet, Siliang Yang, and Amir Tabadkani
Journal: Sustainability (Q1, IF: 3.25)
Abstract
Adaptive façades are gaining greater importance in highly efficient buildings under a warming climate. There is an increasing demand for adaptive façades designed to regulate solar
and thermal gains/losses, as well as avoid discomfort and glare issues. Occupants and developers of office buildings ask for a healthy and energy-neutral working environment. Adaptive façades are appropriate dynamic solutions controlled automatically or through occupant interaction. However, relatively few studies compared their energy and overheating risk performance, and there is still a vast knowledge gap on occupant behavior in operation. Therefore, we chose to study four dynamic envelopes representing four different façade families: dynamic shading, electrochromic glazing, double-skin, and active ventilative façades. Three control strategies were chosen to study the dynamic aspect of solar control, operative temperature, and glare control. Simulations were realized with EnergyPlus on the BESTEST case 600 from the ASHRAE standard 140/2020 for the temperate climate of Brussels. A sensitivity analysis was conducted to study the most influential parameters. The study findings indicate that dynamic shading devices and electrochromic glazing have a remarkable influence on the annual thermal energy demand, decreasing the total annual loads that can reach 30%. On the other hand, BIPV double-skin façades and active ventilative façades (cavity façades) could be more appropriate for cold climates. The study ranks the four façade technologies and provides novel insights for façade designers and building owners regarding the annual energy performance and overheating risk.
لینک مقاله:
https://www.mdpi.com/2071-1050/14/10/6106
📘 مستند 121 📘موضوع:
Comparison of Thermal Energy Saving Potential and Overheating Risk of Four Adaptive Façade Technologies in Office Buildings
⬇️⬇️⬇️
Authors:
Shady Attia, Stéphanie Bertrand, Mathilde Cuchet, Siliang Yang, and Amir Tabadkani
Journal: Sustainability (Q1, IF: 3.25)
Abstract
Adaptive façades are gaining greater importance in highly efficient buildings under a warming climate. There is an increasing demand for adaptive façades designed to regulate solar
and thermal gains/losses, as well as avoid discomfort and glare issues. Occupants and developers of office buildings ask for a healthy and energy-neutral working environment. Adaptive façades are appropriate dynamic solutions controlled automatically or through occupant interaction. However, relatively few studies compared their energy and overheating risk performance, and there is still a vast knowledge gap on occupant behavior in operation. Therefore, we chose to study four dynamic envelopes representing four different façade families: dynamic shading, electrochromic glazing, double-skin, and active ventilative façades. Three control strategies were chosen to study the dynamic aspect of solar control, operative temperature, and glare control. Simulations were realized with EnergyPlus on the BESTEST case 600 from the ASHRAE standard 140/2020 for the temperate climate of Brussels. A sensitivity analysis was conducted to study the most influential parameters. The study findings indicate that dynamic shading devices and electrochromic glazing have a remarkable influence on the annual thermal energy demand, decreasing the total annual loads that can reach 30%. On the other hand, BIPV double-skin façades and active ventilative façades (cavity façades) could be more appropriate for cold climates. The study ranks the four façade technologies and provides novel insights for façade designers and building owners regarding the annual energy performance and overheating risk.
لینک مقاله:
https://www.mdpi.com/2071-1050/14/10/6106
MDPI
Comparison of Thermal Energy Saving Potential and Overheating Risk of Four Adaptive Façade Technologies in Office Buildings
Adaptive façades are gaining greater importance in highly efficient buildings under a warming climate. There is an increasing demand for adaptive façades designed to regulate solar and thermal gains/losses, as well as avoid discomfort and glare issues. Occupants…
#Doc
🍀زاویه بهینه برای کلکتور بر اساس کاربری های مورد نظر🍀
اگر تنظیم زاویه کلکتورها بهمنظور حصول حداکثری تابش بهصورت فصلی امکانپذیر بوده یا استفاده از کلکتورهای خورشیدی محدود به فصل خاصی میباشد میتوانید از رابطهی زیر برای تنظیم زاویه کلکتورها در فصلهای مختلف ایران استفاده کنید. در این رابطه زاویه بهینه کلکتور در ازای فصول مختلف سال آورده شده است.
(مقدار φ برابر عرض جغرافیایی شهر می باشد.)
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🍀زاویه بهینه برای کلکتور بر اساس کاربری های مورد نظر🍀
اگر تنظیم زاویه کلکتورها بهمنظور حصول حداکثری تابش بهصورت فصلی امکانپذیر بوده یا استفاده از کلکتورهای خورشیدی محدود به فصل خاصی میباشد میتوانید از رابطهی زیر برای تنظیم زاویه کلکتورها در فصلهای مختلف ایران استفاده کنید. در این رابطه زاویه بهینه کلکتور در ازای فصول مختلف سال آورده شده است.
(مقدار φ برابر عرض جغرافیایی شهر می باشد.)
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🍀راهنماي طراحی سیستم هاي فتوولتاییک به منظور تامین انرژي الکتریکی به تفکیک اقلیم و کاربري ضابطه شماره 667🍀
لینک دانلود کتاب:👇👇👇👇👇👇
🌐https://b2n.ir/r22291
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🍀راهنماي طراحی سیستم هاي فتوولتاییک به منظور تامین انرژي الکتریکی به تفکیک اقلیم و کاربري ضابطه شماره 667🍀
لینک دانلود کتاب:👇👇👇👇👇👇
🌐https://b2n.ir/r22291
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🍀استاندارد ملی INSO 23030 - خنک سازی شخصی برای بهبود آسایش حرارتی و کاهش مصرف انرژی سیستم های خنک کاری هوا🍀
لینک دانلود استاندارد:👇👇👇👇👇👇
🌐https://b2n.ir/n45898
هدف از تدوین این استاندارد ارائه راهنمای خنک سازی شخصی برای تحقق موارد زیر است:
۱- افزایش رفاه: بهبود آسایش حرارتی ساکنین با توجه به تفاوت های فردی؛
٢- کاهش مصرف انرژی: ارائه راهکارهای کاهش گرمای درونی بدن یا خنک سازی مستقيم بدن بجای خنک کاری کل هوا بدون مصرف انرژی یا مصرف انرژی کم؛
٣- ارتقا بهداشت تنفسی: کاهش نیاز به روش های خنک کاری مبتنی بر حبس هوا در فضای بسته (کاهش انتشار بیماریهای واگیردار تنفسی).
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🍀استاندارد ملی INSO 23030 - خنک سازی شخصی برای بهبود آسایش حرارتی و کاهش مصرف انرژی سیستم های خنک کاری هوا🍀
لینک دانلود استاندارد:👇👇👇👇👇👇
🌐https://b2n.ir/n45898
هدف از تدوین این استاندارد ارائه راهنمای خنک سازی شخصی برای تحقق موارد زیر است:
۱- افزایش رفاه: بهبود آسایش حرارتی ساکنین با توجه به تفاوت های فردی؛
٢- کاهش مصرف انرژی: ارائه راهکارهای کاهش گرمای درونی بدن یا خنک سازی مستقيم بدن بجای خنک کاری کل هوا بدون مصرف انرژی یا مصرف انرژی کم؛
٣- ارتقا بهداشت تنفسی: کاهش نیاز به روش های خنک کاری مبتنی بر حبس هوا در فضای بسته (کاهش انتشار بیماریهای واگیردار تنفسی).
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گروه اپ گرین گرید
اولین تیم تخصصی مشاور و آموزش در حوزه های تحلیل انرژی، روشنایی و سیالاتی ساختمان
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🍀کتاب ساختمان سبز 🍀
جلد اول :بررسی سیستم ارزیابی ساختمان سبز در جهان
جلد دوم :سیستم ارزیابی ساختمان سبز ایران سرو سبز
لینک دانلود از سایت مرکز تحقیقات راه و
مسکن و شهرسازی
:https://pub.bhrc.ac.ir/
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🍀کتاب ساختمان سبز 🍀
جلد اول :بررسی سیستم ارزیابی ساختمان سبز در جهان
جلد دوم :سیستم ارزیابی ساختمان سبز ایران سرو سبز
لینک دانلود از سایت مرکز تحقیقات راه و
مسکن و شهرسازی
:https://pub.bhrc.ac.ir/
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