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Roadmap towards a Lean and Sustainable Production for Medium Sized Manufacturers: A Case StudyJaghbeer, Yasmeen, Motyka, Yvonne January 2016 (has links)
Trends such as globalization, increased customer demands and the increased sustainability challenge are forcing medium sized manufacturers to rethink their production processes and start developing lean and sustainable production systems.Many of the developed tools and methods for the lean and sustainable production presented in the literature are not well suited for medium sized manufacturers with a lack of empirical case studies, and therefore investigating suitable approaches for improving the production and sustainability performances is needed in their case. This thesis proposes to use a mixture of tools from both the Lean and sustainable development literature for creating a lean and sustainable production roadmap for medium sized manufacturers. It demonstrates a case study conducted at a medium sized roller blind manufacturer who is preparing to introduce lean and enhancing their sustainability at the production to cope with the condensed market and their customer requirements. The study analyzes the manufacturing processes from both the lean and sustainability perspectives, where different tools were adopted and used throughout the work, which are: Value Stream Mapping, Sustainable Life Cycle Assessment, and Sustainability Compliance index, with the data collected through interviews, dialogues, observations, time studies and internal documents. Understanding the company specific problems and value acted as a foundation for further analysis and improvement potentials identification to reach a future lean and sustainable state in the production, which resulted in enhancing the firm´s lean and sustainability performances. This thesis complement the lean initiatives with a sustainability assessment effort to grasp the whole picture and generate ultimate improvement potentials in order to cope with today´s evolving trends and the increased sustainability requirements. A main contribution is the developed guidelines for creating a lean and sustainable production roadmap for medium sized manufacturers, which result in leveraged benefits satisfying both the lean and sustainable needs. / Trender såsom ökad globalisering, nya kundkrav och ökade utmaningar inom hållbarhet, leder till att medelstora tillverkningsföretag tvingas att tänka om gällande produktionsprocesser och börja utveckla koncept inom lean och hållbar produktion.Många av de utvecklade verktygen och metoderna inom lean och hållbar produktion, som återfinns i litteraturen, är inte väl lämpade för medelstora tillverkningsföretag och saknar empiriska fallstudier. Detta motiverar till vidare analys kring lämpliga metoder för att öka prestationen inom produktion och hållbarhet för dessa företag. Denna uppsats går igenom de olika verktyg som finns definierade i litteraturen, både ifrån lean och hållbarhetsutveckling, och föreslår en väg framåt för att skapa en optimerad och hållbar produktion för medelstora tillverkningsföretag.Denna uppsats demonstrerar en fallstudie utförd på en medelstor rullgardinstillverkare som är beredd att introducera lean och öka deras hållbarhetsperspektiv i produktionen. Detta för möta den mättade marknaden och deras kundkrav. Studien analyser tillverkningsprocesserna från både lean och hållbarhetsperspektiv, där olika verktyg har blivit anpassade och testade under hela processen (Value Stream Mapping, Sustainable Life Cycle Assessment och Sustainability Compliance index). Uppgifterna som använts har samlats in genom intervjuer, dialoger, observationer, tidsstudier och intern dokumentation. Förståelse av företagets specifika problem gav en grund för vidare analys, där förbättringspotentialer identifierades för att nå ett framtida lean och hållbarhetsperspektiv i produktionen. Uppsatsens resultat bidrog till reella förbättringar för företaget inom området. Denna uppsats drar slutsatsen att komplettering utav lean initiativ med hållbarhetsutvärdering är nödvändigt för att få fram en helhetsbild kring en optimal förbättringspotential. På så sätt kan företagen bättre klara av dagens nya trender med ökade hållbarhetskrav. De utvecklade riktlinjerna för att skapa en lean och hållbar produktion i ett medelstort tillverkningsföretag resulterar i fördelar som uppfyller kraven både från ett lean och i hållbarhetssynpunkt.
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Couplage entre les régions IIS4S5 et IIIS6 lors de l’activation du canal calcique CaV3.2Demers Giroux, Pierre-Olivier 11 1900 (has links)
Le canal calcique dépendant du voltage de type-T CaV3.2 joue un rôle important dans l’excitabilité neuronale et dans la perception de la douleur. Le canal CaV3.2 partage une grande homologie structurale et fonctionnelle avec les canaux NaV. Ces deux types de canaux sont activés par de faibles dépolarisations membranaires et possèdent des cinétiques de temps d’activation et d’inactivation plus rapides que les canaux CaV de type-L. Les structures cristallines à haute résolution des canaux bactériens NaVAb (Payandeh et al. 2011; Payandeh et al. 2012) et NaVRh (Zhang et al. 2012) suggèrent que l’hélice amphiphile S4S5 du domaine II peut être couplée avec les résidus de l’hélice S6 dans le domaine II ainsi qu’avec des résidus de l’hélice homologue dans le domaine adjacent, soit le domaine III, et ce, durant l’activation du canal. Pour déterminer les résidus fonctionnellement couplés, durant l’activation du canal CaV3.2, une analyse cyclique de doubles mutants a été effectuée par substitution en glycine et alanine des résidus clés entre l’hélice S4S5 du domaine II et le segment S6 des domaines II et III. Les propriétés biophysiques ont été mesurées à l’aide de la technique de « cut-open » sur les ovocytes. Les énergies d’activation ont été mesurées pour 47 mutations ponctuelles et pour 14 paires de mutants. De grandes énergies de couplage (ΔΔGinteract > 2 kcal mol-1) ont été observées pour 3 paires de mutants introduites dans les IIS4S5/IIS6 et IIS4S5/IIIS6. Aucun couplage significatif n’a été observé entre le IIS4S5 et le IVS6. Nos résultats semblent démontrer que les hélices S4S5 et S6 provenant de deux domaines voisins sont couplées durant l’activation du canal calcique de type-T CaV3.2. / Voltage-activated T-type calcium channel CaV3.2 plays an important role in neuronal excitability and in pain perception. CaV3.2 channel bears a strong structural and functional homology with voltage-dependent NaV channels. In particular, these channels are activated by relatively small depolarization and display faster activation and inactivation kinetics than the L-type CaV channel. High-resolution crystal structures of bacterial NaVAb (Payandeh et al. 2011; Payandeh et al. 2012) and NaVRh (Zhang et al. 2012) suggest that the amphiphilic helix S4S5 in Domain II may be coupled with S6 residues both in Domain II and in the adjacent Domain III during channel activation.To determine whether residues in the S4S5 helix of Domain II are functionally coupled with residues in the S6 helix in Domain II and Domain III during the voltage-dependent activation of CaV3.2, a double mutant cycle analysis was performed by introducing pairs of glycine and alanine residues in the S4S5 helix of Domain II and the S6 region of Domains II and III. Biophysical properties were measured with the cut-open oocyte technique. Activation gating was measured for 47 single mutants and 14 pairs of mutants. Strong coupling energies (ΔΔGinteract > 2 kcal mol-1) were reported for 3 pairs of mutants introduced in IIS4S5/IIS6 and IIS4S5/IIIS6. No significant coupling was observed between IIS4S5 and IVS6. Altogether, our results demonstrate that the S4S5 and S6 helices from neighboring domains are energetically coupled during the activation of the low voltage-gated T-type CaV3.2 channel.
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Couplage entre les régions IIS4S5 et IIIS6 lors de l’activation du canal calcique CaV3.2Demers Giroux, Pierre-Olivier 11 1900 (has links)
Le canal calcique dépendant du voltage de type-T CaV3.2 joue un rôle important dans l’excitabilité neuronale et dans la perception de la douleur. Le canal CaV3.2 partage une grande homologie structurale et fonctionnelle avec les canaux NaV. Ces deux types de canaux sont activés par de faibles dépolarisations membranaires et possèdent des cinétiques de temps d’activation et d’inactivation plus rapides que les canaux CaV de type-L. Les structures cristallines à haute résolution des canaux bactériens NaVAb (Payandeh et al. 2011; Payandeh et al. 2012) et NaVRh (Zhang et al. 2012) suggèrent que l’hélice amphiphile S4S5 du domaine II peut être couplée avec les résidus de l’hélice S6 dans le domaine II ainsi qu’avec des résidus de l’hélice homologue dans le domaine adjacent, soit le domaine III, et ce, durant l’activation du canal. Pour déterminer les résidus fonctionnellement couplés, durant l’activation du canal CaV3.2, une analyse cyclique de doubles mutants a été effectuée par substitution en glycine et alanine des résidus clés entre l’hélice S4S5 du domaine II et le segment S6 des domaines II et III. Les propriétés biophysiques ont été mesurées à l’aide de la technique de « cut-open » sur les ovocytes. Les énergies d’activation ont été mesurées pour 47 mutations ponctuelles et pour 14 paires de mutants. De grandes énergies de couplage (ΔΔGinteract > 2 kcal mol-1) ont été observées pour 3 paires de mutants introduites dans les IIS4S5/IIS6 et IIS4S5/IIIS6. Aucun couplage significatif n’a été observé entre le IIS4S5 et le IVS6. Nos résultats semblent démontrer que les hélices S4S5 et S6 provenant de deux domaines voisins sont couplées durant l’activation du canal calcique de type-T CaV3.2. / Voltage-activated T-type calcium channel CaV3.2 plays an important role in neuronal excitability and in pain perception. CaV3.2 channel bears a strong structural and functional homology with voltage-dependent NaV channels. In particular, these channels are activated by relatively small depolarization and display faster activation and inactivation kinetics than the L-type CaV channel. High-resolution crystal structures of bacterial NaVAb (Payandeh et al. 2011; Payandeh et al. 2012) and NaVRh (Zhang et al. 2012) suggest that the amphiphilic helix S4S5 in Domain II may be coupled with S6 residues both in Domain II and in the adjacent Domain III during channel activation.To determine whether residues in the S4S5 helix of Domain II are functionally coupled with residues in the S6 helix in Domain II and Domain III during the voltage-dependent activation of CaV3.2, a double mutant cycle analysis was performed by introducing pairs of glycine and alanine residues in the S4S5 helix of Domain II and the S6 region of Domains II and III. Biophysical properties were measured with the cut-open oocyte technique. Activation gating was measured for 47 single mutants and 14 pairs of mutants. Strong coupling energies (ΔΔGinteract > 2 kcal mol-1) were reported for 3 pairs of mutants introduced in IIS4S5/IIS6 and IIS4S5/IIIS6. No significant coupling was observed between IIS4S5 and IVS6. Altogether, our results demonstrate that the S4S5 and S6 helices from neighboring domains are energetically coupled during the activation of the low voltage-gated T-type CaV3.2 channel.
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Production d'hémicelluloses de pailles et de sons de blé à une échelle pilote. Etude des performances techniques et évaluation environnementale d'un agro-procédé / Production of hemicelluloses from wheat straw and bran at pilote scale : Technical and environmental performances evaluationJacquemin, Leslie 12 December 2012 (has links)
L'objectif de ces travaux vise à évaluer les performances techniques et environnementales d'un procédé de fractionnement et de purification d'hémicelluloses de pailles et sons de blé. La démarche employée consiste dans un premier temps à évaluer la faisabilité du procédé à une échelle pilote. Celui-ci implique notamment une opération de fractionnement par extrusion bi-vis et des étapes de concentration-purification par une combinaison d'ultrafiltration et de chromatographie sur résine. Il est comparé à un procédé plus classique où l'extrait extrudé subit une évaporation et une précipitation éthanolique. L'étude des compositions chimiques des extraits et des poudres produites à chaque étape du procédé permet d'observer que l'extrusion bi-vis donne des rendements plus faibles que d'autres techniques d'extraction, mais présente des avantages en termes d'échelle, de continuité du procédé, et de faibles consommations d'eau. Par ailleurs, l'ultrafiltration est une technique intéressante car elle permet une purification et une concentration des extraits simultanées et la chromatographie sur résine s'est avérée être une solution attractive pour la décoloration des extraits. Dans un second temps, la méthodologie d'analyse du cycle de vie (ACV) a été appliquée au procédé. Celle-ci a mis en avant le fort impact environnemental généré par certaines opérations unitaires et a donné lieu à l'identification de priorités d'actions pour l'amélioration du procédé. Ainsi, le scénario mettant en jeu une combinaison de l'ultrafiltration avec une chromatographie sur résine semble plus avantageux que celui mettant en jeu une évaporation sous vide combinée à une précipitation éthanolique. La démarche employée apporte également des réponses méthodologiques sur la démarche d'ACV appliquée aux procédés : l'importance de prendre en compte différentes méthodes de caractérisation, de tester la sensibilité de l'étude à l'unité fonctionnelle et aux hypothèses initiales ont été mises en avant. Enfin, dans le but de démontrer sa forte potentialité dans le domaine des procédés, l'ACV a été appliquée à certaines opérations unitaires. L'intérêt d'étudier l'influence des conditions opératoires des procédés sur les impacts environnementaux a été démontré. Par ailleurs, la nécessité de développer des outils de modélisation des procédés qui pourront être couplés à ceux de l'ACV afin d'intégrer pleinement les critères environnementaux au dimensionnement des procédés a été mis en avant. / The objective of this work was to evaluate the technical and environmental performance of a fractionation and purification process of hemicelluloses from wheat straw and bran. The approach used was first to assess the feasibility of the process on a pilot scale. This implied setting up twin-screw extrusion, concentration steps by ultrafiltration and a purification step by ion exchange chromatography. It was compared to a more traditional process where the extruded extract was treated by evaporation and ethanol precipitation. Study of the chemical composition of extracts and powders produced at each stage of the process, showed that the twin-screw extrusion gave lower yields than other extraction techniques, but had the advantage in terms of scale, continuity of the process and low water consumption. Furthermore, ultrafiltration is an interesting technique because it allows simultaneous purification and concentration of the extracts, and ion exchange chromatography proved to be an attractive solution for the removal of coloured compounds. In a second step, the life cycle assessment (LCA) methodology was applied to the process. This highlighted the strong environmental impact generated by some unit operations, and resulted in the identification of priorities to improve the process. Thus, the scenario involving a combination of ultrafiltration with ion exchange chromatography appears to be more advantageous than that involving vacuum evaporation combined with ethanol precipitation. The approach used also provides methodological answers for LCA applied to processes: the importance of taking into account different characterization methods, testing the sensitivity of the study to the functional unit, and reconsidering the initial assumptions, has been stressed. Finally, in order to demonstrate its high potential in the field of processes, LCA has been applied to some unit operations. The interest of studying the influence of process operating conditions on environmental impacts has been demonstrated. In addition, the need to develop tools for modelling processes that can be coupled to those of LCA in order to fully integrate environmental criteria into process design, has been highlighted.
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Superstructure Bridge Selection Based on Bridge Life-Cycle Cost AnalysisStefan Leonardo Leiva Maldonado (6853484) 14 August 2019 (has links)
<div>Life cycle cost analysis (LCCA) has been defined as a method to assess the total cost of a project. It is a simple tool to use when a single project has different alternatives that fulfill the original requirements. Different alternatives could differ in initial investment, operational and maintenance costs among other long term costs. The cost involved in building a bridge depends upon many different factors. Moreover, long-term cost needs to be considered to estimate the true overall cost of the project and determine its life-cycle cost. Without watchful consideration of the long-term costs and full life cycle costing, current investment decisions that look attractive could result in a waste of economic resources in the future. This research is focused on short and medium span bridges (between 30-ft and 130-ft) which represents 65\% of the NBI INDIANA bridge inventory. </div><div><br></div><div>Bridges are categorized in three different groups of span ranges. Different superstructure types are considered for both concrete and steel options. Types considered include: bulb tees, AASHTO prestressed beams, slab bridges, prestressed concrete box beams, steel beams, steel girders, folded plate girders and simply supported steel beams for dead load and continuous for live load (SDCL). A design plan composed of simply supported bridges and continuous spans arrangements was carried out. Analysis for short and medium span bridges in Indiana based on LCCA is presented for different span ranges and span configurations. </div><div><br></div><div>Deterministic and stochastic analysis were done for all the span ranges considered. Monte Carlo Simulations (MCS) were used and the categorization of the different superstructure alternatives was done based on stochastic dominance. First, second, almost first and almost second stochastic dominance rules were used to determined the efficient set for each span length and all span configurations. Cost-effective life cycle cost profiles for each superstructure type were proposed. Additionally, the top three cost-effective alternatives for superstructure types depending on the span length are presented as well as the optimum superstructure types set for both simply supported and continuous beams. Results will help designers to consider the most cost-effective bridge solution for new projects, resulting in cost savings for agencies involved.</div>
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Comparative Energy and Carbon Assessment of Three Green Technologies for a Toronto RoofMyrans, Katharine 15 February 2010 (has links)
Three different green technologies are compared in terms of net energy and carbon savings for a theoretical Toronto rooftop. Embodied energy values are calculated through Life Cycle Analysis and compared to the estimated energies produced and/or saved by each technology. Results show that solar photovoltaics displace the most carbon per m2 of roof space and solar thermal (for hot water) displaces the most energy. An in-depth analysis of an intensive green roof for growing food indicates that the high embodied energy of the materials is not quickly repaid by the sum of six energy savings that were examined (direct and indirect cooling, run-off treatment, transport of food, on-farm energy use, and activities that would otherwise be carried out). However, the energy and carbon benefits are not insignificant, but depend strongly on various assumptions. The methodology used is replicable and therefore useful for other locations.
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Comparative Energy and Carbon Assessment of Three Green Technologies for a Toronto RoofMyrans, Katharine 15 February 2010 (has links)
Three different green technologies are compared in terms of net energy and carbon savings for a theoretical Toronto rooftop. Embodied energy values are calculated through Life Cycle Analysis and compared to the estimated energies produced and/or saved by each technology. Results show that solar photovoltaics displace the most carbon per m2 of roof space and solar thermal (for hot water) displaces the most energy. An in-depth analysis of an intensive green roof for growing food indicates that the high embodied energy of the materials is not quickly repaid by the sum of six energy savings that were examined (direct and indirect cooling, run-off treatment, transport of food, on-farm energy use, and activities that would otherwise be carried out). However, the energy and carbon benefits are not insignificant, but depend strongly on various assumptions. The methodology used is replicable and therefore useful for other locations.
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Life Cycle Analysis of Greenhouse Gas Emissions from the Mining and Milling of Uranium in Saskatchewan2015 June 1900 (has links)
This thesis presents a detailed study of life cycle greenhouse gas (GHG) emissions intensity during the uranium mining-milling phase of the nuclear fuel cycle for three paired uranium mine-mill operations in northern Saskatchewan (SK). The study period runs from 2006 – 2013 for two of the three pairs, and from 1995-2010 for the third. The life cycle analysis has been conducted based on the ISO 14040:2006 standard using a Process Chain Analysis methodology.
This study differs from previous studies of GHG emissions intensity during the uranium mining-milling phase of the nuclear fuel cycle in two key respects. First, it has a very large system boundary which includes the uranium exploration and mine-mill decommissioning phases. Second, it utilizes a life cycle inventory database to include many processes which would normally fall outside of the system boundary due to their small individual contributions. These differences contribute to a more accurate result.
The production-weighted average life cycle GHG emissions intensity is estimated as 45 kg CO2e/kg U3O8 at an average ore grade of 9.12% U3O8 based on relative U3O8 production volumes at Mine-Mill A, B, and C from 2006 to 2010. The 95% confidence interval for the production-weighted average result ranges from 42 to 49 kg CO2e/kg U3O8, indicating that overall uncertainty in the result is low. Life cycle GHG emission intensity for the three uranium mine-mill pairs are 84, 66, and 35 kg CO2e/kg U3O8 at average ore grades of 0.71%, 1.54%, and 11.5% U3O8 respectively.
Nearly 90% of life cycle GHG emissions are associated with operation of the uranium mine-mills, primarily from energy consumption during operation (69% of total) transport of materials and personnel (7.0%), and use of reagents (5.6%). Remaining processes each individually account for less than 5% of the total.
In calculating emissions from electricity consumption, the base-case emission intensities reported above use a province-wide electricity emission factor because the utility does not differentiate its emissions by region. However, the facilities included in this study are all located in Northern Saskatchewan, which is powered exclusively by hydropower. Application of a regional emission factor reduces the production-weighted average life cycle GHG emission intensity to 26 kg CO2e/kg U3O8 with a 95% confidence interval of 25 to 29 kg CO2e/kg U3O8. This represents a 42% reduction in life cycle GHG emission intensity from the base case.
Due to the high uranium ore grades found in SK uranium deposits, life cycle GHG emissions intensity for uranium from SK is among the lowest in the world. Further, the life cycle GHG emission intensity estimate from uranium mining-milling in SK is a small (approximately 10%) contributor to the life cycle GHG emissions intensity from the nuclear fuel cycle for light water reactors overall, amounting to approximately 1.2 g CO2e/kWh electricity (0.6 g CO2e/kWh electricity calculated using the regional hydroelectric power source).
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Techno-economic Assessment of Charcoal Production for Carbon SequestrationThakkar, Jignesh A Unknown Date
No description available.
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A MULTI-STAGE DECISION SUPPORT MODEL FOR COORDINATED SUSTAINABLE PRODUCT AND SUPPLY CHAIN DESIGNMetta, Haritha 01 January 2011 (has links)
In this research, a decision support model for coordinating sustainable product and supply chain design decisions is developed using a multi-stage hierarchical approach. The model evaluates alternate product designs and their corresponding supply chain configurations to identify the best product design and the corresponding supply chain configuration that maximizes the economic, environmental and societal benefits. The model considers a total life-cycle approach and incorporates closed-loop flow among multiple product lifecycles. In the first stage, a mixed integer linear programming model is developed to select for each product design an optimal supply chain configuration that maximizes the profit. In the subsequent stages, the economic, environmental and societal multiple life-cycle analysis models are developed which assess the economic, environment and the societal performance of each product design and its optimal supply chain configuration to identify the best product design with highest sustainability benefits.
The decision support model is applied for an example problem to illustrate the procedure for identifying the best sustainable design. Later, the model is applied for a real-time refrigerator case to identify the best refrigerator design that maximizes economic, environmental and societal benefits. Further, sensitivity analysis is performed on the optimization model to study the closed-loop supply chain behavior under various situations. The results indicated that both product and supply chain design criteria significantly influence the performance of the supply chain. The results provided insights into closed-loop supply chain models and their behavior under various situations. Decision support models such as above can help a company identify the best designs that bring highest sustainability benefits, can provide a manager with holistic view and the impact of their design decisions on the supply chain performance and also provide areas for improvement.
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