Designing for Deconstruction: Extending the Lifecycle of a Commercial Retail Building

Bene, Anthony

01 January 2011

In our fickle economy today, retail can be booming one year and going out of business the next. When things aren't going so well commercial retail buildings are left vacant and then can become eyesores that lead to a communities economic downturn. This thesis proposes a solution by designing commercial buildings for re-use by designing for deconstruction; so that whole buildings can be disassembled and relocated, or that building components can be recycled back into the materials loop.

Design for Deconstruction

Retail

Recycling

Deconstruction

Green

Sustainable

Environmental Design

Diretrizes de projeto para possibilitar a desconstrução de edificações e seus componentes

Saraiva, Tatiana Santos

28 February 2013

Submitted by Renata Lopes (renatasil82@gmail.com) on 2016-09-06T11:54:20Z No. of bitstreams: 1 tatianasantossaraiva.pdf: 1079853 bytes, checksum: d1b7934865c40684f66047cc204e98ed (MD5) / Approved for entry into archive by Diamantino Mayra (mayra.diamantino@ufjf.edu.br) on 2016-09-06T11:57:02Z (GMT) No. of bitstreams: 1 tatianasantossaraiva.pdf: 1079853 bytes, checksum: d1b7934865c40684f66047cc204e98ed (MD5) / Made available in DSpace on 2016-09-06T11:57:02Z (GMT). No. of bitstreams: 1 tatianasantossaraiva.pdf: 1079853 bytes, checksum: d1b7934865c40684f66047cc204e98ed (MD5) Previous issue date: 2013-02-28 / Este trabalho discute a importância das diretrizes de projeto para a desconstrução de edificações com o intuito de, entre outros benefícios, reduzir o impacto ambiental e o custo gerado pelo setor de construção civil, bem como o aumento da vida útil do edifício e seus componentes. Assim, este estudo examina a necessidade da utilização destas diretrizes na fase de concepção do projeto, considerando que esta é a etapa crucial para a tomada de decisões tais como a escolha de materiais, métodos e processos de construção. Para que isso ocorra, alguns princípios devem ser observados, tais como a durabilidade e a redução de tipos dos materiais e componentes, a adaptabilidade da planta a outras funções, a preferência por conexões mecânicas, facilidade de acesso a todos os componentes e a identificação de materiais, entre outros aspectos. O levantamento destes princípios foi feito a partir da análise de literatura específica no assunto. Após a comparação dos resultados levantados, estes princípios foram tabulados e aplicados em análises a projetos arquitetônicos publicados no ano de 2012 em revistas nacionais do setor. Após concluir que, pela análise dos projetos em si, dos manuais existentes na literatura e pelo fato de que os arquitetos brasileiros parecem não estar preocupados com a descontrução em suas obras, foram propostos princípios de projeto para desconstrução adequados ao contexto da produção arquitetônica brasileira. / This work discusses the importance of design guidelines for the deconstruction in order to, among other benefits, reduce environmental impact and cost generated by the construction industry, as well as increasing the lifetime of the building and its components. Thus, this study examines the need to use these guidelines in the conceptual stage of the project, considering that is a crucial step for making decisions such as the choice of materials, construction methods and processes. For this to occur, certain requirements must be observed, such as durability and reduced types of materials and components, the adaptability of the plant to other functions, the preference for mechanical connections, easy access to all components and materials identification, among other things. The survey was done of these principles through the analysis of specific literature on the subject. After comparing the results collected, these principles were tabulated and applied in analysis of architectural projects published in national magazines sector, in 2012. After completing that, by analyzing the projects themselves, the existing manual in literature and the fact that the Brazilian architects do not seem to be concerned with deconstruction in his works, were proposed design principles for deconstruction appropriate to the context of architectural production in Brazil.

CNPQ::ENGENHARIAS

Projeto para desconstrução

Reuso

Reciclagem

Concepção de projeto

Design for deconstruction

Reuse

Recycling

Project design

På vilket sätt påverkar demonteringsbara byggnationer byggbranschen?

Kryvoruchko, Anna, Özacar, Marah

January 2019

Denna kandidatuppsatts behandlar hur demonteringsbara byggnationer påverkar byggbranschen. Syftet är att ta reda på totalentreprenörernas syn på Design for Deconstruction (DfD), eller som det kallas på svenska projektering för demontering, i den svenska byggsektorn. Vidare undersöks utmaningar och problem som DfD ger upphov till och vad som krävs för att införa DfD i byggsektorn. Studien baseras på en kvalitativ metod då vi genomförde åtta semistrukturerade intervjuer med totalentreprenörer. Resultatet grundas på respondenternas svar som innehåller deras erfarenhet, uppfattningar, reflektioner om DfD. Studiens resultat visar att det råder fortfarande okunskap bland totalentreprenörer gällande ämnet men samtidigt ett växande intresse för ämnet. Det krävs större ambitioner från politiker och internationella myndigheter för att utveckla styrmedel som möjliggör projektering för demontering i byggsektorn. Respondenterna ansåg att fördelarna med DfD är möjlighet att förflytta en byggnad, flexibla planlösningar som förenklar renoveringsarbete/ombyggnation, kortare byggtider, återanvändning. Detta kan skapa en ny marknadsföringsstrategi och höja kostnadsvärde för fastighetsägare. Den ekonomiska aspekten visade sig vara det främsta hindret för införande av DfD eftersom respondenterna ansåg projektering för demontering som en icke prövad metod. Dagens byggmodell är inte lämplig för DfD och innovationer krävs. Andra utmaningar som framkom är skepticism till återanvändning av byggmaterial och svårigheter att se de ekonomiska möjligheterna som kommer efter 50–70 år. Anledningarna är bland annat estetik och lastupptagningsförmåga av element samt förvaring. Det behövs också ekonomisk vinning för att fastighetsägare ska välja DfD. De förutsättningar som behövs för att DfD ska införas är ett gemensamt standardiseringssystem, utveckling av BIM-verktyg som stödjer DfD, nya innovationer, öppna byggsystem. Informationsflöde och interaktion mellan entreprenörer och materialleverantörer behöver förbättras för att uppnå den tekniska utformningen med avseende på återanvändningen. Det krävs att staten genomför förmåner i form av subventioner och ekonomiskt stöd för att stimulera införandet av Design for Deconstruction i byggsektorn. Intervjustudien visade att totalentreprenörer utför DfD om efterfrågan och begäran finns hos beställaren. Däremot behöver entreprenörer visa engagemang visas valet av en byggmodell. / This bachelor thesis is about how deconstruction of buildings affect the Swedish construction industry. The purpose with study is to explore how turnkeys’ contractors view of Design for Deconstruction (DfD). This study examines the challenges and problems linked to DfD and what is needed to introduce DfD into the construction sector. The research approach chosen is a qualitative method with semi structured interviews where eight turnkey contractors were interviewed. The result is based on the respondents' experiences, perceptions, and reflections on DfD. The results show that there is a potential for further competence development among the turnkey contractors. More ambitions are required from the politicians and international authorities to develop instruments that enable development DfD in the construction sector. Respondents saw the possible benefits of DfD are opportunities for relocation of the buildings, flexibility that simplifies renovation work, shorter construction times, re-use. This can create a new marketing strategy and increase the value for property owners. Current building model is not suitable for DfD and new innovations are required. Other challenges that emerged is scepticism of turnkeys’ constructors for the recycling of building materials and difficulty to see financial possibilities that will be after 50-70 years. Subsidies and financial support coming from the state may be beneficial for establishment of DfD in the construction sector.

design for deconstruction

design for disassembly

projektering för demontering

återanvändning

återvinning

hållbart byggande

circulär modell

återbruk

Engineering and Technology

Teknik och teknologier

New composite flooring system for the circular economy

Lam, Dennis, Yang, Jie, Wang, Yong, Dai, Xianghe, Sheehan, Therese, Zhou, Kan

15 September 2021

No / Circular economy is an economic system aimed at minimizing wastes and making the most of the current resources. This regenerative approach contrasts with the traditional linear economy, which has been adopted by the construction industry. Developing new construction technologies for sustainable built environment is a top priority for the construction industry throughout the world. Much of the environmental impact from the construction industry is associated with the consumption of resources and generation of waste. The construction industry in Europe consumes over 70,000 million tonnes of materials each year and generates over 250 million tonnes of waste. Composite flooring formed by connecting the concrete slabs to the supporting steel beams has been widely used for many years and is well established as one of the most efficient floor systems in multi storey steel frame building structures. However, shear connectors are welded through the steel decking to the steel beams and cast into the concrete; this made deconstruction and reuse of these components almost impossible. A new composite flooring system which allows for the reuse of the steel beams and composite floor slabs is developed and tested to assess its potential and suitability for reuse. This paper presents the results of a series of full scale beam tests and demonstrates the reusability of this new form of composite flooring systems. Simplified hand calculations are also provided and compared against beam tests / EPSRC, Structural Metal Deck Ltd.

Circular economy

Demountable shear connectors

Design for deconstruction

Design to Eurocodes

Composite beam tests

Reusable composite floor system

Developing a grading tool for sustainable design of structural systems in buildings

Zabala Mejia, Andres Oswaldo

January 2021

Construction is known for consuming large quantities of raw materials and high amounts of energy. In 2018, the construction industry was responsible for 6% of global energy consumption, 11% of global CO2 emissions, and approximately 36% of the total waste in the European Union. These drawbacks are just a part of the gap between the construction sector and Sustainability, which can also be perceived as challenges to the industry and demands for new and innovative strategies to increase Sustainability. For example, recent efforts of EcoDesign on structural systems show a trend in the importance of materials efficiency, durability, adaptability, and reuse.    This thesis aims to create a set of guidelines that will help designers and other construction stakeholders apply Design for Deconstruction and Adaptability DfD/A principles to increase the knowledge of how structural design and structural systems in buildings can be designed to promote Sustainability. For this purpose, a grading tool to assess structural systems based on the ISO 20887 was developed. The general methodology for this research was adapted from Design Research Methodology with a particular focus on the Product Development approach for the tool development. A literature Review was conducted in both scientific and grey literature to identify relevant information and current efforts on sustainable design of structural systems and application of DfD/A principles on the construction sector. Three additional methods for data collection were used: (1) questionnaire for identification of customer needs and expectations, (2) benchmarking to identify similar tools, strategies, and certifications systems that include sustainability performance in buildings; and (3) workshops with the purpose to rate the usefulness quality of the tool based on the application of the tool by potential users in different case studies.  A ready-to-use computer-based EcoDesign tool was developed. The assessment performed by this tool consists of an indicator system of DfD/A strategies to enhance sustainable development by improving material efficiency and stimulate a circular economy in the construction sector. A top-down approach was used for the concept generation, which starts with the ReBuilding Index as an indicator of sustainable performance for structural systems. This index is based on five categories defined on the relationship of the DfD/A principles with the design process of the structural system. A total of 20 principles are distributed in these categories, defined by 54 strategies to reach the goal of the principles.     The tool was tested by 11 potential users with different roles in the construction sector. Five case studies were selected to grade the design of five different typologies of structural systems. The usefulness quality of the tool was evaluated based on indicators of usability, utility, and user experience. It was found that developing the tool based on DfD/A principles and the ISO 20887 gave the tool a solid theoretical background and a flexible structure that can be used for sustainable design or as part of an extensive framework of certification systems or ecolabel programs. The tool accomplishes the goal of grading and helping to improve the structural design. However, during the evaluation of the tool, many barriers and difficulties of application were found. Therefore, these findings and obstacles are instead identified as challenges and turn them into opportunities for improvements in future versions of the tool. / InFutUReWood project

Construction

Design for Deconstruction

Design for Adaptability

Material efficiency

Structural Design

Sustainability.

Building Technologies

Husbyggnad

Construction Management

Byggproduktion

Environmental Management

Miljöledning

System:Forest

Hedberg Ibáñez, Samira

January 2022

What I have tried to do in this project is to come up with a system of building that gives the building and the materials within, a chance for a longer life. A system that does not only make it easier to change the layout on the inside, but also makes it easier to disassemble the entire structure with minimal damage to the materials and the surroundings.  The pillar-beam glulam system is inspired by the Scandinavian and asian wood traditions. With wood joints and bolts, the inner structure can be assembled, disassembled and reassembled multiple times. By Designing for deconstruction the materials are not wasted if the building needs to move, and by making the layout flexible on the inside, the building can serve different functions and hold other family constellations within without too much effort or cost.  The appearance of the system is meant to make you think of trees, with the stems and branches and holes between the leaves where the sun can come through. This is something that has come through the different iterations of the system and the buildings, together with the initial research of wood and the forests and through the process it eventually evolved into System:Forest.

Kronby

Forest

tree

Wood

Design for Deconstruction

Deconstruction

Dissassemble

Reassemble

Architecture

System

construction

Iso timber

CLT

Gluelam

Cabin

House

Gazebo

Complementary building

Architecture

Arkitektur

Design for Disassembly and Reuse : Developing an Indicator System for Volumetric Timber Structures Based on Case Studies

Khanalizadehtaromi, Sara

January 2023

The environmental impacts of the construction industry, and the built environment, as the end product of construction activity, are massive due to the extensive use of energy and resources. Sustainability and circular economy are recognized as the main solution to the existing environmental impacts of this industry and the main approach to the sustainable development of it. The transition of a construction project’s life cycle from a linear one starting with material processing and ending up at demolition stage to a real cyclic life cycle needs defining alternative end-of-life scenarios. Deconstruction as one of the alternative end-of-life scenarios is defined as salvaging material of a dismantled structure for reuse or recycling. Design for deconstruction refers to the importance of considering deconstruction as the end-of-life scenario in the design stage of structures. This thesis aims to define the existing challenges and opportunities in the deconstruction of timber structures by the study of cases in which dis- and re-assembly are done. The study also aims to measure deconstructability by developing an indicator system for design for deconstruction of volumetric timber structures based on design for disassembly principles existing in ISO 20887:2020 and the practical principles of the case studies. This is done by interviewing people at five different companies who were engaged in the dis- and re-assembly of structures. The study of these cases shows the gap between disassembly principles and real-world experience from a learn-from-practice point of view. The developed tool as the indicator system is consisted of 25 indicators under seven principles and is able to measure and provide a deconstructability grade of structures out of 100 for each principle and a total deconstructability grade based on all principles. / Measurable Reusability for Wooden Houses (Mätbar Återbrukbarhet för Trähus)

design for deconstruction

design for disassembly

timber construction

disassembly

circular economy

sustainability

volumetric timber structures

structures

DfD

Reuse

Indicator system

Building Technologies

Husbyggnad

Construction Management

Byggproduktion