Global ETD Search

21	Access a better development for Chinese sustainable building -A study of problems and proposal from a technical view Gong, Boyun January 2012 (has links) Sustainable building issue plays a key role in world sustainable development as the building industry converge major sectors of energy, water and material consumption that have huge affect on social and environment. Modern China is under the process of sifting from agriculture society to industrialized society, experiencing a fast economic growth and urbanization, facing big amount of environment and energy problems. Large amount of migration swam from rural area to urban area, which bring up with huge construction work. Low-efficiency of energy use and short life-cycle causes big amounts of waste on energy and materials in China. Developing sustainable building is an emergency and essential issue. There are lots of problems in Chinese sustainable development. The research is try to find out some of the most important factors in Chinese building construction sectors in order to explore new and better methods for a more sustainable development. As a limitation, the research is focused on technical aspects. The research is discussing the problems on three aspects: Regulation standard, Stimulate support system and transfer of technology. Each of the part is discussed the question of ―what is it means to sustainable building?‖ and ―how to improve it?‖ To get the answer, several different approaches are used to analyze the problems. A comparison of Design standard of Energy Efficiency and Denmark housing regulation in order to find the inadequacies of Chinese current regulation, an exploration of Chinese rating system of green building certification tries to find how to make an improvement for green building assessment. and two cases study is help to understand a proper approach of technical transferring. / 0736136147 sustainable building technology transferring China Social Sciences Interdisciplinary
22	More Than Just a Glass Face: What Makes a "Green" or "Sustainable" Building, Exactly? Kokame, Kelli 01 January 2017 (has links) Buildings are responsible for a wide range of environmental impacts. In response to this, several green building standards have been developed. Each standard uses different strategies and has different approaches to defining what features should make up a green building. This thesis uses the LEED, BREEAM, EEWH, and Living Building Challenge standards as a lens through which this question of what makes a green building is explored, with an emphasis on the distinction between greenness and sustainability in the built environment. green building sustainable building LEED BREEAM EEWH Living Building Challenge Environmental Design
23	Environmental Assessment of Buildings and the influence on architectural design Wallhagen, Marita January 2010 (has links) This licentiate thesis examines environmental assessment tools for buildings. This is done by investigating, analysing, comparing and testing how different environmental assessment tools measure the environmental performance of buildings and examining the consequences this may have on architectural design. The study begins by analysing three environmental assessment tools: Leadership in Energy and Environmental Design (LEED), Code for Sustainable Homes (CSH) and EcoEffect. These tools are then tested on a case study building (an eight-storey residential building) to analyse differences regarding assessment results, improvement proposals and potential impacts on architectural design. One of the environmental impacts assessed in the three tools, namely Climate Change caused by gases having Global Warming Potential (GWP), is then analysed in greater detail from a life cycle perspective by measuring CO2-equivalents (CO2-eq). A basic calculation tool (referred to as the ENSLIC tool), based on life cycle assessment methodology, is used to assess a case study building (a four-storey office building in Gävle). The CO2-eq emissions from a building’s material production and energy use are calculated and the impacts of a number of suggested building improvements and changes of energy sources are analysed. The studies show the complexity of assessment tools and different ways to make comparisons. Both similarities and differences between the tools are apparent, regarding hierarchical structure and also on each hierarchical level, from categories to issues and parameters. It is also shown that the choice of environmental assessment tool may have an influence on the architectural design of buildings. The difficulty with assessing complex buildings is apparent even when only one environmental issue is assessed with the LCA-based ENSLIC tool. Many aspects influence the assessment result. These include energy use, choice of materials and choice of energy sources. The complexity and difficulty in linking buildings to environmental impact create a need for interactive tools measuring environmental performance, which can be useful as decision support in the early design phase. / Denna licentiatavhandling behandlar miljöbedömningsmetoder för byggnader. Arbetet bygger på undersökningar analyser, jämförelser och tester av hur miljöbedömningsmetoder bedömer byggnaders miljöprestanda och undersöker även vilka konsekvenser som detta kan ha på arkitektonisk utformning. Forskningen börjar med att tre miljöbedömningsmetoder, Leadership in Energy and Environmental Design (LEED), Code for Sustainble Homes (CSH) och EcoEffect analyseras och jämförs. Sedan genomförs en fallstudie där de tre metoderna testas på ett bostadshus (ett åttavåningar högt bostadshus i Stockholm). Skillnader gällande miljöbedömningsresultat och miljöbedömningmetodernas förslag på förbättringsåtgärder samt eventuell påverkan på den arkitektoniska utformningen analyseras och diskuteras. En av miljöpåverkanskategorierna som bedöms i de tre metoderna, klimatpåverkan orsakad av gaser med inverkan på den globala uppvärmningen, analyseras sedan mer i detalj utifrån ett livscykelperspektiv genom att mäta byggnaders utsläpp av koldioxidekvivalenter (CO2 ekv). Ett förenklat beräkningsverktyg (som här benämns ENSLIC-verktyget), som är baserat på livscykelmetodik, används för att studera en byggnad (ett fyra våningar högt kontorshus i Gävle). Sedan beräknas utsläppet av CO2 ekv från byggnadens material- och energianvändning. Effekten av ett flertal föreslagna förbättringsåtgärder på byggnaden samt byte av energikällor analyseras också. Studierna visar på miljöbedömningmetodernas komplexitet och presenterar olika sätt att göra jämförelser på. Skillnader och likheter mellan metoderna påvisas gällande hierarkisk struktur och även på varje hierarkisk nivå, från kategorier till enskilda bedömda frågor och parametrar. Dessa skillnader talar för att olika metoder kan påverka den arkitektoniska utformningen av byggnader. Svårigheten i att bedöma komplexa byggnader belyses även när endast en miljöpåverkan bedöms med det livscykelanalys baserade ENSLIC-verktyget. Många saker påverkar resultatet, framförallt energianvändning tillsammans med materialanvändning och val av energikällor. Den komplexa och svåra uppgiften att länka samman byggnader med deras miljöpåverkan öppnar upp för användande av interaktiva verktyg som mäter miljöpåverkan som kan användas som beslutshjälpmedel i tidiga designskeden. / QC 20101123 green building sustainable building environmental assessment assessment tool architectural design CO2 (Carbondioxide) Civil Engineering Samhällsbyggnadsteknik
24	Sustainable Building Design with Autodesk Ecotect BARRY, Raphael January 2011 (has links) Final Report Software Engineering Programvaruteknik Building Technologies Husbyggnad
25	Advancing surrogate modelling for sustainable building design. Westermann, Paul W. 14 September 2020 (has links) Building design processes are dynamic and complex. The context of a building pro- ject is manifold and depends on the cultural context, climatic conditions and personal design preferences. Many stakeholders may be involved in deciding between a large space of possible designs deﬁned by a set of inﬂuential design parameters. Building performance simulation is the state-of-the-art way to provide estimates of the energy and environmental performance of various design alternatives. However, setting up a simulation model can be labour intensive and evaluating it can be com- putationally costly. As a consequence, building simulations often occur towards the end of the design process instead of being an active component in design processes. This observation and the growing availability of machine learning algorithms as an aid to exploring analytical problems has lead to the development of surrogate mo- dels. The idea of surrogate models is to learn from a high-ﬁdelity counterpart, here a building simulation model, by emulating the simulation outputs given the simula- tion inputs. The key advantage is their computational eﬃciency. They can produce performance estimates for hundreds of thousands of building designs within seconds. This has great potential to innovate the ﬁeld. Instead of only being able to assess a few speciﬁc designs, entire regions of the design space can be explored, or instan- taneous feedback on the sustainability of building can be given to architects during design sessions. This PhD thesis aims to advance the young ﬁeld of building energy simulation surrogate models. It contributes by: (a) deriving Bayesian surrogate models that are aware of their uncertainties and can warn of large approximation errors; (b) deriving surrogate models that can process large weather data (≈150’000 inputs) and estimate the associated impact on building performance; (c) calibrating a simulation model via fast iterations of surrogate models, and (d) benchmarking the use of surrogate-based calibration against other approaches. / Graduate Building simulation Machine learning Surrogate modelling Energy efficiency Sustainable building design
26	THE LEED GUIDELINES: A FRAMEWORK FOR THE DEVELOPMENT OF GREEN BUILDINGS AND SITES HECK, GREGORY BRYAN 02 September 2003 (has links) No description available. Architecture Green Building Leed Guidelines sustainable building Green Architecture Green Development
27	LIGHTING EFFICIENCY FEASIBILITY STUDY OF THREE OHIO UNIVERSITY BUILDINGS Kariyeva, Jahan 05 September 2006 (has links) No description available. Environmental Sciences environmental sustainability energy efficiency lighting fixtures green building sustainable building
28	Nya miljöcertifieringar : Incitament, hinder och skillnader / New environmental certifications : Drivers, barriers and differences Hedman, Sofia, Jonsson, Sebastian January 2021 (has links) Fastighetsbranschen står för ca 20% av alla utsläpp av växthusgaser och 40% av all världensenergiförbrukning (RICS The World Built Environment Forum, 2019). Därför är det viktigtatt se på vilka åtgärder fastighetsägare kan göra för att minska miljöpåverkan.Miljöcertifieringar för byggnader är ett verktyg som används för att minska derasmiljöpåverkan och arbeta för fortsatt minskad påverkan i framtiden. Detta examensarbetefokuserar på nya miljöcertifieringar, mer specifikt NollCO2, med syftet att jämföra dennacertifiering mot LEED och dess påbyggnad LEED Zero. Syftet är även att undersökaincitament och hinder för NollCO2 via en kvalitativ intervjustudie som omfattas av totalt femintervjuer. Intervjuerna har utförts digitalt under våren 2021 med personer som haft insikt iNollCO2-certifieringens pilotprojekt. Resultatet från jämförelsen visade att det finns ett flertal skillnader mellan NollCO2 ochLEED, där den tidigare har mer omfattande krav för att godkännas, men samtidigt böranvändas som ett komplement till den senare för att ge en större effekt av minskadmiljöpåverkan. Jämfört mot LEED Zero är skillnaderna dock inte lika omfattande, då dessahar ett gemensamt mål om att nettonoll klimatutsläpp skall uppnås inom ett eller flerafokusområden. Intervjuerna visade att det finns flera incitament än hinder att använda sig avNollCO2 vid certifieringen av byggnader. Incitamenten har bland annat varit att företagenhaft höga hållbarhetsmål internt, kunskapsutvecklingen som fås via certifieringsarbetet ochatt företagen erhållit mycket positiv uppmärksamhet av deras val att bli pilotprojekt medNollCO2-certifieringen. Hinder har varit det omfattande arbetet som krävts för att få allaparametrar inom certifieringen rätt då det funnits brist på pålitligt underlag hosmaterialleverantörerna och brist på kunskap i byggbranschen. Uppfattningen har dock varitatt incitamenten övervägt hindren, då kunskapsläget börjar avancera. Effekten avcertifieringen har varit en utveckling av branschen där många leverantörer är intresserade avatt lära sig mer och arbeta med hållbara lösningar även för framtida kunder. Paralleller dragits till tidigare forskning som gjorts på äldre miljöcertifieringars incitamentoch hinder, där det visat sig finnas starkare incitament än hinder även för de äldrecertifieringarna. Diskussion har även förts gällande lönsamhetsaspekten med NollCO2, dåprojekt har högre produktionskostnader, men det är för tidigt för att kunna dra slutsatser omNollCO2-projekten är mer lönsamma än andra certifierade projekt. Den tidigare forskningenhar nämligen visat fastighetsägares uppfattning om att certifierade byggnader är merlönsamma än andra, speciellt byggnader med LEED- certifieringen. Skillnaden mot dentidigare forskningen är att aktörernas incitament bakom NollCO2-pilotprojekten inte verkarha påverkats av statliga regleringar enligt intervjustudien och skulle behöva utredas vidare.Inställningen till att välja nya miljöcertifieringar i byggbranschen har varit positiv, trots dehinder som finns mot att certifiera. Genom att delta som pilotprojekt har aktörerna fåttmöjligheten att vara pionjärer i att förändra branschen, men också göra en skillnad förbyggbranschen genom att visa att det är möjligt att använda lösningar för att byggaklimatneutralt. / As the real estate sector is responsible for approximately 20% of the global greenhouse gasemissions and 40% of the world's energy consumption (RICS The World Built EnvironmentForum, 2019), it is crucial to find solutions to reduce environmentally unfriendly emissions.Environmental building certifications are often used to enable property owners to takemeasures against their building’s environmental impact and ensure that such impact continuesto be lowered. This bachelor’s thesis focuses on new environmental certifications, morespecifically NollCO2, developed by Sweden Green Building Council (SGBC). The authorshave chosen to compare the certification to more established certifications like LEED, and itsadd-on LEED Zero. Furthermore, the purpose is to determine the drivers and barriers forusing the NollCO2 certification, which is made through an interview study compiled fromfive interviews. The interviews were conducted during the spring of 2021 with peopleinvolved in pilot projects for the NollCO2 certification. Results of the comparisons show that there are a number of differences between NollCO2 andLEED, where the former has more demanding requirements to be approved and it amends thelatter. Compared to LEED Zero, the differences are not as noticeable, since they are similar inthe way that net-zero emissions are to be achieved within the chosen focus area of thecertification. The study also showed that there are more drivers than barriers for NollCO2 asa choice of certification for buildings. The drivers for the interviewees have been theirinternal environmental policies, the knowledge to be gained from the certification experienceand also the positive attention drawn from their work as a pilot project with NollCO2. Thebarriers have been extensive work to get the parameters within the certification correct, as thematerial suppliers generally do not offer the same information about the material’s climateimpact. Also, the opinion of the interviewees was that the industry is lacking the requiredknowledge of sustainable building solutions. Although, the view was shared that the drivershave shown to outweigh the barriers. The pilot projects for NollCO2 has progressed therequired development of the industry according to the interviewees. This was shown in thesupplier’s developed knowledge of sustainable building solutions and an interest to continueto offer the same environmentally friendly solutions to all future clients. In the thesis, parallels are drawn to prior research to identify the drivers and barriers for olderbuilding certifications. It is shown that the drivers to use a building certification outweigh thebarriers with the older certifications. The profitability aspect with using NollCO2 is alsodiscussed, since these projects clearly have higher production costs and lower maintenancecosts. Although, it is early to draw clear conclusions on whether the project is profitable ornot, since the pilot project buildings have yet to be completed. Prior research has shown thatolder certifications, for example LEED, have been profitable for property owners in general.A difference found in the comparison to prior research, is the impact of governmentregulations and policies in a property owner’s choice to certify their buildings. This impacthas not been identifiable in the conducted interview study for this report and needs moreresearch. The attitude towards new environmental building certifications has been positive throughoutthe interviews, despite existing barriers. The NollCO2 pilots are being part of an industryevolution and have acted as pioneers for the property industry. The pilots have also made animpact on the building industry by showing that it is possible to use climate neutral solutionswhen building. climate neutrality certifications sustainable building drivers barriers klimatneutralitet certifieringar hållbart byggande incitament hinder Civil Engineering Samhällsbyggnadsteknik
29	BIM för Hållbart Byggande / BIM for Sustainable Building Engdahl, Jenny, Hedlund, Madeleine January 2012 (has links) The purpose of this study is to facilitate sustainable building by the use of BIM. The goal is to determine which aspects of sustainable building, which can be analyzed mainly with BIM tools, but also other aids. The study is based on literature studies and interviews. The literature review examines aspects important for sustainable building by studying environmental certification systems applicable in Sweden, as well as the BIM tools available on the market to analyze these aspects. The literature also includes the concepts of BIM and sustainability in order to provide a clearer view of its meaning. The interviews have brought the study's overall understanding of the industry and guidance on the subject. The results are presented in a table, where the aspects relevant to sustainable building are listed. It can also be read which aspect the certification systems raise. Overall, the study shows 132 aspects distributed across seven areas: Site, Water and Wastewater, Energy and Pollution, Materials and Waste, Indoor and Wellbeing, City Design and finally Implementation and Management. The table also suggests BIM tools and other aids, which can be used in the analysis of a specific aspect. The study shows a slight majority of the aspects, 55 percent, are possible to analyze with BIM tools. The Site is the area with most aspects, which can be analyzed with BIM tools, 95 percent. And Materials and Waste resulted in least aspects with only ten percent. Overall, the study examined 35 different BIM tools. The aspects that require other means of analysis often generates important information about the project, from a sustainability point of view, and in many cases the information can be integrated in the BIM model manually. In the end, the project gets a packed BIM model with useful information, which follows the project all the way into management and later demolition and recycling. The study shows that sustainable building demands a holistic approach where several aspects should be considered in order to achieve sustainability. To analyze the aspects of sustainability requires that relevant and accurate information about the project be collected. Various proposals can be drawn and compared to generate the most sustainable option. A tool for this is BIM. BIM is defined partly as a method of work, building information modeling, but also as a virtual model, building information model. BIM facilitates the coordination of information gathering, both as a working method and a technical tool. This will contribute BIM to achieve the purpose sustainable building. / Syftet med den här studien är att underlätta hållbart byggande genom användandet av BIM. Målet är att utreda vilka aspekter inom hållbart byggande som kan analyseras med fokus på i huvudsak BIM-verktyg, men också andra hjälpmedel. Studien bygger på litteraturstudier och intervjuer. I litteraturstudien undersöks aspekter som är betydelsefulla vid hållbart byggande genom att studera miljöcertifieringssystem som är tillämpningsbara i Sverige, samt vilka BIM-verktyg som finns att tillgå på marknaden för att analysera dessa aspekter. Litteraturstudien innefattar även begrepp rörande BIM och hållbarhet för att ge en klarare bild av dess innebörd. Intervjuerna har tillfört studien övergripande förståelse för branschen och vägledning i ämnet. Resultatet redovisas i en tabell, där de aspekter som är relevanta för hållbart byggande är listade. I tabellen går det även att utläsa vilka aspekter certifieringssystemen tar upp. Totalt visar studien på 132 aspekter fördelade inom sju delområden; Platsen, Vatten och Avlopp, Energi och Föroreningar, Material och Avfall, Inomhusklimat och Välmående, Stadens Gestaltning samt Genomförande och Förvaltning. I tabellen redovisas dessutom förslag på BIM-verktyg samt andra hjälpmedel som används vid analys av en specifik aspekt. Studien visar att en knapp majoritet av aspekterna, 55 procent, är möjliga att analysera med BIM-verktyg. Platsen är det delområde som visar flest aspekter som går att analysera med BIM-verktyg, 95 procent. Material och avfall resulterade i minst aspekter med endast tio procent. Sammantaget har studien undersökt 35 stycken olika BIM-verktyg. De aspekter som kräver andra hjälpmedel för analys genererar ofta information viktig för projektet ur hållbarhetssynpunkt, och går i många fall att integrera i BIM-modellen manuellt. Sammantaget medför det att projektet får en fullmatad BIM-modell med användbar information som följer projektet ända in i förvaltning och sedermera rivning och återvinning. Studien visar att hållbart byggande handlar om att ha en helhetssyn där flertalet aspekter ska beaktas för att uppnå hållbarhet. Det räcker således inte att bara se till exempelvis energihushållning för att anse att ett projekt är hållbart. För att analysera aspekter rörande hållbarhet krävs att relevant och riktig information om projektet insamlas. Då kan olika förslag utarbetas och jämföras för att ta fram det mest hållbara alternativet. Ett redskap för detta är BIM. BIM är definierat dels som en arbetsmetod, byggnadsinformationsmodellering, men också som en virtuell modell, byggnadsinformationsmodell. BIM underlättar samordningen av den insamlande informationen, både som arbetsmetod och som tekniskt verktyg. På så vis bidrar BIM till att uppnå syftet hållbart byggande. Sustainable building BIM building information modeling building information model sustainability analysis. Hållbart byggande BIM byggnadsinformationsmodellering byggnadsinformationsmodell hållbarhetsaspekter analysverktyg.
30	En byggnads energibehov : En studie om energieffektivisering av en befintlig byggnad i södra Sverige Åström Ylivainio, Frida January 2014 (has links) The purpose of the study was to investigate the use and losses of energy in an existing older building. Another purpose was also to look through various options for heating systems with renewable energy in the building. The aim was to reduce the use and losses of energy. The first step was to study the related electricity bills of the building and also perform measurements and calculations of the building envelope and ventilation. The next step was to find out the possible actions for energy saving by performing measurements and calculations. To calculate the loss of energy a u-value was used, which describes a materials ability to conduct heat. The results of the energy calculations show what is reasonable to do in the building considering the energy savings versus economy. The study shows that it is important to first analyze and adjust the building envelope and ventilation before a new heating system is installed. That is to reduce the risk of an over-sizing of the heating system. It is not optimal to correct the entire building at energy efficiency because it is not economically feasible. All necessary actions of energy saving should be taken as a package where the most profitable should be picked out and executed. An older building is often of great value and therefore its appearance should be safeguarded at energy efficiency. energy efficiency energy saving renewable energy sources sustainable building energieffektivisering energibesparing förnybara energikällor hållbar byggnad byggnad av värde

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