S.C. Huang PORTFOLIO 2016
C ONTENT
INTRODUCTION
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R E S E A R C H & P U B L I C AT I O N A BIM Workflow for Responsive Energy-Efficient Faรงade
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ACADEMIC PROJECTS
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Fishing Village Housing - Staring Sea from Alley Life Campus from Art Museum
PROFESSIONAL PROJECTS Interior Design - Dongguang 24 Renovation Design - Rende Inn
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SHAO CH U
HUANG
East Dist., Tainan City, Taiwan (R.O.C.) studio.schuang@gmail.com +886 936079311 https://tw.linkedin.com/in/huang-shao-chu-33784328
ABOUT ME I’m an optimist and have great passion for architectural design, especially integrating current technology into people’s lifestyle. Overall, I graduated from department of architecture in National Cheng Kung University in Taiwan and followed with the Interactive Archtecture Lab (IA Lab) which is led by Prof. Jeng. We mainly focused on Computer-Aided Architectual Design, Interactive Design, and Building Information Modeling (BIM). I Assisted Prof. Chen in researching on field of “Adaptive Building Facade, Responsive Facade and Green-BIM Design Approach”; And We have two publications in Taiwan and one in Melbourne. I really love to get along with other people and work as a team to solve problems directly. I am also good at creating comfortable-attractive spaces and arranging many plans for partners. I had been Curating four exhibitions and participating one exhibition during school. To sum up, I have a strong will to try and learn new technologies in this field. If you have any interest in my profession, please just contact me.
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EDUCATION Master in Architecture, National Cheng Kung University, Taiwan. Degree in Architecture, Chung Yuan Christian University, Taiwan.
Sep. 2013 - May. 2016 Sep. 2008 - June. 2013
TECHNICAL SKILLS •Architectural Related Software: Autodesk Revit, Autodesk 3Ds Max, Sketchup, AutoCAD. •Graphic Layout Software: Adobe Illustrator and Photoshop. •Word processing Software : Microsoft Office Word , Excel and Powerpoint. •Fluent Speaking, Listening and Writing in Mandarin and Taiwanese; Good Working knowledge of English.
AWARDS Graduation Design Excellence Awards 2013, Taiwan. Dream Tour Project Scholarships 2012, Taiwan. Taipei World Design EXPO 2011, Taiwan. Kaleidoscope of Life Photography Competition 2006, Taiwan.
PROFESSIONAL EXPERIENCE Speaker Lecturer Interior Designer
CAADRIA2016 Digital Fabrication Course in TIUST LI & CHU Architecture & Interior Design
2016, Melbourne. 2016, Taiwan. 2015-2016, Taiwan.
Coordinator (IA LAB) Research Assistant Course Assistant
2015 & 2016 Symposium of Taiwan BIM Future 2015-2016, Taiwan. (Keynote: Chuck Eastman) Applied Research on Energy Efficient Building Facade 2015, Taiwan. Building Information Modeling Course in NCKU 2014, Taiwan.
Curator Intern Curator Intern Participating Artist Intern Assistant
Graduationd Design Exhibition Q-LAB Dream Tour in Kansai Janpan Exhibition Horizon & Atmosphere Landscape Co. Taipei World Design EXPO MAG Design Co. Humanistic Education Foundation Building Camp
2013, Taiwan. 2013, Taiwan. 2012, Taiwan. 2012, Taiwan. 2011, Taiwan. 2010, Taiwan. 2009, Taiwan.
PUBLICATION J.Y. Chen, S.C. Huang. J.Y. Chen, S.C. Huang. J.Y. Chen, S.C. Huang. S.C. Huang.
“Applied Research on Energy Efficient Building Facade” , ABRI Ministry of the Interior , 2015. “The Implementation and Evaluation of Innovative Modules in Responsive Building Façade” , Journal of Taoyuan Innovation Vol.35 P.577-606, 2015. “ADAPTIVE BUILDING FACADE OPTIMIZATION: An integrated Green-BIM approach” , Proceedings of the 21st International Conference of the Association for Computer-Aided Architectural Design Research in Asia CAADRIA 2016, P.259–268, 2016. “A BIM Workflow for Responsive Energy-Efficient Facade” , Master's Thesis, National Cheng Kung University, 2016.
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R E S E A RC H & P U B L I C AT I O N
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A BIM Workflow for Responsive Energy-Efficient Façade SUMMARY
This paper explores integration methods for energy modeling of responsive facade design. The main contributions of the paper are: (1) exploring systematic design process with analysis for adaptive components in responsive facade design; (2) developing compliance checking system for green building regulations; (3) developing optimization system for adaptive façade design process and exploring the possibilities for integrating various digital design methods.
INTRODUCTION
In the sustainble design issue, "Responsive Façade" is one used in recent years to the building facade design techniques to achieve energy efficient performance. From 2004, the IEA (International Energy Agency) has started research efforts for AIF (Advanced Integrated Facades), DSF (Double Skin Façades) and RF (Responsive Façade). Responsive facade provides subtle composition and flexible adjustability of façade elements for optimizing the total effect of heat transfer, daylighting, and solar insolation. The BIM-based tools are used in energy simulation today, but it’s not enough for responsive façade. This study is focused on the design method of responsive façade using BIM tool and digital fabrication. Design alternatives of responsive façade components should be studied through the interactive feedback between Virtual and Physical models with integrated tools of BIM, parametric design and sensor devices, and the dynamic element testing included more solid models can be designed as a communication tool.
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LITERATURE REVIEW
From our review and local project survey, to face the complexity of sustainable building façade design, it requires a holistic and integrated approach to deal with the local situations as follows:1. Responsive Facade Design Process based on energy efficient 2.Green Building Regulations Tool for Adaptive Façade 3. Dynamic Element Detail design with Systemic Development. According to the current problems faced by the country, the elaboration of this study core issues as follows: “How to integrate BIM tools induction facade design approach to achieve energy-efficient results under the existing green building regulation framework?” With the modular design method in resposive façade design process we try to response the two question: A. How to help designers evaluate the energy efficiency of responsive facade? B. How to use digital manufacturing tools presented mock-up responsive facade of model element results ?
Envelope Loads Energy Performance
EVc EV
EEV= EV/Evc ≤0.8
Air-Conditioning Loads Lighting Loads
Depth Ratio of Shading Dimensions Geometrical Data
Non-Geometrical Data
ki
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METHODS AND FRAMEWORK
To solve the problems, with the support of Dynamo which links BIM models to various types of analysis tools, this study takes an integrated approach to developing a Green-BIM design platform that provides smart components and interactive virtual and physical design tools to assist the designers easily apply kinetic and complex faรงade components to enhance design process.The implementations of the faรงade design platform include two parts: Responsive Faรงade Design Workflow System Development: Respectively, to explore the relationship between the three phases and three platforms as research methods. In virtual model, the present study using Revit adaptive component built as a prototype model developed design tools, and Dynamo as a support link BIM model analysis tools. In physical model, 3D printing and laser cutting as the digital fabrication tool the detail element and seneor embedded into prototype model. Explore the possibility of virtual and physical interaction. Test Cases and Results: Development Scheme optimization process in design iterations is demonstratd by possible permutations of the two modules. We chose the south-facing glaze curtain of an existing city hall building as the main spot for simulation. In each scheme, whole building energy simulation are analyzed in the Revit by Dynamo connected cloud database and Green building regulation-ENVLOAD.
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Parametric Faรงade Component
Compliance Checking System
Physical Test Platform With Digital Fabrication
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Test Case & Results
DESIGN PROTOTYPES V I RT UA L
A Opening-shutters
P H YSI C A L
Opening
Shading
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VIRTUA L
B Tilting-blinds
PHY SI CAL
Shading
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RESULTS AND DISCUSSION
As shown in Figure 2, we then applied prototype A and B to the same project and simulated them on the EnvLoad Evaluation Platform to compare the EnvLoad values for the two scenarios. The related reference data are acquired from the cloud database (e.g. site IHk), or from the BIM model geometry (e.g. window area Ai and shading coefficient ki) and previously built-in templates (e.g. glazing insolation ni). According to the local regulations, the design results of EnvLoad values should be divided by the baseline value and to get the final results of EEV ratio as a standard for evaluating energy performance. Currently the EEV value should be lower than 0.8. From the simulation results for the above scenarios, we found that Prototype A (the Grill-Brick Style Faรงade) has lower EEV and more stable than Prototype B (the Tilting-Fins Style Faรงade). It means that, in terms of energy performance, controlling the responsive faรงade in the range and turning the shading is more useful than moving them.
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CONCLUSSION The main contributions of the paper are: (1) exploring systematic design process with analysis for adaptive components in responsive facade design; (2) developing compliance checking system for green building regulations; (3) developing optimization system for adaptive faรงade design process and exploring the possibilities for integrating various digital design methods. This study presents different from the previous general parametric building facade design and production methods, when modular responsive facade contains information products early in the design phase could be evaluated, with the initial development of test tools and process framework, the energy-efficient-based responsive facade design process is more complete;Therefore, before entering the project design, integrated the facade components to achieve the average energy efficient standards, in the latter part of the space design can shorten the overall assessment of the time. Accelerate feedback results to assist the designer for selection.
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CAADRIA2016 DEMO VIDEO
Youtube: ‘’ Adaptive Building Facade Optimization:An Integrated Green-BIM Approach ‘’
https://www.youtube.com/watch?v=1hn6tuAJeYY
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2016 CAADRIA, Melbourne, Australia
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AC A D E M I C P RO J E C T S Fishing Village Housing - Staring Sea from Alley Life Campus from Art Museum
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在地透天厝 - 望海巷
Fishing Village Housing - Staring Sea from Alley 「在地生活透天厝」 根據背山面海的基地特性, 及居民的生活習慣與工作行為中, 試圖探討真正適合望海巷的「家」。 ‘Local Life style Housing’ The project try to design a local housing in a site which is in front of moutain and facing the beach. It also has been designed for residents’ hobbies and working behavior.
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SITE
- 望海巷漁港 Fishing Village
WORK
- 捕魚
Fishing
PEOPLE
- 年長者
Elders
BUILDING
- 三合院
Siheyuan
Traditional courtyard houses
Outside Furniture Wall
Tectonic Components WALL A
WALL 1 洗魚 / 儲物的工具牆
洗魚
/回收水 /過濾管
早期紅磚牆
Washing fishes & Storage Wall
+ 現代收納鋼板牆
Washing fishes & Reuse Water System Historical Taiwanese Style Brick Wall + Modern Style Steel Wall
WALL B
WALL 2
晴天
儲物牆 通風道 客廳牆 (室內味道 )
/ 雨天詩意感
傢俱功能 Using Material Design to Create Poetic Wall and Furniture for Residents in Sunny day & Raining day.
Storage Wall inside the houses for Living Room
WALL 3
WALL C
廚房工具牆 通風口 視覺看穿
夏天室內冷卻
Storage Wall outside the houses for Courtyard & Kitchen
菜圃灌溉 青苔形成生態感 This wall is designed by the ecological living system to reduce the heat from the wall, and let residents more comfortable.
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Extending Design for the Exhibition
Transform Architecture / Tectonic / Object Combine with Exhibition
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Space
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Elevation
Wall
2011 IDA Taipei World Design EXPO 利用三道牆表現牆面的裝置設計, 以及透過探討材質構築的意義呈現當地漁民的生活, 並且與展場鏡面反射的特質結合, 提醒觀展者可以反思真正適合當地的透天厝。 This installation is designed by using three wall, and I try to present local fishermen life through the material and tectonic constrution. Through the exhibition’s mirror on the floor, we hope to remind visitors were able to reflect on the real suit local life style housing.
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2011 IDA Taipei World Design EXPO, Taipei, Taiwan.
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師大校園生活美術館
Life Campus from Art Museum
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PROFESSIONAL PROJECTS Interior Design - Dongguang 24 Renovation Design - Rende Inn
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Dongguang 24 - Interior Design
The DONGGUANG 24 is a small & fine space for a couple in Tainan. Because of space limitations of this case, we try to design a Composite Space with living room, kitchen and dining space overall combined into a large open space. Extending the 'using' in space, we create an enlarged visual sense and increase fluency. The original 16 ping of small house becomes a comfortable space for a couple and it also can be a space to feast friend and family.
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Living Core Decorating by a mainly local-design dinner table for owner's working, eating and getting together is become a living core.
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Light food Kitchen Designing the opening-style kitchen to provide sufficient daylight and decorating by some ornamental plants for owner’s cooking and tea time.
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Immerse in the Natural Daylight Open a teak door, there is a restroom like a cave which designed by stone-chiseled tiles and teak ceiling to create the clean and quiet space.
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Rende Inn - Interior Design
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