Global ETD Search

51	A Building Information Model (BIM) Based Lifecycle Assessment of a University Hospital Building Built to Passive House Standards Grann, Blane January 2012 (has links) This thesis undertook a whole building lifecycle assessment of a university hospital building in Trondheim, Norway designed to passive house standards. The delivered energy for electricity and heating was estimated to be 122 kWh/m2. Impacts outside the energy used during the operational phase of the building were significant including 30% of greenhouse gas emissions, 41% of terrestrial acidification and 43% of particulate matter formation. Normalized to the number of staff, the building emits roughly 0.75 tonnes of CO2 equivalents per year over the 50 year life of the building. ntnudaim:7921 MSINDECOL Industriell Økologi Environmental Systems Analysis
52	Life Cycle Assessment on the Conversion of CO2 to Formic Acid Robledo-Diez, Alvaro January 2012 (has links) The objective of this work is to provide an environmental assessment of the impacts that the electrochemical conversion of CO2 to formic acid produces. In order to do this, Life Cycle Assessment has been used. ntnudaim:8127 MSINDECOL Industriell Økologi Environmental Systems Analysis
53	Material Flow Analysis of Extruded Aluminium in French Buildings : Opportunities and Challenges for the Implementation of a Window-to-Window System in France Billy, Romain January 2012 (has links) As environmental considerations start playing a major role in consumers choices, aluminium recycling becomes an increasingly important topic: indeed, remelting aluminium requires about 5 to 10 % of the energy used for primary production (Quinkert et al., 2001). However, scrap from wrought alloys is more and more used by refiners to produce secondary foundry alloys, which increases the share of primary aluminium in extrusion billets. Besides, a significant fraction of scrap is nowadays leaving Europe to developping countries, limiting the future potential for urban mining in the developed world.Therefore, the W2W project is a pilot case to test in France the implementation of a different end of life management strategy, whose objective is to reuse building joinery scrap to make new extruded products. For this project to be successful, pre-sorting at the beginning of the collection process is paramount: otherwise, separating high quality wrought aluminium alloys from mixed scrap becomes a challenge.The cycle of extruded aluminium in buildings and the current scrap availability in France have been studied using Material Flow Analysis (MFA). To build the model, data have been collected from Hydro internal sources and site visits. The scrap availability and the in-use stocks of extruded aluminium in buildings have been assessed using dynamic stock models based on historic production figures and assumptions on the average lifetime of products. Scenarios on the future production have been studied to estimate the future evolution of these figures.The models predict yearly outputs of post-consumer scrap from aluminium joineries of about 30kt/year, among which 10 kt/year should be reusable for the production of new billets. These numbers have been examined using the tools of sensitivity and uncertainty analysis. Finally, the critical topics for a successful implantation of the W2W project are logistic issues, economic and technological feasibility and the consequences on the different stakeholders. ntnudaim:7863 MSINDECOL Industriell Økologi Environmental Systems Analysis
54	Spatial aspects of greenhouse gas emissions from transport demands by households in Trondheim Loveland, Simon James January 2012 (has links) The aim of this study was to explore the spatial variation in household greenhouse emissions from local transportation in Trondheim, the reasons for this variation, and explore scenarios of what bearing these variations might have on greenhouse gas emissions in the future. Data from a national travel survey was used together with modal emissions coefficients to model the average emissions per capita for 46 geographic zones in Trondheim. Linear regression was used to explain the variation in average emissions using a number of explanatory variables identified from the literature. The regression models explained around 7580 per cent of the spatial variation in average emissions (0.75 &#8804; adj r2 &#8804; 0.79), with centre distance explaining the majority of variation. Using a regression function containing centre distance and access to public transport as explanatory variables, five scenarios were constructed for emissions in 2030, which suggest that centralisation of new residential building developments and improvement in the public transport network could limit the growth in annual greenhouse gas emissions to approximately 10 per cent in the presence of approximately 30 per cent population growth. ntnudaim:7945 MSINDECOL Industriell Økologi Environmental Systems Analysis
55	From Ground to Gate: A lifecycle assessment of petroleum processing activities in the United Kingdom OBorn, Reyn January 2012 (has links) Petroleum products are an important component of todays societal energy needs. Petroleum powers everything from the vehicles people rely on, to the ships that carry goods around the world, to the heating of homes in colder climates. The petroleum process chain is complex and the environmental impacts within the process chain are not always well understood. A deeper understanding of where emissions come from along the process chain will help policy makers in the path towards a less carbon intensive society. One of the core processes of the petroleum process chain is refining. Petroleum refining is a complicated process which can have varying crude inputs and varying fuel outputs depending upon the refinery make-up, the crude blend and the market conditions at the time of production. The goal of this paper is to introduce a lifecycle analysis on the UK petroleum refining sector. Where emissions occur along the process chain and which fuels cause the most pollution on a per unit basis will be reported and discussed using lifecycle analysis framework. The refining process is difficult to maneuver around and it can be difficult to discern which processes create which products. The analysis is broadened to understand the refining emissions associated with different fuel types at both a process and country level. The results can be relevant for environmental policy and decision makers. The original intent of this paper was to include gas processing. After discussion between advisor and student, the gas processing was not included after mutual agreement. ntnudaim:7614 MSINDECOL Industriell Økologi Environmental Systems Analysis
56	Use of future world scenarios within an attributional input-output framework Pak, Anthony January 2012 (has links) Background and contextGeneral and far reaching scenarios of possible futures for humanity's social metabolism have been put forth, outlining strikingly contrasting potential environmental prospects. Lifecycle assessment (LCA) and environmentally extended input-output (EEIO) the dominant methodologies for environmental assessment of production and consumption activities have been little used to analyse specific activities within these possible futures.Most LCAs and EEIOs are attributional and retrospective; they use past data with a central tendency approach to determine the impact of activities that are already embedded within a production-consumption system. On the other hand, so-called prospective-consequential LCAs analyse perturbations to a system, e.g. the introduction of new technologies or a change in consumption levels, and are therefore targeted at guiding decisions in the present and near-future. For large scale perturbations or more long-term decisions into the future, however, the consequential approach has been criticised as either losing transparency through complex modelling or relying overly much on ceteris paribus assumptions. It has recently been proposed that a prospective attributional approach to lifecycle studies could fill this void. Such an approach involves estimating the environmental impacts that can be attributed to the lifecycle of a future good or service embedded within exogenously defined scenarios of the future economy. Little has been done in this direction so far.Already in retrospective studies, the separate use of process-based LCA and EEIO has been criticised as leading to either truncated or heavily aggregated assessments. The advantages of using hybridizations of these two techniques seems even greater for prospective attributional analyses, considering how the EEIO framework is a robust vehicle for future economic scenarios. There is thus a need for further development in the direction of prospective attributional hybrid EEIO-LCAs. ntnudaim:8387 MSINDECOL Industriell Økologi Environmental Systems Analysis
57	Livsløpsanalyse av norske landbruksaktiviteter og produkter / Environmental Assessment of Norwegian Agricultural Activities and Products Jacobsen, Anne Zimmer January 2012 (has links) Landbrukssektoren har et betydelig miljømessig fotavtrykk, som forventes å øke ettersom verdens befolkning fortsetter å vokse. Verdenssamfunnet har derfor insentiver til å søke etter mer miljøvennlige produksjonsmetoder. Det er også den norske regjeringens mål å minske belastningen fra jordbrukssektoren innen 2020. Siden konsekvensene av jordbruket avhenger av klimatiske og topografiske forhold, samt tradisjoner og politiske insentiver, vil større kunnskap om miljøbelastning knyttet spesifikt til norske forhold være viktig. Denne studien fokuserer på miljøbelastningen av bygg, havre og hvete produksjon i Norge. Ved å bruke en livsløpstilnærming, evalueres miljøbelastningen fra kornproduksjon ved 94 gårder i Norge. Ved å ha en bred system-grense, som omfatter gårdsaktiviteter og innsatsfaktorer som maskiner, kunstgjødsel og pesticider, samt utslipp forbundet med humus mineralisering, ønsker denne studien å gi et grunnlag for å kunne vurdere gjennomsnittlige miljøkonsekvenser forbundet med produksjon av 1 kg korn, samt å vurdere mulig variasjon i belastning mellom regioner og arter.Resultatene viste at utslipp fra åkeren bidro sterkt til miljøkonsekvensene for alle kategorier evaluert, unntatt for toksisitet. Det er derfor av interesse å evaluere mulige tiltak for å minske disse utslippene. Dette gjelder særlig for N$_2$O utslipp assosiert med mineralisering, da disse utslippene var den viktigste stressoren som bidro til klimaendringer. Utslipp fra åkeren var også den viktigste kilden til geografisk variasjon i miljøbelastningen. Resultatene indikerer også at høsthvete var den kornarten som oftest hadde lavest miljøbelastning, per kg produsert. Dette kan i stor grad forklares ved ved at denne arten hadde et høyt utbytte per hektar. Dette viser viktigheten av jordbrukspraksis som optimaliserer utbyttet for å senke miljøbelastningen, per kg produsert. ntnudaim:7234 MSINDECOL Industriell Økologi Environmental Systems Analysis
58	Energy and recycling implications of transitions towards light-weight passenger cars Sivashankar, Pratulya January 2012 (has links) The overall approach to this thesis would be to start off by making a simple system (with the system boundaries) for steel and aluminium in an average car. The purpose of this would be to find out how one material can be used to substitute the other. The next step would involve looking into the historical stocks of steel and aluminium in cars and predict how they will be in the future. This will be done using dynamic MFA. It will be a global study of cars with a high focus on aluminium.The study will also look into the energy consumption and emissions (focusing on the climate change potential from cars). Historical and future emission scenarios will be made. Different scenarios for climate change mitigation will be tested, including light-weighting, a shift to electrical cars (Blue Map Scenario) and many other steel and aluminium related scenarios. The scenarios would be discussed and compared to results from LCA to show how the results are varying. ntnudaim:7231 MSINDECOL Industriell Økologi Environmental Systems Analysis
59	Prepare Russia to meet IPCC 2050, based on dynamic MFA approach for greenhouse gas emissions Volsky, Uladzimir January 2012 (has links) An integrated MFA (Material Flow Analyse) model was developed for Russia, based on the year 2009. Integration was done between MFA, energy and greenhouse gas (GHG).Technologies in all production related processes of aluminium cycle were analyzed. Energy consumption and emissions were calculated throughout the aluminium cycle. This technology information and calculations were used in my scenarios for possible reduction of emissions.After the agreement with my supervisor the historical in-use stock was not done. Assumption here is that demand will increase.A sensitivity analyze was not conducted due the fact that that type of analyze can not be used for large changes in the system.If all scenarios are implemented then the decrease of total GHG emissions in aluminium production in Russia will equal to 22.3% and decrease in the total energy consumption will equal to 38,4%. ntnudaim:7240 MSINDECOL Industriell Økologi Environmental Systems Analysis
60	Life Cycle Assessment of Electricity Generation from Low Temperature Waste Heat : The Influence of Working Fluid Bai, Lijun January 2012 (has links) In the metallurgical industry and in refineries and process industries, there is significant amount of waste heat, it is a challenged field to do the research for producing electricity from the energy of waste heat. Traditionallay, Organic Rankine Cycle(ORC)is used for generating electricity from low temperature heat source. Recently researchers are focusing on the supercritical Rankine cycle which uses CO2 as working fluid for which is more environmental friendly working fluid, possilbe reduced size and better utilization of lower temperature heat source.Currently this technology is under development and there is no manufacturing of this technology that can be observed. In this Master's thesis, the overall environmental impacts caused by the CO2 supercritical cycle will be evaluated:1. What are technologies available for producing electricity from low temperature heat?2. What is the electricity that can be generated from a given amount of heat and what type of equipment is needed for this?3. What are the environmental and resource impacts of this type of equipment, based on analyses of similar types of equipment?4. what is the environmental benefit from energy generation comparing with other fossil and renewable electricity production? 5. A brief economic analysis cosidering the waste heat electricity generation ntnudaim:7230 MSINDECOL Industriell Økologi Environmental Systems Analysis

Search results