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171 results on '"Facade engineering"'

3. Digitised engineering knowledge for prefabricated façades

Author

Montali, Jacopo and Overend, Mauro

Subjects
Facade engineering, design automation, knowledge management, knowledge-based engineering, engineer-to-order
Abstract

Façade design is a multidisciplinary activity requiring the balancing of many conflicting design requirements. Very often, however, the designed façade does not respond to these requirement, as relevant design and manufacturing knowledge, normally originating downstream in the design process, is not properly used upstream in the process. The inability to respond to this challenge increases the environmental impact of the construction sector, which is currently covering nearly 40% of the global emissions. Also, improving the stagnant sector's productivity is of paramount importance today, as it is deemed to be nearly as half as that of the manufacturing sector. This research has thus investigated ways to collect, store, represent and digitalise the engineering knowledge that underpins the design of façade products for façades that are better designed. The work has involved a close collaboration with the British general contractor (and façade manufacturer) Laing O'Rourke. The research has explored ways of using design and manufacturing knowledge and it has developed a digital tool and tested its functionalities. In the first part, after a review of the state-of-the-art in knowledge-based approaches in other fields, the digital tool, and relevant methodology, are developed. The tool informs the user about the expected performance and manufacturability of the façade product under analysis. The boundaries of traditional research were also pushed beyond the proof-of-concept by validating the digital tool in both simulated and real-world scenarios. The goal was to understand how people can develop a design solution while being supported by a digital tool. It was found that using such tool increases the user's awareness about the consequences of the his/her choices in less time. In the last part of the research, the tool was used to develop a novel optimisation algorithm, by including considerations about aesthetics and manufacturability, in parallel with the traditional performance-based approach. The application of the algorithm to a case study has shown that it is possible to improve existing solutions in terms of performance, without affecting aesthetic and manufacturability significantly.

Published
2019
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4. Using a Full-Scale Mock-Up of Skylight to Evaluate Its Performance Following Standards Criteria.

Author

Naqash, Muhammad Tayyab, Formisano, Antonio, and Noroozinejad Farsangi, Ehsan

Subjects
*PERFORMANCE standards, *ARCHITECTURAL details, *STEEL tubes, *SANDWICH construction (Materials), *WATER filtration, *RAINWATER, *ALUMINUM, *STRUCTURAL design
Abstract

Rainwater may penetrate through the cladding, enter the wall assembly, and cause damage to the façade components and interior finishes, which are moisture sensitive, most of the time. In the current paper, the performance assessment of a skylight with a full-scale mock-up has been evaluated. The mock-up was erected for an actual project to verify the acceptance criteria for the skylight's technical, functional, and architectural details. The test was conducted at the Aluminum Technology Auxiliary Ind. (ALUTEC) facility in the Industrial Zone, Doha, Qatar. The fabricated full-scale mock-up has a rectangular plane configuration of 6.625 m (length) by 3.315 m (width) that belongs to a skylight measuring 36 m by 18 m. The ASTM E283, ASTM E331, and ASTM E330 standards were followed during the experiment. Air infiltration/exfiltration, static water penetration, structural performance, post-structural static water penetration, and structural proof loading tests were performed in an airtight chamber. After recording the residual displacements, the test findings for all the make-up components, namely steel tubes, glass, and aluminum sandwich panels, were determined and found within acceptable limits. [ABSTRACT FROM AUTHOR]

Published
2022
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5. Facades-as-a-Service: The Role of Technology in the Circular Servitisation of the Building Envelope.

Author

Azcarate-Aguerre, Juan F., Klein, Tillmann, Konstantinou, Thaleia, and Veerman, Martijn

Subjects
BUILDING envelopes, ENGINEERING design, BUILT environment, MANUFACTURING processes
Abstract

Featured Application: The research proposes a strategic path to align future development in façade and façade-integrated technologies with the new economic, legal, and organizational requirements of a more sustainable, circular, and performance-based façade industry. The servitisation of the built environment, through the implementation of product–service systems, is considered a promising business strategy to achieve a circular economy transition. This servitisation faces a number of practical challenges, among them the technological readiness and effective integration and application of existing and emerging products, manufacturing processes, and digital monitoring and management tools. The research builds on targeted literature review, and on a research-through-design approach based on full-scale pilot projects developed in an ongoing feedback loop between researchers, planners, and industry partners representing both the demand and supply sides of the façade industry in the Netherlands. The paper analyses the technical implementation challenges currently preventing the façade industry from adopting performance-based contracts. It then proposes the roles that existing and emerging digital design and engineering technologies, manufacturing processes, and asset management systems can play in the development, implementation, and fulfilment of such contracts. The paper proposes a multi-stakeholder, systemic model for the development and application of façade technologies capable of overcoming many of the technical implementation barriers to the delivery of performance-based contracts for integrated facades. From this it concludes that an effective development of building technologies should strategically align with the solving of economic and contractual challenges such as circularity-readiness, profitability, risk distribution, legal demarcation, performance monitoring, and residual value stewardship. The resulting framework provides a strategic and conceptual basis for the development of circularity-enabling façade technologies, accounting for the diverse and sometimes conflicting interests of the multitude of stakeholders involved throughout a project's lifecycle. The framework aims to support planners, manufacturers, and builders accelerate the circular deep energy renovation of the built environment while also exploring new business opportunities. [ABSTRACT FROM AUTHOR]

Published
2022
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7. Facades-as-a-Service: The Role of Technology in the Circular Servitisation of the Building Envelope

Author

Juan F. Azcarate-Aguerre, Tillmann Klein, Thaleia Konstantinou, and Martijn Veerman

Subjects
façade engineering, circular economy, product–service systems, energy renovation, built environment, performance contracts, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999
Abstract

The servitisation of the built environment, through the implementation of product–service systems, is considered a promising business strategy to achieve a circular economy transition. This servitisation faces a number of practical challenges, among them the technological readiness and effective integration and application of existing and emerging products, manufacturing processes, and digital monitoring and management tools. The research builds on targeted literature review, and on a research-through-design approach based on full-scale pilot projects developed in an ongoing feedback loop between researchers, planners, and industry partners representing both the demand and supply sides of the façade industry in the Netherlands. The paper analyses the technical implementation challenges currently preventing the façade industry from adopting performance-based contracts. It then proposes the roles that existing and emerging digital design and engineering technologies, manufacturing processes, and asset management systems can play in the development, implementation, and fulfilment of such contracts. The paper proposes a multi-stakeholder, systemic model for the development and application of façade technologies capable of overcoming many of the technical implementation barriers to the delivery of performance-based contracts for integrated facades. From this it concludes that an effective development of building technologies should strategically align with the solving of economic and contractual challenges such as circularity-readiness, profitability, risk distribution, legal demarcation, performance monitoring, and residual value stewardship. The resulting framework provides a strategic and conceptual basis for the development of circularity-enabling façade technologies, accounting for the diverse and sometimes conflicting interests of the multitude of stakeholders involved throughout a project’s lifecycle. The framework aims to support planners, manufacturers, and builders accelerate the circular deep energy renovation of the built environment while also exploring new business opportunities.

Published
2022
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8. Feasibility of Circular Bio-based Unitised Facade Systems

Author

Flores Mejia, Katia (author) and Flores Mejia, Katia (author)

Abstract

This thesis project proposes the introduction of bio-based materials in the design of unitised curtain wall façade systems. The work investigates a circular bio-based unitised façade design to understand its feasibility regarding thermal, technical, and environmental performance. The research is divided in four phases, including the material, system design, performance, and environmental assessment level. The material phase serves as a literature review to study the current technologies and available bioproducts in the market to make an informed selection. Once the materials are selected, the system design phase starts with an emphasis on dynamic construction and design for disassembly features. Overall, this study aims to minimize reliance on non-renewable resources such as aluminium in façade systems. Therefore, it is important to analyse the thermal and hygrothermal behaviour of the materials to integrate design characteristics that can improve their performance while protecting their structural integrity. After the feasibility of the design concepts gets validated, a comparative environmental assessment against standard aluminium façade systems is conducted to quantify the sustainability impact of the proposed system. Ultimately, the research project proposes a detailed exploration into the feasibility of circular, bio- based unitised façade systems. Therefore, the introduction of bio-based systems that support sustainable methodologies and practices from the material, design, and system level is demonstrated., Civil Engineering

Published
2023

9. Performative design and quality of architecture. Façade Engineering for IBM Headquarters in Rome

Author

Gerard Hausladen, Francesco Antinori, Michele Conteduca, Elisabeth Endres, and Daniele Santucci

Subjects
Façade Engineering, Transparent Shell, Economic Sustainability, Performative Design, Integrated Design, Aesthetics of cities. City planning and beautifying, NA9000-9428, Architectural drawing and design, NA2695-2793
Abstract

The new IBM Headquarters represents an applied research experience carried out in collaboration between Sapienza’s PDTA Department and Technische Universität München. The technological culture has played a key role in the innovation of the traditional integrated design process, providing know-how necessary for the development of technical-performance solutions, thus ensuring objectives in line with current international standards. The consulting activity on Facade Engineering with energy-environmental studies and the detailed design of the building’s façade features has allowed to combine performance targets and architectural quality, respect scheduled timing and budget, helping to attract the investments of a multinational such as IBM.

Published
2019
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10. Performative design e qualità dell'architettura. Facade Engineering dell'IBM Headquarters a Roma.

Author

Hausladen, Gerard, Antinori, Francesco, Conteduca, Michele, Endres, Elisabeth, and Santucci, Daniele

Subjects
TIME management, SCHEDULING, SUSTAINABLE development, STANDARDS, FACADES, MULTIPURPOSE buildings
Abstract

Copyright of TECHNE: Journal of Technology for Architecture & Environment is the property of Firenze University Press and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2019
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11. Shape grammars as a reverse engineering method for the morphogenesis of architectural façade design.

Author

Eilouti, Buthayna

Abstract

The field of shape grammars spans 47 years, but its potential in the practice and education of art, architecture, and engineering remains far from being utilized. Similarly, while reverse engineering in some engineering disciplines is well-established, its implementation in architectural design remains under-represented. By combining the two domains, this paper develops a novel method that merges the power of shape grammars as a parsing tool in reverse engineering to decode the morphogenesis of visual compositions in architectural design. The merged power is demonstrated by decoding the formal language of a façade design of a case study, in which seemingly few simple rules can derive surprisingly complex compositions. The rules of the language can then be used to reconstruct parts of the case façade. Most shape grammars in the architectural literature are applied on formal historical precedents, but the subject of morphological analysis in this paper is contemporary and has a style that exhibits non-orthogonal configurations, which initially appear far from being standardized or subjected to regulatory tectonic rules. The façade derivation grammar is explained and re-synthesized in various computations to explore emergent articulations that display its predictive, synthetic, and generative powers in addition to typical analytic ones. [ABSTRACT FROM AUTHOR]

Published
2019
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12. The Adaptive Solar Facade: From concept to prototypes

Author

Zoltan Nagy, Bratislav Svetozarevic, Prageeth Jayathissa, Moritz Begle, Johannes Hofer, Gearoid Lydon, Anja Willmann, and Arno Schlueter

Subjects
Dynamic facade, BIPV, Facade engineering, Photovoltaics, Responsive architecture, Architecture, NA1-9428
Abstract

The Adaptive Solar Facade (ASF) is a modular, highly integrated dynamic building facade.The energetic behavior as well as the architectural expression of the facade can be controlled with high spatio-temporal resolution through individually addressable modules. We present the general design process, the current mechanical design, and simulation results on photovoltaic power production and building energy consumption. We introduce the controller concept and show results on solar tracking as well as user interaction. Lastly, we present our current and planned prototypes.

Published
2016
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14. Physiomimetic Façade Design: Systematics for a function-oriented transfer of biological principles to ther-mally-adaptive façade design concepts

Author

Knaack, U., Gosztonyi, Susanne, Knaack, U., and Gosztonyi, Susanne

Abstract

Adaptive façades are designed to actively regulate the exchange of material and energy flows and thus improve the balance between comfort and energy consumption. However, their technical complexity leads to higher development efforts, maintenance and costs, and ultimately fewer implementations. Embedded adaptive functions could be an opportunity to reduce these drawbacks. If embedded adaptivity is to work within a design, the particularities of geometry and material arrangements must be considered. Nature offers fascinating models for this approach, which frames the objectives of this doctoral dissertation. The dissertation examines both adaptive façades and biology criteria that support a function-oriented transfer of thermo-adaptive principles in the early design stage. The research work discusses whether the technical complexity can be reduced by biomimetic designs and which role geometric design strategies play for thermo-adaptive processes. The research work is divided into three phases, following the top-down process in the discipline biomimetics, supplemented by methods from product design and semantic databases. The first phase is dedicated to the analysis of the contextual framework and criteria of façades aiming at thermal adaptation. Further, transfer systematics are developed that guide the analysis and selection process. In the second phase, analogies in biology are collected that appear suitable. Selected examples are examined to identify and systematically describe their functional principle. Two exemplary descriptions herald the third phase, in which functional façade models are created and evaluated. The result of this research work provides a conceptual approach to generate function-imitating biomimetic façade designs, so-called physio-mimetic façade designs., + ID der Publikation: hslu_105200 + Art des Beitrages: Dissertation + Name der Universität / Institution inkl. Ort: Delft University of Technology + Land der Universität / Institution: Netherlands + Sprache: Englisch + Letzte Aktualisierung: 2024-07-15 14:03:37

Published
2022

15. Façades-as-a-Service: The Role of Technology in the Circular Servitisation of the Building Envelope

Author

Azcarate Aguerre, J.F. (author), Klein, T. (author), Konstantinou, T. (author), Veerman, Martijn (author), Azcarate Aguerre, J.F. (author), Klein, T. (author), Konstantinou, T. (author), and Veerman, Martijn (author)

Abstract

The servitisation of the built environment, through the implementation of product–service systems, is considered a promising business strategy to achieve a circular economy transition. This servitisation faces a number of practical challenges, among them the technological readiness and effective integration and application of existing and emerging products, manufacturing processes, and digital monitoring and management tools. The research builds on targeted literature review, and on a research-through-design approach based on full-scale pilot projects developed in an ongoing feedback loop between researchers, planners, and industry partners representing both the demand and supply sides of the façade industry in the Netherlands. The paper analyses the technical implementation challenges currently preventing the façade industry from adopting performance-based contracts. It then proposes the roles that existing and emerging digital design and engineering technologies, manufacturing processes, and asset management systems can play in the development, implementation, and fulfilment of such contracts. The paper proposes a multi-stakeholder, systemic model for the development and application of façade technologies capable of overcoming many of the technical implementation barriers to the delivery of performance-based contracts for integrated facades. From this it concludes that an effective development of building technologies should strategically align with the solving of economic and contractual challenges such as circularity-readiness, profitability, risk distribution, legal demarcation, performance monitoring, and residual value stewardship. The resulting framework provides a strategic and conceptual basis for the development of circularity-enabling façade technologies, accounting for the diverse and sometimes conflicting interests of the multitude of stakeholders involved throughout a project’s lifecycle. The framework aims to support planners, manufacturers, and buil, Building Product Innovation

Published
2022
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16. Additive Manufacturing for Future Facades

Author

Holger Strauss and Ulrich Knaack

Subjects
Architecture, facade engineering, 3D printing, Additive Manufacturing, bespoke building envelopes, future facades, NA1-9428, Building construction, TH1-9745
Abstract

The basic principle of ‘3D Printing’ is the layer wise production of real parts from virtual data – be it with laser, with power glue, electron beam or UV light processing (Hopkinson, Hague, & Dickens, 2006). The professional application of ‘3D Printing’ is ‘Additive Manufacturing’ (AM) and this opens a fascinating new world of engineering. It offers a selection of reliable building construction materials – done in concrete, aluminium, steel, high performance plastics or glass. (Woodcock, 2011) No matter what applications can be found: to ‘design for function’ rather to ‘design for production’ turns our way of engineering of the last century upside down. As a result, AM opens the outlook to applications in our (built) future in combination with the available technologies of today. (Strauß, 2013) The tool-less production with AM allows for new shapes and functional parts in small batch sizes – down to batch size one. The parts performance can be re-interpreted based on the demands within the system, not based on the limitations of conventional manufacturing. AM offers new ways of materializing the physical part around its function. Advancements can for example be achieved in the semi-finished goods: fittings with less, but higher integrated parts could offer a better performance with lower material consumption. Solving the most critical part of a free-form structure and allowing for a smart combination with the approved standards has a great potential, as well. It leads toward customized and enhanced performance. This paper discusses the possible changes and influences, those emerging technologies have on the development of building envelopes. To achieve today’s demands of future envelopes, we have to find new solutions - Additive Manufacturing is one possible way to do so.

Published
2016
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17. Large deflections in thin rectangular plates subjected to uniform load: Pitfalls in the application of analytical methods

Author

Paul Shepherd, Mark Evernden, and Adam D. Lee

Subjects
Cladding, Computer science, 0211 other engineering and technologies, Magnitude (mathematics), 020101 civil engineering, 02 engineering and technology, Measure (mathematics), Displacement (vector), 0201 civil engineering, 021105 building & construction, Architecture, Sheet metal, Large deflection, von Kármán plate, Safety, Risk, Reliability and Quality, Civil and Structural Engineering, business.industry, Building and Construction, Structural engineering, Cladding (fiber optics), Lateral movement, Range (mathematics), visual_art, Plate theory, visual_art.visual_art_medium, business, Facade engineering, Föppl membrane
Abstract

Thin, rectangular structural plates are used in a wide range of applications, including architectural sheet metal cladding, in which the magnitude of lateral deflection is much larger the material’s thickness. This study compares new experimental data with established algebraic models and assesses the influence of practicalities such as geometric tolerances and partial fixity of connections. Errors and anomalies are identified in existing analytical formulas. It is also shown that standardised test methods measure only part of an imperfectly-flat plate’s lateral movement, and that the actual displacement of plates in real structures can be several times greater than that inferred by a naive application of non-linear plate theory. Findings are presented as set of guidelines to help practising engineers create economical structures that will not deflect excessively when load is applied.

Published
2020
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18. The Adaptive Solar Facade: From concept to prototypes.

Author

Nagy, Zoltan, Svetozarevic, Bratislav, Jayathissa, Prageeth, Begle, Moritz, Hofer, Johannes, Lydon, Gearoid, Willmann, Anja, and Schlueter, Arno

Abstract

The Adaptive Solar Facade (ASF) is a modular, highly integrated dynamic building facade.The energetic behavior as well as the architectural expression of the facade can be controlled with high spatio-temporal resolution through individually addressable modules. We present the general design process, the current mechanical design, and simulation results on photovoltaic power production and building energy consumption. We introduce the controller concept and show results on solar tracking as well as user interaction. Lastly, we present our current and planned prototypes. [ABSTRACT FROM AUTHOR]

Published
2016
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19. A REVIEW OF RECENT TECHNIQUES IN FACADE ENGINEERING

Author

SWARNIMA REWATKAR and SWARNIMA REWATKAR

Abstract

Facade Engineering is the art and science of resolving aesthetic, environmental and structural issues to achieve the effective enclosure of buildings. Specialist companies are dedicated to this niche sector of the building industry and engineers operate within technical divisions of facade manufacturing companies. The façade acts as the filter between the climate outside and the conditioned space inside.

Published
2021

20. :envihab - Deutsches Zentrum für Luft- und Raumfahrt e.V., Institut für Luft- und Raumfahrtmedizin.

Author

Tückmantel, Peter and Schleuchardt, Stefan

Subjects
*RESEARCH institutes, *CONSTRUCTION materials, *GLASS structure, *GOVERNMENT laboratories, *LABORATORIES
Abstract

Bei der in Teilen öffentlich zugänglichen, begeh- und erfahrbaren medizinischen Großforschungsanlage :envihab wurde in vorbildlicher Weise Glas eingesetzt. Das fein ausgewogene Verhältnis des transparenten Baustoffes zur massiven Hülle stellt einen anregenden Kontrast her. Das Glas erscheint als integraler Bestandteil und im besten Sinne entmaterialisiert, leicht und diaphan wie die Haut einer Zelle. Glas wird, dies ist so einfach wie selbstverständlich, eingesetzt, da es DER transparente Baustoff ist, und kein anderer Stoff so wie dieser Licht transmittiert. Neben der Schutzfunktion muss jedes Gebäude Licht, Luft und sonstige Ver- und Entsorgungsdienste etwa über die Haustechnik bereitstellen, für :envihab als Forschungslabor gilt dies im Besonderen. :envihab - German Aerospace Center, Institute of Aerospace Medicine. In the partially publicly available, accessible and tangible large-scale medical research facility :envihab glass was used in an exemplary manner. The well-balanced ratio of the transparent building material to the massive shell produces a stimulating contrast. The glass appears as an integral part and dematerialized in the best sense, light and diaphanous like the skin of a cell. As easy as a matter of course glass is used, because it is THE transparent building material. No other material offers as much transparency as glass. In addition to the protective function each building must provide light, air and other supply and disposal services through general building services for instance. This applies in particular to :envihab as a research laboratory. [ABSTRACT FROM AUTHOR]

Published
2015
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21. POWERSKIN CONFERENCE PROCEEDINGS

Author

Ulrich Knaack, Jens Schneider, and Thomas Auer

Subjects
Architectural engineering, Engineering, Cultural identity, business.industry, Facade, Facade engineering, Curtain wall, Architecture, business, Building envelope, Visual arts
Abstract

The building skin has evolved enormously over the past decades. The energy performance and environmental quality of both the interior and exterior of buildings are primarily determined by the building envelope. The façade has experienced a change in its role as an adaptive climate control system that leverages the synergies between form, material, mechanical and energy systems towards an architectural integration of energy generation. The PowerSKIN Conference aims to address the role of building skins to accomplish a carbonneutral building stock. The focus of the PowerSKIN issue 2021 deals with the question of whether simplicity and robustness stay in contradiction to good performance of buildings skins or whether they even complement each other: simplicity vs performance? As an international scientific event - usually held at the BAU trade fair in Munich - the PowerSKIN Conference builds a bridge between science and practice, between research and construction, and between the latest developments and innovations for the façade of the future. Topics such as building operation, embodied energy, energy generation and storage in the context of the three conference sessions envelope, energy and environment are considered: – Envelope: The building envelope as an interface for the interaction between indoor and outdoor environment. This topic is focused on function, technical development and material properties. – Energy: New concepts, accomplished projects, and visions for the interaction between building structure, envelope and energy technologies. – Environment: Façades or elements of façades, which aim to provide highly comfortable surroundings where environmental control strategies as well as energy generation and/or storage are an integrated part of an active skin. The Technical University of Munich, TU Darmstadt, and TU Delft are signing responsible for the organisation of the conference. It is the third event of a biennial series: April 9th 2021, architects, engineers, and scientists present their latest developments and research projects for public discussion and reflection. For the first time, the conference will be a virtual event. On the one hand, this is a pity, as conferences are also about meeting people and social interaction; on the other hand, it offers the possibility that we can reach more people who connect from all over the world.

Published
2021
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22. Louvre Lens - Einfachheit und Komplexität.

Author

Pfanner, Daniel, Grohmann, Manfred, and Bollinger, Klaus

Subjects
*MUSEUMS, *AESTHETICS research, *FACADES, *GLAZING (Ceramics), *MINIMAL architecture
Abstract

Die Gebäudehüllen des Louvre Lens in Nordfrankreich vereinen nicht nur höchste gestalterische und materielle Anforderungen, sondern reagieren auch auf die strukturellen und bauphysikalischen Besonderheiten der schlanken, eingeschossigen Museumsbauten. Insbesondere die hohen Herausforderungen in der Planung der verglasten Gebäudehüllen werden beschrieben und die während des siebenjährigen Prozesses entwickelten Lösungsansätze erläutert. Louvre Lens - Simplicity and Complexity. The building envelopes of the Louvre museum in Lens in Northern France combine highest aesthetic and material requirements. They respond to the structural and physical characteristics of the slender single-storey buildings. The façade engineering of the envelopes will be described with regard to the high requirements and to the seven year process from scratch to inauguration, with main focus on the glazed parts. [ABSTRACT FROM AUTHOR]

Published
2014
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23. Projektbericht: Leichte Vorsatzschale aus geklebtem Acrylglas an der Vitra VSL Factory.

Author

Michel, Matthias and Techen, Holger

Abstract

Acrylglas ist in der industrialisierten Welt allgegenwärtig, als Baumaterial ist es Architekten, Fassadenplanern und Ingenieuren dennoch fremd. Die Autoren konnten in den Jahren des digitalen Aufbruchs immer wieder unkonventionelle Glas- und Acrylglas-Projekte auf der Ingenieurseite betreuen. Dieser Aufsatz soll anhand des jüngsten Projektes, der Fassade an der Vitra VSL Factory von SANAA Architekten aufzeigen, welche Potenziale das Material insbesondere im Zusammenwirken mit einer innovativen Klebetechnik hat. Project report: lightweight bonded Acrylic facing at the Vitra VSL Factory. In the industrialized world, acrylic glass is omnipresent, however as material for building components it is rarely known by architects and engineers. During the years of the digital revolution, the authors could gather experience in engineering of numerous free form glass and acrylic facades and envelopes. By presentation of their work for the most recent project, the Vitra VSL Factory façade by SANAA Architects, the authors show the potential as well as the constraints of the work with silicone-bonded acrylic glass. [ABSTRACT FROM AUTHOR]

Published
2013
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24. A review on energy conscious designs of building façades in hot and humid climates: Lessons for (and from) Kuala Lumpur and Darwin

Author

Mirza Humayun Baig, Muhammad Azzam Ismail, Norhaslina Hassan, Safiah Yusmah Yusoff, Ali GhaffarianHoseini, Edward Halawa, Jeremy Trombley, and Amirhosein Ghaffarianhoseini

Subjects
Sustainable development, Engineering, Architectural engineering, Renewable Energy, Sustainability and the Environment, business.industry, 020209 energy, Facade engineering, 02 engineering and technology, Building design, Building engineering physics, Building biology, Sick building syndrome, 0202 electrical engineering, electronic engineering, information engineering, Facade, business, Efficient energy use
Abstract

Emerging environmental threats originating from rapid urbanization and the associated energy shortages, negative impacts of climate change, and sick building syndromes have led to government sectors and various construction-based professional bodies recognizing the need for developing effective sustainable building design strategies. As a result, growing interest in the development of effective solutions for enhancement of the sustainable energy performance of buildings has been observed in recent years. Along this line, building envelopes that separate the indoor from the outdoor environments, and in particular building facades, play a substantial role for energy saving in buildings. Nevertheless, this study argues that there is a lack of a systematic and comprehensive analysis of the available literature regarding the energy and thermal performance of building facades based on the various possible design and technical configurations, especially in hot and humid climates. Important decisions should be made by architects and engineers during the early design stages of buildings with viewpoints to the ultimate impacts of building physics on the overall energy performance and indoor comfort conditions of buildings. With such a research gap in existing literature, in these early stages many key facade attributes may be overlooked. Hence, this study attempts to develop a state-of-the-art analysis of the existing literature about the circumstances of optimizing the performance of building facades, particularly in hot and humid climates. Likewise, the study extracts practical lessons learned from AEC industry and demonstrates the current status of utilizing energy efficient building facades in recent construction developments in Malaysia (Kuala Lumpur) and Australia (Darwin). Finally, the study draws attention to the emerging innovative solutions for the design of building facades towards improving the energy efficiency of building sector and contributing to the sustainable development of cities.

Published
2018
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26. Performative design and quality of architecture. Façade Engineering for IBM Headquarters in Rome

Author

Hausladen, Gerard, Antinori, Francesco, Conteduca, Michele, Endres, Elisabeth, and Santucci, Daniele

Subjects
Economic Sustainability, Integrated Design, Performative Design, lcsh:Architecture, Façade Engineering, Transparent Shell, lcsh:TH1-9745, lcsh:NA1-9428, lcsh:Building construction
Abstract

The new IBM Headquarters represents an applied research experience carried out in collaboration between Sapienza’s PDTA Department and Technische Universität München. The technological culture has played a key role in the innovation of the traditional integrated design process, providing know-how necessary for the development of technical-performance solutions, thus ensuring objectives in line with current international standards. The consulting activity on Facade Engineering with energy-environmental studies and the detailed design of the building’s façade features has allowed to combine performance targets and architectural quality, respect scheduled timing and budget, helping to attract the investments of a multinational such as IBM., TECHNE - Journal of Technology for Architecture and Environment, TECHNE 18 (2019): Detailed Design

Published
2019

27. Embedding Passive Intelligence into Building Envelopes: A Review of the State-of-the-art in Integrated Photovoltaic Shading Devices

Author

Yahya Ibraheem, Poorang Piroozfar, and Eric R.P. Farr

Subjects
Statement (computer science), Integrated design, Architectural engineering, Engineering, business.industry, 020209 energy, Photovoltaic system, 0211 other engineering and technologies, Facade engineering, 02 engineering and technology, School of thought, Energy(all), Systems theory, 021105 building & construction, 0202 electrical engineering, electronic engineering, information engineering, Facade, Architecture, business
Abstract

Facades represent both a physical barrier between inside and out, and a phenomenological medium to manifest architecture in terms of style, impression, school of thought or personal statement of their designers. With recent advancement in technology, facades are presenting themselves more and more as a canvas to put the idea of integrated design into practice and that is where the idea of Integrated Facade System (IFS), in general, and photovoltaic (PV) integrated shading devices, in particular, are probably born. This paper sets out to review the-state-of-the-art literature on integrated PV shading devices and their application to highly and fully glazed facades with an aim to investigate the influential factors, parameters and strategies as well as assessment methods and indicators for measuring energy performance of buildings where such technologies are used, by means of systems theory approach. 49 papers were found and reviewed for this study and some unexpected outcomes were revealed. The results indicate that most of the research is about how calibration of the parameters influences the performance of the system. It also reveals that there are very few studies on the PV integrated shading devices where a holistic approach has been used for system evaluation which take comprehensive account of all influential factors. Based on the findings of this paper, it is advisable that there is a need for more in-depth study of system configurations under the specific circumstances which are highlighted in this paper.

Published
2017
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28. Dynamic Facades: Environmental Control Systems for Sustainable Design

Author

Riham Nady

Subjects
Architectural engineering, Engineering, business.industry, media_common.quotation_subject, Environmental control system, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Thermal comfort, TJ807-830, Facade engineering, sustainable design, environmental control, Renewable energy sources, Sustainable design, Facade, Quality (business), dynamic facades, business, General Economics, Econometrics and Finance, Implementation, energy efficiency, Efficient energy use, media_common
Abstract

Façades are the most strategic and visible part of the building which leads to an improvement in appearance and environmental performances in buildings. Facades play a significant role in the quality of a building. It forms the barrier between the internal space and the outside climate. This means that the façade is the medium through which the interaction takes place between the activities, inside and outside. The image of a building, and therefore for the users, is reflected through the design of the façade.In recent practices, architects and engineers are strategically designing and installing dynamic facades not only for their aesthetic values, but also for improving the buildings’ energy performance. The high integration of these strategies for dynamic facades increases their durability and suitability, with current building demands, which targets for energy efficiency and thermal comfort level. In the meantime, recent studies show that the majority of people spend up to 90% of their time indoors especially in hot climates. This trend has had a high impact on the requirements of the indoor environment, consequently turning the buildings into complex devices that ensure the wellbeing of the people who use them. Therefore, users are starting to look for new products for the façade design that comply with the requirements of energy. This poses an important question, is there anything to be done to this specific part of the building in order to positively influence the overall energy need of the building?The paper will discuss the concept and the importance of dynamic facades according to their design and types, implementations, current challenges and climate impacts. It will highlight the history of these facades and the essential parameters which make the building sustainable through its facades. Moreover, the paper will analyze two examples of buildings with dynamic facades with automated control systems and its effect on the building environment. At the end, the paper tries to demonstrate if these facade systems and strategies could be applicable on the buildings in Egypt.Finally, the paper aims at integrating the dynamic facades in buildings as an environmental control system to achieve a sustainable design to reach good energy performance in buildings.

Published
2017

29. Methodology for service life prediction of architectural concrete facades

Author

Jorge de Brito, Maria Inês Serralheiro, and Ana Luísa Silva

Subjects
Engineering, Architectural engineering, business.industry, 0211 other engineering and technologies, 020101 civil engineering, Facade engineering, 02 engineering and technology, Building and Construction, Durability, 0201 civil engineering, 021105 building & construction, Service life, General Materials Science, Facade, business, Civil and Structural Engineering
Abstract

In this study, a methodology for the service life prediction of architectural concrete facades is proposed, following a research line previously developed for other types of claddings, to evaluate their durability. The methodology developed is based on the collection of data in visual inspections. In this study, 174 facades were analysed, during the fieldwork phase, through a survey of the different degradation phenomena. This information is used to define degradation curves, which graphically express the loss of performance of architectural concrete facades over time, evaluating the influence of the degradation agents, allowing estimating a reference service life for this type of coating. The model proposed in this study leads to acceptable and consistent results, adequately translating the degradation observed in reality. However, for some characteristics of architectural concrete facades, it is not possible to obtain unequivocal conclusions, which reveals the high susceptibility of these coatings to the aggressive environmental agents, e.g. sea salts, which act simultaneously on the facade, hindering the determination of the separate influence of these characteristics on the degradation found. This study intends to give a contribution to the service life prediction of exterior facades, allowing defining rational maintenance plans and reducing the costs associated to the buildings refurbishment during their life cycle.

Published
2017
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30. Ventilated Facades: Requirements and Specifications Across Europe

Author

Dimitrios Bikas, Karolos-Nikolaos Kontoleon, Katerina Tsikaloudaki, Stella Tsoka, Dimitra Tsirigoti, and Christina Giarma

Subjects
Architectural engineering, Engineering, business.industry, 020209 energy, Facade engineering, 02 engineering and technology, Investment (macroeconomics), Intervention (law), Incentive, 11. Sustainability, 0202 electrical engineering, electronic engineering, information engineering, General Earth and Planetary Sciences, Facade, Element (criminal law), business, Urbanism, General Environmental Science, Efficient energy use
Abstract

The paper presents the ventilated facades as an intervention for efficient energy upgrade of new and, mainly, existing buildings. It focuses on the requirements that this specific building element should fulfill, with regard to legal, technical, social and financial aspects. More specifically, legal aspects concern mainly the regulations that determine the element's behaviour with respect to the hygrothermal, energy, sound and fire performance, as well as other legal restrictions (i.e. urbanism/planning rules or listed buildings). The technical aspects involve structural issues, architectural concerns and aesthetics, as well as functional matters. Finally, the social aspects refer to the acceptance of the element by building users and architects/engineers, while the financial aspects interrelate the ownership with the economic incentives and the investment feasibility. All the above are presented and discussed in the paper in order to highlight the applicability of ventilated facade systems in residential buildings.

Published
2017
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31. Tecnologia e Sostenibilità

Author

Cangelli, Eliana and Hausladen, Gerard

Subjects
facade engineering, office architecture, environmental design
Published
2019

32. Bioclimatic Adaptation of Typical Houses in Kampong’s Surabaya

Author

Agung Murti Nugroho, Antariksa Antariksa, Amin Setyo Leksono, and Failasuf Herman Hendra

Subjects
Architectural engineering, Middle class, business.industry, media_common.quotation_subject, Facade engineering, Design strategy, Adaptability, Urban planning, Vernacular architecture, Architecture, Adaptation (computer science), business, media_common, Efficient energy use
Abstract

Architecture of an ancient house in Kampong ’s Surabaya is one of the folk architecture creations in urban areas that grow and follow dynamics of urban development. In some of the city areas, this architecture is still sustainable for living space of city residents, especially for lower and middle class. Kampong as city villages has a high adaptability to development within the city so that it can adjust to future conditions efficiently. Cultures living in kampong require an appropriate strategy in associating with various limitations. However, limitation does not make a typical house in kampong uncomfortable and unlivable. Bioclimatic adaptation can be one of the strategies in development of typical ancient houses in kampong. It seems that typical ancient house in Surabaya City is influenced by tradition and style of Javanese, Colonial and Modern Architecture. Bioclimatic strategy is a design approach that considers the relationship of architecture to climate, biology, technology, in order to obtain comfort and energy efficiency. The form and performance of ancient house architecture in Surabaya City with a bioclimatic approach with occupant spatial interaction is an interesting topic for this study . This study is a descriptive research that using field studies. A method of description to explain the interaction between the building and its occupant that creates architecture of residential houses and its transformation. Bioclimatic adaptation as a design strategy allows a unique form architecture , climate responsive and environmentally friendly . Facade engineering and building envelopes, eco-friendly building materials, vegetation and water elements, saving energy with smart technologies.

Published
2018
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33. Design-und-Build-Projekt: Planung und Bau einer Messwarte mit Laborgebäude

Author

Ingo Giesa, Christiane Brendel, André Dürr, and Robert Borsutzky

Subjects
Engineering, business.industry, Laboratory design, Business administration, Facade engineering, Architectural plan, Building and Construction, business, Reinforced concrete, Building engineering physics, Civil and Structural Engineering
Abstract

Design und Build-Vergaben sind fur Bauherren insbesondere dann interessant, wenn kurze Ausfuhrungsfristen fur die Fertigstellung und Inbetriebnahme von Gebauden realisiert werden mussen und die Bauvorhaben einen erhohten Komplexitatsgrad aufweisen. Unter diesen Voraussetzungen entscheiden sich Bauherren des Ofteren dafur, getrennte Planungs-, Vergabe- und Ausfuhrungsablaufe mit den erforderlichen Schnittstellenkoordinationen aus Effizienzgrunden in einem Paket zu vergeben. Beim Neubau einer dreistockigen Messwarte mit angeschlossenen Laborgebaude fur eine neue Produktionsanlage von Toluoldiisocyanat (TDI) am Standort Ludwigshafen hat die BASF SE daher die HOCHTIEF Building GmbH mit einem Design und Build-Projekt beauftragt. Die Planung wurde dabei federfuhrend durch die Abteilung Consult IKS Energy der HOCHTIEF Engineering GmbH am Standort Frankfurt durchgefuhrt. Die Planung umfasste dabei teilweise die Entwurfs- und Genehmigungsplanung sowie die vollstandige Ausfuhrungsplanung fur alle bautechnisch erforderlichen Planungsgewerke, angefangen von der Objektplanung uber die Tragwerksplanung und Fassadenplanung bis hin zu bauphysikalischen Nachweisen und der TGA- und Laborplanung. Daruber hinaus musste der auf einer Pfahlgrundung in Massivbauweise errichtete Gebaudekomplex druckwellenfest ausgelegt werden. Bei der Gebaudeauslegung und Planung waren fur den Notfall zusatzlich Anforderungen zur Gasdichtheit inklusive einer gebaudeinternen Atemluftversorgung zu berucksichtigen. Design-and-Build Project: Design and construction of a control room with laboratory Design and build contracts are of particular interest for clients if tight schedule requirements for the completion and commissioning of buildings have to be considered and the projects have a high level of complexity. With these preconditions clients rather decide to award separate planning, procurement and construction processes with all necessary interface coordination to one contractor for reasons of efficiency. BASF SE has awarded a design and build contract to HOCHTIEF Building GmbH for a three-storey control room building with laboratory for a new production plant of toluoldiisocyanat (TDI) at the main BASF site in Ludwighafen, Germany. The planning was performed by the department Consult IKS Energy of the HOCHTIEF Engineering GmbH in Frankfurt. The scope of planning included partially the design engineering and the approval planning as well as the full detail planning for all disciplines (architectural planning, structural and facade engineering, building physics, HVAC engineering and laboratory planning). Furthermore, the reinforced concrete structure built on a pile foundation had to be designed blast wave resistant. In addition the requirement for gas tightness had to be considered in the building design, including the execution of an internal air supply in the case of emergency.

Published
2016
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34. Structural Membranes Used in Modern Building Facades

Author

Christoph Paech

Subjects
Architectural engineering, Engineering, business.industry, 020209 energy, ETFE, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, 020101 civil engineering, Facade engineering, 02 engineering and technology, General Medicine, 0201 civil engineering, Variety (cybernetics), mesh membrane, ECTFE, 0202 electrical engineering, electronic engineering, information engineering, Facade, façade, Architecture, business, Check List, lightweight, shading, Engineering(all)
Abstract

Technology driven materials, designs and construction techniques play a major role in state of the art building facades. Textile membranes or foils are used more and more often in facades applications becoming an integral part of modern architecture. Today's diversity in lightweight facade options available is one of the key facts for its worldwide success. Membrane facades offer immeasurable opportunities for architectural expression, with free-form and complex geometries being structurally feasible and economically attractive. The paper evaluates general demands on a facade system that can be used as a fundamental check list for the designer if membranes are a possible option for the facade system. Furthermore the paper presents and discusses material and system options, properties but also limits of membrane facades. The presented case studies show the variety of solutions including the typical material combinations. The examples cover all common materials and methods, including ETFE, Glass-PTFE, PVC Polyester, Glass-PTFE mesh as well as multi-layer insulated systems.

Published
2016
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35. Barriers to Implement Integrated Prefabricated Facade Development in A Traditional Procurement Context in China: A Case Study

Author

Li Shan

Subjects
Architectural engineering, Engineering, Scope (project management), business.industry, Process (engineering), 020209 energy, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Facade engineering, Context (language use), 02 engineering and technology, General Medicine, integrated delivery, 010501 environmental sciences, prefabricated façade development in China, 01 natural sciences, Prefabrication, Procurement, Work (electrical), 0202 electrical engineering, electronic engineering, information engineering, Facade, business, Engineering(all), 0105 earth and related environmental sciences
Abstract

China promotes prefabrication technology in facade industry, which encourages the utilization of prefabricated facade system. Prefabricated facade system needs more integration, which can be achieved through reorganizing the facade development process. Theoretically, integrated principles would be helpful to reorganize the process in achieving integrations. However, in implementation, Chinese facade professionals face barriers, due to current delivery practice and traditional procurement context. The purpose of this paper is to present a case study on the attempt to reorganize facade development process to enjoy the benefits of integration in a traditional Design-Bid-Built (DBB) commercial building project, in China. The scope of the paper covers: i) the current facade development process, and the problems faced by facade subcontractor, ii) the constructive facade development process inspired by integrated delivery principles, and iii) the barriers to implement new delivery process. It was found that the benefits of the integration may not be completed realized on facade subcontractor side due to some task-related barriers, contract-related barriers, and people-related barriers. Suggestions for those who are working or will work in Chinese facade industry are provided.

Published
2016
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36. Smart facades for non-residential buildings: an assessment

Author

K. Panopoulos and Agis M. Papadopoulos

Subjects
Engineering, Architectural engineering, Building science, Zero-energy building, business.industry, 020209 energy, 0202 electrical engineering, electronic engineering, information engineering, Facade, Facade engineering, 02 engineering and technology, Building and Construction, Architectural technology, business
Abstract

The aim of this paper is to assess the state of the art of the facade building technology, in order to investigate the possibility of future retrofits achieving nearly ‘Zero-Energy Building' in exi...

Published
2015
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38. Façade System for Existing Office Buildings in Copenhagen

Author

Loay Akram Hannoudi, Jørgen Erik Christensen, and Michael Lauring

Subjects
Engineering, Architectural engineering, business.industry, Facade renovation, Facade engineering, Energy consumption, Civil engineering, Indoor climate, Energy efficiency, Energy(all), Sustainable solutions, Facade, Curtain wall, business, Overheating (electricity), Efficient energy use
Abstract

This study investigates solutions for facade renovation of general office buildings built between 1960 and 1980 in the Copenhagen Municipality. 44 buildings are used for the study. They share common structural and construction principles like the use of beams and columns and prefabricated elements. The problems that face these buildings are a high number of overheating hours and high heating consumption. Four strategies are tested for the renovation: external re-insulation, double-skin facade (existing inner facade), double-skin facade (new inner facade) and curtain wall. External re-insulation and curtain wall provide the best results for reducing the energy consumption for heating.

Published
2015
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39. Dynamic Facades, the Smart Way of Meeting the Energy Requirements

Author

Kjeld Johnsen and Frederik Vilbrad Winther

Subjects
Engineering, Architectural engineering, Active building envelope, business.industry, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Full scale, Window (computing), Facade engineering, Natural ventilation, Modular design, Energy requirement, Intelligent facades, Energy(all), Advanced façades, Integral building envelope performance, Dynamic façades, Facade, business, Daylighting
Abstract

The paper describes an innovative dynamic facade system, developed in cooperation between two industrial companies, the Danish Building Research Institute and Aalborg University, Denmark. The system, named Energy Frames, is a newly developed industrially produced facade system based on the experiences of a number of specially designed solutions for significant individual buildings all over the world. Energy Frames is a modular framework-based facade system that snaps on the outside of the window frames. The frames can be moved horizontally or vertically in front of the window and is suitable for both new and existing buildings, solving the fundamental functions of the facade: solar shading, daylighting control, dynamic facade U-value, natural ventilation, and noise reduction. Through the use of thermal building simulation tools as well as full scale measurement of the facade system, the energy saving potential is investigated showing the benefits and the challenges of working with dynamic facades in research and practice.

Published
2015
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40. Methodology for the sustainability assessment of facades

Author

VegaRuth

Subjects
Measure (data warehouse), Architectural engineering, Engineering, Building science, Relation (database), business.industry, Sustainability, Facade, Facade engineering, business, Natural resource, Civil and Structural Engineering
Abstract

Nowadays, there are many tools and methodologies designed to measure the sustainability of buildings. Few of them, however, allow for an isolated assessment of the building systems themselves as components of the entire building. A methodology for assessing the sustainability of building systems, considered in relation to the whole building, will allow manufacturers to assess the sustainability of manufactured components in order to improve their performance. Additionally this will help designers to specify construction arrangements in the early stages of the design. This paper presents the systematisation of a comparative analysis of facade building systems and includes the development of a new methodology that can serve as a basis for carrying out quantitative and qualitative comparisons of the sustainability of industrialised building systems in facades. The methodology is associated with a tool that allows for measuring, assessing and rating the levels of sustainability of the industrialised facades employed in residential buildings. The evaluation is based on ensuring that sustainability criteria are met. It involves an approach to sustainable industrialisation of construction with regard to energy conservation and natural resources, the reuse of these resources and life-cycle management of the materials and components.

Published
2015
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41. Design methods for sustainable, high-performance building facades

Author

Ajla Aksamija

Subjects
Architectural engineering, Engineering, business.industry, 020209 energy, Control (management), Thermal comfort, Facade engineering, 02 engineering and technology, Building and Construction, Energy consumption, 0202 electrical engineering, electronic engineering, information engineering, Facade, business, Engineering design process, Design methods, Efficient energy use
Abstract

This research article discusses the methods for designing sustainable, high-performance facades, and the necessary steps in ensuring that the environmental factors and energy-efficiency strategies are integrated with the design process. The facade is one of the most significant contributors to the energy budget and the comfort parameters of any building. Control of physical environmental factors must be considered during the design process, as well as design strategies which improve occupants' comfort. High-performance facades need to block adverse external environmental effects and maintain internal comfort conditions with minimum energy consumption, and the location and climate become one of the crucial factors in selecting appropriate design strategies. The article discusses climate-based approaches for designing high-performance facades, characteristics and properties of sustainable facade systems, tools and building performance analysis steps that can assist during the design process, as well as a ca...

Published
2015
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42. Solar façades: A review

Author

Chi Ming Lai and Shuichi Hokoi

Subjects
Architectural engineering, Engineering, Environmental Engineering, business.industry, Geography, Planning and Development, Solar heat, Photovoltaic mounting system, Facade, Facade engineering, Building and Construction, business, Solar energy, Civil and Structural Engineering
Abstract

Building facades are key elements for indoor illumination, indoor thermal environments, and solar energy utilization and control. In addition to the functions of building facades (rooftops are included in the overall structure of a building facade), solar facades are designed to specifically reject or absorb and reutilize solar heat. The present study reviews the important contents of studies on solar facades that have been published after 2010. Based on the classification of solid and void components of building facades, the solar facades reviewed in this article are divided into two major types: opaque solar facades and transparent or semi-transparent (translucent) facades. In terms of content, we emphasize the introduction of solar facade structures. We hope that this review can be utilized as a reference for academic researchers and will provide architects and related engineering designers with inspiration for building facades or thermal systems.

Published
2015
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43. Wellenlängenabhängige Kenngrößen verschiedener Verglasungen beim Durchdringen von Sonnenstrahlung

Author

Jörg Hildebrand and Clara Burda

Subjects
Physics, Silica glass, business.industry, Mechanical Engineering, Metals and Alloys, Analytical chemistry, Mechanical engineering, Facade engineering, Context (language use), Building and Construction, Glazing, Mechanics of Materials, business, Civil and Structural Engineering
Abstract

Im modernen Fassadenbau finden grose Glasflachen immer haufiger Anwendung. Ihre energetischen Kenngrosen sind fur den Warmeeintrag in das Gebaude masgebend. Die Bestimmung kann experimentell oder numerisch erfolgen. In diesem Beitrag werden die spektralen Energieverluste bei der Leistungsdichteverteilung der Sonnenstrahlung beim Durchdringen von Kalk-Natron-Silicatglas analysiert. Dabei werden die Ergebnisse fur Einfach-, Doppel- und Dreifachverglasungen mit unterschiedlichen Beschichtungen dargestellt. Grundlage der Berechnungen ist die VDI 6007 Blatt 2 und die in ihr genannten Regelwerke. Energy dissipation of solar radiation while piercing through various glazing. Large glass surfaces are more and more common in facade engineering. Their energetic indicators are decisive for the building’s temperature profile. Therefore they are defined by means of complex calculations. In this article, there is an analysis of spectral energy dissipation occurring with power density distribution of solar radiation while penetrating through soda lime silica glass. In this context, the results for single, double and triple glazing with various coatings are provided. The calculations are based on the VDI Guideline 6007 Part 2 and its set of rules.

Published
2015
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44. Analysis of On-site Construction Processes for Effective External Thermal Insulation Composite System (ETICS) Installation

Author

Irene Lill, Virgo Sulakatko, and Eneli Liisma

Subjects
sustainable building, Computer science, business.industry, General Engineering, Energy Engineering and Power Technology, Facade engineering, Energy consumption, construction process, Durability, Construction engineering, Energy policy, External Thermal Insulation Composite System, nearly zero-energy buildings, Thermal insulation, Facade, Architectural technology, business, Construction norms, Efficient energy use
Abstract

Developing a more energy efficient building stock is the focus of the European energy policies. Much of the required reduction in energy consumption needs to be achieved through the renovation of existing buildings. The External Thermal Insulation Composite System (ETICS) is widely used for the reconstruction of apartment building facades to improve thermal performance. However, the impact of the building technology and the construction process management on the quality of these reconstructed facades has received relatively little attention. In this paper, the defects in facades reconstructed using the ETICS are identified and classified, relating them to the corresponding deficiencies in the on-site technology and management. The focus is on the identification of the factors that influence facade durability in order to outline an assessment methodology for on-site monitoring.

Published
2015
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45. Fundamentals in Façade Retrofit Practice

Author

Andrea Martinez, Anders Carlson, Douglas Noble, and Mic Patterson

Subjects
Potential impact, Architectural engineering, Engineering, Descriptive statistics, business.industry, Energy performance, Building energy, existing buildings, Facade engineering, General Medicine, Sustainability, Survey data collection, survey, Facade, state of practice, Façade retrofit, business, Engineering(all)
Abstract

This paper describes fundamental aspects of building facade retrofit practice using field-based research. A major challenge of sustainability is to require buildings to be resilient assets in a life cycle perspective. Building retrofit, a growing research area during the last decade, finds its fundament on the urgency of decreasing the harmful effect of buildings in the environment, and improving them as healthier places for occupants. For these reasons, facade retrofit is rapidly expanding as a research area. Historically, facades have been modified for numerous reasons, such as fixing failures or accommodating aesthetic trends. Currently, the central role of the facade in building energy efficiency is driving an assessment of the potential impact of widespread facade retrofit as a means to improve building sector energy performance. Two online surveys were performed between 2013 and 2014 among building facade professionals. The first survey was intended to identify predominant broad stroke facade retrofit practices. The second survey drilled down to a deeper level of design and construction, as well as motivations and goals. Respondents were highly linked to facade consultancies, facade contractors, and material suppliers. The results included a high percentage of buildings located in the United States. The information is presented in this paper using descriptive statistics to represent facade retrofit demographics, motivations and scopes, and techniques. This aim is to contribute qualified survey data for a better understanding of the fundamental aspects of current facade retrofits practices.

Published
2015
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46. The Use of High Performance Cement Composite in Renovation and Restoration of Architectural Elements of Buildings Facades

Author

Andrejs Krasnikovs, Sandis Aispurs, and Genadijs Sahmenko

Subjects
Cement, Architectural engineering, Engineering, High performance concrete, facade renovation, business.industry, Environmental pollution, Facade engineering, General Medicine, engineering.material, Durability, Civil engineering, High performance, cement composite, Mechanical strength, durability, Facade, Lime mortar, business, Engineering(all), sculpture
Abstract

The problem of restoration of architectural monuments and facade of historical buildings is very timely over the world. Accelerated degradation of facades is caused by climatic factors and environmental pollution. The paper discusses the possibilities for use of high performance concrete for restoration and sculptures creating in historical buildings. Elaborated mix composition provides high workability of the mix, self-compacting effect and ability of perfect reproducing small elements during moulding. Laboratory testing of samples proved high mechanical strength, low water absorption and enhanced frost resistance. Created and installed sculptural elements perform perfect surface and shape and promise to be more durable comparing to production technology using traditional cement and lime mortar.

Published
2015
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47. A Review Of Recent Techniques In Facade Engineering

Author

SWARNIMA REWATKAR

Subjects
Seismic Retrofit, Environmental Impact, Facade Engineering, Urban Landscape etc
Abstract

Facade Engineering is the art and science of resolving aesthetic, environmental and structural issues to achieve the effective enclosure of buildings. Specialist companies are dedicated to this niche sector of the building industry and engineers operate within technical divisions of facade manufacturing companies. The façade acts as the filter between the climate outside and the conditioned space inside. https://journalnx.com

Published
2017
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49. Study of the Image Design Components of Urban Landscape Media Facade

Author

Jung-Sun Yu and Jean-Hun Chung

Subjects
Engineering, Architectural engineering, business.industry, Facade engineering, Facade, business, Urban landscape, Image (mathematics), Visual arts
Abstract

미디어파사드는 건물 외벽을 스크린으로 삼아 영상을 투사하는 것이다. 미디어파사드는 도시 공간에서 고도의 시장 경쟁 상황에 지쳐있는 수용자의 문화적 감성을 회복하며, 도시미학으로 발전하였다. 그래서 도시가 주제가 되기도 하고 투사 대상이 되기도 하면서 영상디자인으로 재해석 될 수 있다. 문화적인 면에서의 미디어파사드는 예술적 가능성과 공공성의 강화가 논의되고 있다. 가장 고려해야 할 부분 중의 하나는 건물 또는 투사 대상 주변과 소통되는 미디어가 되어야 한다는 것이다. 2014 광화문 미디어파사드, 2014 세종문화회관 미디어파사드, 2013 남산 미디어파사드 등의 도시경관 미디어파사드를 비교분석 결과 모티브, 컨셉, 스토리, 투사형태 등 네 가지 영상디자인 구성요소를 도출할 수 있었다. 캔버스와 극장 스크린을 박차고 나아가 새로운 기술적 장르로 자리매김 하고 있는 미디어파사드는 앞으로도 한 차원 높은 도시의 상징적 예술행위로서 메시지와 테마 그리고 기술적 진보를 담아내야 한다. 본 논문은 상징적인 도시경관 미디어파사드의 비교분석을 통하여 영상디자인의 구성요소를 도출하고자 하였다. 【Media facades project images on the external walls of a building as a screen. Such facades can recover the cultural emotions of users tired of a high level of market competition in urban spaces and develop into urban aesthetics and be reinterpreted as an image design as the city becomes a topic as well as the target projected. From a cultural perspective, the artistic possibility and strengthening of publicness of media facades are discussed. One of the considerations is that it should be the medium communicating with the building or surrounding of the projected target. Urban landscape media facades, such as 2014 Gwanghwamun media facade, 2014 Sejong Center for the Performing Arts media facade and 2013 Namsan media facade were compared and analyzed. As a result, four types of image design components could be derived such as motifs, concepts, stories and projection types. Media facade, which is establishing itself as a new technological genre beyond canvas and theater screens, should contain messages, themes and technological advances as a higher level of the urban symbolic art form in the future. This paper derived the components of image design through the comparative analysis of symbolic urban landscape media facade.】

Published
2014
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50. Ductal-Fassade Louis Vuitton in Aventura/Florida

Author

Patrick Desarzens and Wilfried Laufs

Subjects
Engineering, business.industry, Facade engineering, Building and Construction, Structural engineering, business, Humanities, Civil and Structural Engineering
Abstract

Die Design-Zielsetzung von besonderer, grosflachiger Identitat des Modehauses Louis Vuitton fuhrte zu einer neuartigen Fassadenlosung, welche aus hochfestem Ductal-LaFarge-Beton (UHPC = ultra-high performing concrete) offen vergossene Gussplattenlemente verwendet, die als rain-screen over-clad der bereits vorhandenen Gebaudehulle eine vollig neue Erscheinungsform geben. Mittels feinjustierbarer Unterkonstruktion fur Hinterschnittanker und einer vorangegangenen Laser-3D-Vermessung und der Modellierung der einzelnen Fassadenschichten in Solidworks Software konnte eine praktisch fugenfreie flachige Oberflache erzielt werden, die optisch auf den blumenartigen LV Mode-Emblem-Kreisen beruht und das Gebaude vollstandig neu einhullt. Der folgende Artikel beschreibt die Vorgehensweise zur Planung dieser zweiten Haut aus Sicht des Ingenieurs und Fassadenplaners, welche auch auf der Basis hoher Orkan-Windlasten bemessen ist und das noch nicht genormte Ductal-Material mittels Kleinteilversuchen und FEM-Berechnungen rechnerisch nachweist. Ductal Facade Louis Vuitton in Aventura/Florida – currently largest molded Ductal UHPC building envelope in the US The design objective to create a unique, large surface identity for fashion company Louis Vuitton lead to an innovative facade solution which uses high-strength Ductal LaFarge concrete (UHPC = ultra- high performing concrete) as open-molded panel elements in a rain-screen over-clad application, which give the existing facade an entirely new appearance. Designing a finely adjustable sub-structure for under-cut anchors following 3D laser scans on site combined with Solidworks Software modeling of all envelope layers, a practically joint-free facade surface was created, which is based on the flower-like Louis Vuitton emblem circles wrapping the existing building in a completely new fashion. The following article describes the planning procedure for this second skin from a structural and facade engineering perspective, which is also designed based on high hurricane wind cladding loading and small-scale 1:1 anchor testing data in combination with finite element modeling for the not-yet fully standardized Ductal material.

Published
2014
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