The Environmental Impact of Portable CPR training : Life Cycle Assessment of Global Mini Anne portable CPR manikin produced by Laerdal Medical

Brickhouse, Leah

January 2023

The healthcare industry is in the business of savings lives, it is also a major contributor of the global carbon footprint. This study aims to develop an environmental assessment of one Global Mini Anne CPR manikin, one of Laerdal Group’s best-selling products, using the Life Cycle Analysis method. The goal is to contribute with an approach that can be used in processes across the organization and help Laerdal achieve its sustainability goals.To conduct the LCA, this report refers to the International Organization for Standardization (ISO)14040 standard for guidance, involving an Inventory analysis or the Life Cycle Inventory, a Life cycle impact assessment, and a Life cycle interpretation. The environmental footprint 3.0 LCIA method produced a result with 16 environmental impacts of the Global Mini Anne. The scope of this study is cradle-togate, which is a representation of the material acquisition, production, and assembly of the product. The total climate change impact of the study was 1,8 kg 𝐶𝑂2equivalent (eq.) for one unit. The results provide data for comparisons to other products in the company’s portfolio and creates an easy connection to their climate accounting tool which focuses on greenhouse gas emissions overview of the entire company’s activities.This study contributes to the current literature by generating an evidence-based assessment of the product and by providing the product team with concrete and actionable information to make improvements to reduce the products’ environmental impact.

: Life cycle assessment

healthcare industry

climate change

environmental footprint

ecodesign

Environmental Sciences

Miljövetenskap

Life cycle assessment applied to the sustainable design of prestressed bridges in coastal environment

Navarro Martínez, Ignacio Javier

07 January 2020

Tesis por compendio / [ES] La sostenibilidad ha ido adquiriendo una presencia relevante en nuestra sociedad desde su primera definición en 1987 por parte de la Comisión Brundtland. Desde entonces, la comunidad científica ha llevado a cabo importantes esfuerzos en el desarrollo de normativas, herramientas y criterios para lograr diseños en esa línea. A pesar de ello, estos esfuerzos no han sido suficientes para lograr trazar un futuro realmente sostenible a corto plazo. Como respuesta al estado actual e insuficiente de desarrollo, las Naciones Unidas han establecido recientemente los Objetivos de Desarrollo Sostenible, los cuales deben alcanzarse en 2030. En dichos Objetivos se atiende explícitamente al papel de las infraestructuras, que se revelan como elementos clave para asegurar la consecución de los mencionados Objetivos. Sin embargo, a pesar de las relevantes implicaciones del diseño de infraestructuras, y a pesar de que la mayoría de las infraestructuras están diseñadas para servir a un grupo significativo de personas durante un periodo intergeneracional de tiempo, el diseño sostenible y resiliente de infraestructuras todavía carece de una metodología estandarizada que considere sus ciclos de vida desde una perspectiva holística. En la actualidad, tanto las metodologías de evaluación del ciclo de vida ambiental como las económicas muestran un estado de desarrollo relativamente maduro. Sin embargo, la dimensión social todavía se considera en estado embrionario, comprometiendo por tanto el empleo de métodos de evaluación multidimensionales de la sostenibilidad. La presente tesis propone una metodología extendida basada en la norma ISO 14040 de enfoque puramente medioambiental para evaluar la sostenibilidad del ciclo de vida de las infraestructuras mediante la consideración simultánea y coherente de las tres dimensiones de la misma, a saber, el medio ambiente, la economía y la sociedad. Se propone aquí una nueva metodología para evaluar las infraestructuras desde la dimensión social, integrando al mismo tiempo dichas evaluaciones en un marco basado en la norma ISO 14040. A continuación, se aplica una técnica de toma de decisión multicriterio para integrar las tres perspectivas. Con el fin de tener en cuenta las incertidumbres no probabilísticas implicadas en la asignación de pesos al emplear dichas técnicas, se propone aquí un nuevo enfoque neutrosófico para la determinación de los pesos resultantes de la aplicación de la técnica AHP con grupos de decisores. Se ha considerado como caso de estudio el diseño sostenible de un puente de hormigón pretensado en un entorno costero para construir la metodología propuesta. El enfoque holístico en la evaluación de la sostenibilidad de las infraestructuras se revela esencial frente a las habituales evaluaciones basadas únicamente en la consideración de la dimensión medioambiental. Se ha observado que el mantenimiento preventivo resulta más sostenible a lo largo del ciclo de vida en comparación con las estrategias de mantenimiento reactivo. Esta tesis proporciona una guía para el diseño sostenible de estructuras de hormigón, aunque la metodología sugerida puede aplicarse a cualquier tipo de infraestructura. / [CA] La sostenibilitat ha anat adquirint una presència rellevant en la nostra societat des de la seva primera definició el 1987 per part de la Comissió Brundtland. Des de llavors, la comunitat científica ha dut a terme importants esforços en el desenvolupament de normatives, eines i criteris per aconseguir dissenys sostenibles. Tot i això, aquests esforços no han estat suficients per aconseguir traçar un futur realment sostenible a curt termini. Com a resposta a l'estat actual i insuficient de desenvolupament, les Nacions Unides han establert recentment els Objectius de Desenvolupament Sostenible, els quals s'han d'assolir en 2030. En aquests Objectius s'atén explícitament al paper de les infraestructures, que es revelen com a elements clau per assegurar la consecució dels esmentats Objectius. No obstant això, tot i les rellevants implicacions del disseny d'infraestructures, i tot i que la majoria de les infraestructures estan dissenyades per servir a un grup significatiu de persones durant un període intergeneracional de temps, el disseny sostenible i resilient d'infraestructures encara no té una metodologia estandarditzada per determinar la seva sostenibilitat al llarg dels seus cicles de vida des d'una perspectiva holística. En l'actualitat, tant les metodologies d'avaluació del cicle de vida ambiental com les econòmiques mostren un estat de desenvolupament relativament madur. No obstant això, la dimensió social encara es considera en estat embrionari, comprometent per tant el desenvolupament de mètodes d'avaluació multidimensionals de la sostenibilitat. La present tesi proposa una metodologia basada en la norma ISO 14040 d'orientació mediambiental per avaluar la sostenibilitat del cicle de vida de les infraestructures mitjançant la consideració simultània i coherent de les tres dimensions de la sostenibilitat, és a dir, el medi ambient, l'economia i la societat. Es proposa aquí una nova metodologia per avaluar les infraestructures des de la dimensió social, integrant al mateix temps aquestes avaluacions en un marc basat en la norma ISO 14040. A continuació, s'aplica una tècnica de presa de decisió multicriteri per integrar les tres dimensions de la sostenibilitat. Per tal de tenir en compte les incerteses no probabilístiques implicades en l'assignació de pesos a l'emprar aquestes tècniques, es proposa aquí un nou enfocament neutrosófic per a la determinació dels pesos resultants de l'aplicació de la tècnica AHP amb grups de decisors. S'ha considerat com a cas d'estudi el disseny sostenible d'un pont de formigó pretesat en un entorn costaner per construir la metodologia proposada. L'enfocament holístic en l'avaluació de la sostenibilitat de les infraestructures es revela essencial en contrast a les habituals avaluacions de la sostenibilitat basades únicament en la consideració de la dimensió mediambiental. S'ha observat que el manteniment preventiu resulta en millors valors de rendiment de sostenibilitat del cicle de vida en comparació amb les estratègies de manteniment reactiu. Aquesta tesi proporciona una guia per al disseny sostenible d'estructures de formigó, encara que la metodologia sugerida pot aplicar-se a qualsevol tipus d'infraestructura. / [EN] Sustainability has gained relevant presence in our society since its first definition in 1987 by the Brundtland Commission. Ever since, the scientific community has put significant efforts in the development of standards, tools and criteria to reach sustainable designs. Notwithstanding the above, such efforts have not been enough to outline a truly sustainable future in the short term. As a response to the actual, insufficient state of development, the United Nations have recently established the Sustainable Development Goals to be reached by 2030. In such Goals, explicit attention is paid to the role of infrastructures, which are revealed as key elements to ensure the achievement of the mentioned Goals. However, despite the relevant implications of infrastructure design, and despite the fact that most infrastructures are designed to serve a significant group of people over an intergenerational period of time, the design of sustainable and resilient infrastructures is still lacking of a standarised methodology to determine their sustainability along their life cycles from a holistic perspective. Currently, both the environmental and the economic life cycle assessment methodologies show a relatively mature state of development. However, the social dimension is still considered to be in an embryonic state, thus compromising the use of multidimensional sustainability assessment methods. The present thesis proposes an extended methodology based on the environmentally oriented ISO 14040 standard to evaluate the life cycle sustainability of infrastructures through the simultaneous and consistent consideration of the three dimensions of sustainability, namely environment, economy and society. A new methodology is suggested here so as to assess infrastructures from a social dimension, while integrating such assessments into an ISO 14040 based framework. A multi criteria decision making technique is then applied to integrate the three sustainability dimensions into one single assessment. So as to take into consideration the non-probabilistic uncertainties involved in subjective weighting techniques, a novel neutrosophic approach for group AHP weights determination is proposed here. The sustainable design of a prestressed concrete bridge in a coastal environment is assumed as a conducting case study on which to construct the proposed methodology. The holistic approach in the sustainability assessment of infrastructures reveals itself to be essential rather than the usually conducted sustainability assessments based on the sole consideration of the environmental dimension. It has been observed that preventive maintenance results in better life cycle sustainability performance values when compared with reactive maintenance strategies. This thesis provides a guide for the sustainable design of concrete structures, although the suggested methodology can be applied to any type of infrastructure. / Navarro Martínez, IJ. (2019). Life cycle assessment applied to the sustainable design of prestressed bridges in coastal environment [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/134054 / Compendio

Sustainability

Life cycle assessment

Corrosion

Maintenance

Reliability

Neutrosophic logic

AHP

INGENIERIA DE LA CONSTRUCCION

Properties of geopolymers sourced from construction and demolition waste: A review

Alhawat, Musab M., Ashour, Ashraf, Yildirim, Gurkan, Sahmaran, M.

13 April 2022

Yes / Geopolymers have been recognised as a viable replacement to ordinary Portland cement (OPC), providing a cleaner solution since it can significantly reduce greenhouse gas emissions as well as accomplishing effective waste recycling. Construction and demolition waste (CDW) has been recently identified as raw materials for geopolymers due to its availability and high contents of silica and alumina. This paper aimed at reviewing the current state-of-the-art on the geopolymer paste, mortar, and concrete production and their properties, with special attention paid to geopolymers incorporating CDWs. The review covers brief assessment of using CDWs in concrete, the mix design of geopolymer mixtures in addition to identification of the main factors influencing the performance of geopolymer containing CDW. The most recent data related to the mechanical and durability properties of CDW-based geopolymers are presented, while the cost and environmental impacts of using recycled materials in producing geopolymer concretes are also discussed. Geopolymer concretes have a vast range of possible applications, however, there are still several barriers facing commercialisation of geopolymers in construction industry. The review indicated that it is possible to produce geopolymer concretes from CDW-based materials with properties comparable to OPC-based ones; however, the selection of proper material composition should be carefully considered, especially under normal curing conditions.

Construction and demolition waste

CDW

Geopolymer concrete

Life cycle assessment

Mechanical properties

Mix design

Sodium silicate

Simulation of steam gasification in a fluidized bed reactor with energy self-sufficient condition

Suwatthikul, A., Limprachaya, S., Kittisupakorn, P., Mujtaba, Iqbal

06 March 2017

Yes / The biomass gasification process is widely accepted as a popular technology to produce fuel for the application in gas turbines and Organic Rankine Cycle (ORC). Chemical reactions of this process can be separated into three reaction zones: pyrolysis, combustion, and reduction. In this study, sensitivity analysis with respect to three input parameters (gasification temperature, equivalence ratio, and steam-to-biomass ratio) has been carried out to achieve energy self-sufficient conditions in a steam gasification process under the criteria that the carbon conversion efficiency must be more than 70%, and carbon dioxide gas is lower than 20%. Simulation models of the steam gasification process have been carried out by ASPEN Plus and validated with both experimental data and simulation results from Nikoo & Mahinpey (2008). Gasification temperature of 911 °C, equivalence ratio of 0.18, and a steam-to-biomass ratio of 1.78, are considered as an optimal operation point to achieve energy self-sufficient condition. This operating point gives the maximum of carbon conversion efficiency at 91.03%, and carbon dioxide gas at 15.18 volumetric percentages. In this study, life cycle assessment (LCA) is included to compare the environmental performance of conventional and energy self-sufficient gasification for steam biomass gasification. / Financing of this research was supported by the Thailand Research Fund (TRF) under Grant Number PHD57I0054 and the Institutional Research Grant by the Thailand Research Fund (TRF) under Grant Number IRG 5780014 and Chulalongkorn University, Contact No. RES_57_411_21_076.

Energy self-sufficient

Fluidized bed gasifier

ASPEN Plus

Life cycle assessment (LCA)

Environmental Life Cycle Costing (ELCC) für Produkte der Solarenergie

Krause, Marcus

17 April 2013

Vor dem Hintergrund der zukünftigen Notwendigkeit einer nachhaltigen Energieversorgung beschäftigt sich die vorliegende Arbeit mit Technologien der regenerativen Energiequelle Solarenergie, insbesondere Photovoltaik (PV). Systeme zur Nutzung der unerschöpflich verfügbaren, sauberen und im Prinzip “frei Haus” gelieferten Energie der Sonne können eine bedeutsame Rolle in einer umweltverträglicheren Zukunft spielen. Allerdings ist die Herstellung der erforderlichen Komponenten heute i.d.R. noch energie- und kostenintensiv, weshalb für eine korrekte Bewertung dieser Technologien der gesamte Lebenszyklus betrachtet werden muss. Zur tieferen Analyse der PV wird die Methodik des Environmental Life Cycle Costing (ELCC) auf der Grundlage von drei Grundideen eingeführt. Konkret sind dies die Ausgangspunkte: Nachhaltigkeit, Lebenszyklusdenken und die Drei-Dimensionalität dieses Instrumentes durch die gemeinsame Betrachtung ökologischer, ökonomischer und technischer Aspekte in ihrem Zusammenspiel. Ausgehend von theoretischen Elementen der Ökobilanzierung (Life Cycle Assessment) und des Life Cycle Costings, verbunden mit den technischen Eigenschaften der Photovoltaik werden wichtigste Anforderungen und Schritte für die Durchführung eines ELCC für PV beschrieben. Mittels einer softwaregestützten Inhaltsanalyse wird im Anschluss der definierte Rahmen für ein ELCC für PV getestet (und modifiziert) gegen eine Auswahl von 135 bereits existierender Studien, die sich mit dem Lebenszyklus von PV-Technologien aus ökologischer und ökonomischer Sicht beschäftigen. Im Ergebnis hieraus können die wichtigsten Elemente eines ELCC für PV, wie beispielsweise ökologische Wirkungskategorien oder ökonomische Indikatoren, identifiziert werden (methodisches Feedback). In einem nächsten Schritt werden die Studien hinsichtlich ihrer “Qualität” bezogen auf ökologische, ökonomische und übergreifende Inhalte eines ELCC für PV bewertet. Auf diese Weise kann ein Inventar von Lebenszyklusanalysen für PV erstellt werden, das nach den Technologien und der inhaltlichen Qualität bezüglich eines ELCC strukturiert ist und für weitere Analysen als Grundlage dienen kann. Aus den bisherigen Ergebissen kann eine erste Einschätzung zum aktuellen Stand des ELCC für PV in der Literatur vorgenommen werden: Es existiert bereits ein großer Pool von Studien, die sich mit dem Lebenszyklus der PV beschäftigen. Mit Blick auf die Anforderungen eines ELCC für PV besteht jedoch Nachholbedarf in der Verbindung und gemeinsamen Betrachtung von hot spots und trade offs aus ökologischer und ökonomischer Perspektive. Der definierte theoretische Rahmen für ein ELCC für PV, die kodierten Studien sowie das erstellte Inventar von Lebenszyklusanalysen der PV können nun als Grundlage für weitere Analysen dienen. Insbesondere eine inhaltliche Auswertung der konkreten Ergebnisse von Studien kann so einen Benchmark und Orientierung für neue Lebenszyklusanalysen für PV-Technologien liefern. / The special need of a sustainable energy supply in mind the technologies of the renewable source solar energy, especially photovoltaics (PV) is main subject of the present thesis. Using the inexhaustible, clean and “freely delievered” power from the sun solar devices may play a major role in a cleaner future, but, on the other hand, they are still energy consuming and expensive in their production which consequently demands a whole life cycle perspective when assessing this technology. For a closer look at PV the methodology of Environmental Life Cycle Costing (ELCC) is introduced by following three theoretical points of view. Namely these are sustainability, life cycle thinking and the three dimensional nature of this tool by regarding environmental, economic and technical aspects in their interaction. Based on theoretical elements of Life Cycle Assessment and Life Cycle Costing in combination with the technical background of photovoltaics main requirements and steps for performing an ELCC for PV are described. By executing software based content analysis the defined framework is checked (and modified) against a choice of 135 existing studies analyzing the life cycle of PV technologies from an environmental or economic perspective. As a result the main elements of an ELCC for PV, e.g. environmental impact categories and economic indicators, are identified (methodological feedback). Within the next step the existing studies are rated by their “quality” regarding the environmental, economic and more general parts of an ELCC for PV in order to create an inventory of life cycle studies for PV. This inventory is structured by technologies as well as quality of content respecting ELCC and might be used for further analyses. At this stage the results propose the possibility of a first estimate of the present status of ELCC for PV: until now there is a good pool of existing analyses of the life cycle of PV systems. But from an ELCC perspective the examination of common hot spots and trade offs between economic and environmental aspects should be expanded. The theoretical framework of ELCC for PV, the encoded studies and the inventory of life cycle analyses for PV are now the starting point for further analyses, especially of the individual outcome within studies, which will then pose a benchmark for new life cycle studies of PV technology.

Life Cycle Assessment

Life Cycle Costing

Environmental Life Cycle Costing

Photovoltaik

Solarzelle

Solarmodul

Solar Panel

Life Cycle Assessment

Life Cycle Costing

Environmental Life Cycle Costing

Photovoltaic

Solar Cell

Solar Module

Solar Panel

ddc:330

rvk:QT 800

Development of a worldwide-regionalised Water Supply mix in Life Cycle Assessment / Développement d'un mix d'approvisionnement en eau au niveau mondial pour l'Analyse du Cycle de Vie

Leão, Susana

23 April 2018

Les services de distribution d’eau utilisent différentes ressources (eaux de surface et eaux souterraines), y compris une utilisation accrue de ressources alternatives (eau dessalée, eau réutilisée, transferts d'eau entre bassins) pour alimenter les différents utilisateurs (domestiques, agricoles, industriels, etc.). La combinaison de ces ressources en eau avec des technologies (incluant infrastructures, fonctionnement et énergie) donne lieu à une combinaison régionale d'approvisionnement en eau (WSmix) pour chaque utilisation spécifique. Actuellement, les bases de données existantes d'inventaire du cycle de vie (ICV) utilisées en Analyse du Cycle de Vie (ACV) ne proposent pas ce type de données relative aux WSmix régionalisées pour modéliser des processus. Ceci conduit à une représentation médiocre des systèmes d'approvisionnement en eau et des impacts environnementaux associés. Pour combler cette lacune, cette thèse développe (i) un cadre conceptuel cohérent de mix d'approvisionnement en eau (WSmix) pour la mise en oeuvre en ACV, (ii) une base de données opérationnelle incluant le mix de ressource en eau pour différents utilisateurs à l'échelle mondiale adossée à une matrice dite « technologique » associant chaque ressource à des technologies de production d'eau. Afin de tester en ACV l'opérationnalisation et l'applicabilité du mix WSmix à l'échelle mondiale et pour différents utilisateurs, le concept de WSmix est appliqué à deux exemples contrastés: un service (fourniture d’un m3 d’eau publique à la porte de l’utilisateur) et un produit global (production d’un kg maïs). Enfin, pour évaluer dans quelle mesure le WSmix sera affecté par les changements climatiques et socio-économiques, cette thèse propose le développement d'un WSmix Prospectif (P-WSmix) pour une mise en oeuvre pratique dans les études d'ACV et d'empreinte sur l'eau. / Water utilities draw different water sources (surface and groundwater), including increased use of alternative sources (e.g. desalinated water, reused water, inter-basin water transfers) to supply freshwater to different users (domestic, agriculture, etc.). The combination of water sources and technologies (including infrastructures and energy) results in a regional water supply mix (WSmix) for each specific use. Existing Life Cycle Inventory (LCI) databases used in Life Cycle Assessment (LCA), do not include these mixes when modelling processes, leading to a poor representation of water supply systems and related environmental impacts. To fill this gap, this thesis developes 1) consistent water supply mix (WSmix) model for implementation in LCA, 2) a first database of water source mixes for different users at a global scale and a technological matrix linking water sources to water production technologies in order to operationalize the practical implementation of the WSmix in LCA studies. In order to test the operationalization and applicability of the WSmix at worldwide scale and for different users, this theseis also describes the operationalization and application of the WSmix for two different water users worldwide with two different approaches: providing a generic service (public water supply) and producing a global product (maize production). Finally, to evaluate to what extent the WSmix will be affected by climate and socio-economic changes in the future, this thesis describes the development of a Prospective WSmix (P-WSmix) for practical implementation in LCA and water footprint studies.

Analyse du Cycle de Vie

Empreinte sur l'eau

Inventaire du Cycle de Vie

Scénarios prospectifs

Mix de l'approvisionnement en eau.

Opérationnalisation

Life Cycle Assessment

Life Cycle Assessment

Life Cycle Inventory

Water Supply mix

Water supply mix

Operationalization

Assessment of media and communication from a sustainability perspective

Moberg, Åsa

January 2010

This thesis aims to assess potential environmental impacts of media and communication and to contribute to the development of methods for sustainability assessment. Although the main focus is on printed and electronic media products and environmental impacts, a broader sector analysis is also included and social aspects are discussed. The thesis provides a review of different environmental assessment tools in order to better understand their relationships and the appropriateness of different tools in different situations. Life cycle assessment (LCA) is used to assess printed and electronic versions of newspapers, books and invoices. Results of the screening LCAs of newspapers and books indicate that when comparing printed and electronic versions there are benefits and drawbacks for both. For news and books read on e-reading devices with energy efficient e-ink screens, the main environmental impacts in the studies stemmed from the production of the device and partly from disposal, with the latter having the potential to reduce some environmental impacts through recycling of materials. However, there are data gaps regarding the production of the e-reading devices, most notably for the e-ink screen and the waste management of obsolete e-reading devices. Existing data on internet energy use are uncertain. The potential impacts from a hypothetical total change from paper invoices to electronic invoices in Sweden were assessed through a screening consequential LCA regarding greenhouse gas emissions and cumulative energy demand. The results indicate that emissions and energy demand could decrease as a result of a change. The screening LCAs performed indicate that users’ practices could substantially influence the environmental impacts. Key factors which can influence results and comparisons of printed and electronic media products are total use of electronic devices, total use of printed media, amount and type of paper, energy use of electronic devices, potential printing of electronic media, electricity mix, and the system boundaries set for the assessments. To get a wider perspective, a sector study of the ICT sector and media sector concerning global greenhouse gas emissions and operational electricity use was performed. It was estimated that the contribution to global greenhouse gas emissions in 2007 was roughly 1-2 % for each sector. To assess media and communication products from a sustainability perspective, social aspects should also be covered. The author participated in an international project group on social aspects and LCA, one outcome from which was guidelines for social LCA (S-LCA). In addition to providing guidance for S-LCA, another important role of the guidelines is to facilitate discussions, criticism and proposals for improvement and development of the methodology being developed. The LCA and sector studies in this thesis are limited to direct and to some extent indirect environmental impacts. Further studies of the environmental impacts of more long-term changes in practices and potential structural changes, as well as potential social impacts, could provide important additional insights. This could increase the possibility of facilitating sustainable practices related to ICT and media. / QC 20100610

electronic media

e-reading device

print media

newspaper

book

invoice

environmental assessment

life cycle assessment (LCA)

social life cycle assessment (S-LCA)

sector analysis

INTERDISCIPLINARY RESEARCH AREAS

TVÄRVETENSKAPLIGA FORSKNINGSOMRÅDEN

Environmental engineering

Miljöteknik

NATURAL SCIENCES

NATURVETENSKAP

Nutritional, environmental optimization and sustainability communication of food productions

RISCAZZI, PAOLA

21 February 2013

La presente tesi inizia con un’analisi dell’aspetto nutrizionale degli alimenti. In particolare, è stato discusso il concetto di dieta equilibrata, con riferimento ai principi della “dieta mediterranea”. Proprio da questo modello alimentare trae ispirazione la “ottimazione”, una tecnica sviluppata e utilizzata per programmare pasti conformi a specifici standard nutrizionali (15/30/55 tra proteine, lipidi e carboidrati sull’apporto energetico totale, proporzioni tipicamente mediterranee). Tali preparazioni alimentari sono state testate anche attraverso metodi di analisi sensoriale. Il passaggio successivo è stato l’estensione del concetto di “ottimizzazione nutrizionale” a quello di “ottimizzazione ambientale”, dovuto all’ipotizzato minor impatto ambientale della dieta mediterranea. Il LCA (Life Cycle Assessment) è la tecnica che è stata utilizzata per valutare l’impatto ambientale di alcuni prodotti alimentari, quali verdure surgelate, un salume e un formaggio. Un ulteriore passaggio è stata la creazione di uno strumento di comunicazione, una nuova etichetta ambientale, realizzata per essere utilizzata dalle aziende per comunicare le loro performance ambientali e quindi il loro impegno al miglioramento continuo, e dai consumatori per ottenere maggiori informazioni sull’impatto ambientale dei prodotti acquistati quotidianamente, al fine di accrescere il proprio senso critico ed effettuare acquisti consapevoli. / The thesis begins with an analysis of the nutritional aspects of foods. In particular, the concept of balanced diet has been discussed, by referring to the principles of "mediterranean diet". Just from this food model, the “optimation” draws inspiration, a technique developed and used to plan meals consistent with specific nutritional standards (15/30/55 between protein, fat and carbohydrate on the total energy intake, typically Mediterranean). These food preparations have been tested through sensory analysis methods. The next step is the extension of "nutritional optimization" concept to the "environmental optimization” one, owing to the presumed lower environmental impact of the Mediterranean diet. LCA (Life Cycle Assessment) is the technique used to assess the environmental impact of various food products, such as frozen vegetables, cured meats, dairy products. A further step is the creation of a communication tool, a new environmental label, designed to be used by companies to communicate their environmental performance and therefore their commitment to continuous improvement, and by consumers to obtain more information on the environmental impact of the foods daily consumed, in order to increase their critical sense and make purchases in a conscious way.

AGR/15: SCIENZE E TECNOLOGIE ALIMENTARI

AGR/13: CHIMICA AGRARIA

Environmental Life Cycle Costing (ELCC) für Produkte der Solarenergie: Die Verbindung von Life Cycle Assessment (LCA) und Life Cycle Costing (LCC) - from Cradle to Grave - angewandt auf die Photovoltaik. Anforderungen bei der Durchführung und aktueller Stand in der Praxis

Krause, Marcus

January 2011

Vor dem Hintergrund der zukünftigen Notwendigkeit einer nachhaltigen Energieversorgung beschäftigt sich die vorliegende Arbeit mit Technologien der regenerativen Energiequelle Solarenergie, insbesondere Photovoltaik (PV). Systeme zur Nutzung der unerschöpflich verfügbaren, sauberen und im Prinzip “frei Haus” gelieferten Energie der Sonne können eine bedeutsame Rolle in einer umweltverträglicheren Zukunft spielen. Allerdings ist die Herstellung der erforderlichen Komponenten heute i.d.R. noch energie- und kostenintensiv, weshalb für eine korrekte Bewertung dieser Technologien der gesamte Lebenszyklus betrachtet werden muss. Zur tieferen Analyse der PV wird die Methodik des Environmental Life Cycle Costing (ELCC) auf der Grundlage von drei Grundideen eingeführt. Konkret sind dies die Ausgangspunkte: Nachhaltigkeit, Lebenszyklusdenken und die Drei-Dimensionalität dieses Instrumentes durch die gemeinsame Betrachtung ökologischer, ökonomischer und technischer Aspekte in ihrem Zusammenspiel. Ausgehend von theoretischen Elementen der Ökobilanzierung (Life Cycle Assessment) und des Life Cycle Costings, verbunden mit den technischen Eigenschaften der Photovoltaik werden wichtigste Anforderungen und Schritte für die Durchführung eines ELCC für PV beschrieben. Mittels einer softwaregestützten Inhaltsanalyse wird im Anschluss der definierte Rahmen für ein ELCC für PV getestet (und modifiziert) gegen eine Auswahl von 135 bereits existierender Studien, die sich mit dem Lebenszyklus von PV-Technologien aus ökologischer und ökonomischer Sicht beschäftigen. Im Ergebnis hieraus können die wichtigsten Elemente eines ELCC für PV, wie beispielsweise ökologische Wirkungskategorien oder ökonomische Indikatoren, identifiziert werden (methodisches Feedback). In einem nächsten Schritt werden die Studien hinsichtlich ihrer “Qualität” bezogen auf ökologische, ökonomische und übergreifende Inhalte eines ELCC für PV bewertet. Auf diese Weise kann ein Inventar von Lebenszyklusanalysen für PV erstellt werden, das nach den Technologien und der inhaltlichen Qualität bezüglich eines ELCC strukturiert ist und für weitere Analysen als Grundlage dienen kann. Aus den bisherigen Ergebissen kann eine erste Einschätzung zum aktuellen Stand des ELCC für PV in der Literatur vorgenommen werden: Es existiert bereits ein großer Pool von Studien, die sich mit dem Lebenszyklus der PV beschäftigen. Mit Blick auf die Anforderungen eines ELCC für PV besteht jedoch Nachholbedarf in der Verbindung und gemeinsamen Betrachtung von hot spots und trade offs aus ökologischer und ökonomischer Perspektive. Der definierte theoretische Rahmen für ein ELCC für PV, die kodierten Studien sowie das erstellte Inventar von Lebenszyklusanalysen der PV können nun als Grundlage für weitere Analysen dienen. Insbesondere eine inhaltliche Auswertung der konkreten Ergebnisse von Studien kann so einen Benchmark und Orientierung für neue Lebenszyklusanalysen für PV-Technologien liefern. / The special need of a sustainable energy supply in mind the technologies of the renewable source solar energy, especially photovoltaics (PV) is main subject of the present thesis. Using the inexhaustible, clean and “freely delievered” power from the sun solar devices may play a major role in a cleaner future, but, on the other hand, they are still energy consuming and expensive in their production which consequently demands a whole life cycle perspective when assessing this technology. For a closer look at PV the methodology of Environmental Life Cycle Costing (ELCC) is introduced by following three theoretical points of view. Namely these are sustainability, life cycle thinking and the three dimensional nature of this tool by regarding environmental, economic and technical aspects in their interaction. Based on theoretical elements of Life Cycle Assessment and Life Cycle Costing in combination with the technical background of photovoltaics main requirements and steps for performing an ELCC for PV are described. By executing software based content analysis the defined framework is checked (and modified) against a choice of 135 existing studies analyzing the life cycle of PV technologies from an environmental or economic perspective. As a result the main elements of an ELCC for PV, e.g. environmental impact categories and economic indicators, are identified (methodological feedback). Within the next step the existing studies are rated by their “quality” regarding the environmental, economic and more general parts of an ELCC for PV in order to create an inventory of life cycle studies for PV. This inventory is structured by technologies as well as quality of content respecting ELCC and might be used for further analyses. At this stage the results propose the possibility of a first estimate of the present status of ELCC for PV: until now there is a good pool of existing analyses of the life cycle of PV systems. But from an ELCC perspective the examination of common hot spots and trade offs between economic and environmental aspects should be expanded. The theoretical framework of ELCC for PV, the encoded studies and the inventory of life cycle analyses for PV are now the starting point for further analyses, especially of the individual outcome within studies, which will then pose a benchmark for new life cycle studies of PV technology.

info:eu-repo/classification/ddc/330

ddc:330

Life Cycle Assessment of Lightweight Electric Motorbikes : Case Study - RIDECAKE / Livscykelbedömning av lätta elektriska motorcyklar : Fallstudie - Ridecake

Englert, Savitri Visvanathan

January 2023

The electric vehicle segments of companies have broadened, and their sales have increased in the past decade. The electric motorcycle sector is growing fast, with improved technology on electric powertrains, increased ranges, charging speeds, and infrastructure. Parallel to the increased sales, the electric battery sector is advancing rapidly, thereby lowering the environmental impacts of these vehicles. The competitive adventure sports sector also benefits from using electric powertrains with their incredible power-to-weight ratio and instant torque. The benefits of using electric vehicles over conventional ones can be seen during the use phase, with zero tailpipe emissions and clean, silent riding.   However, with the expansion of the electric motorcycle sector rolling out new technologies and models, there are uncertainties about whether the overall lifecycle has reduced impacts on the environment. Finding and improving the most sustainable model(s) or solution(s) implies scrutinizing the effects of these motorcycles on the environment, which is the goal of CAKE 0 Emission AB, a Swedish lightweight electric motorbike manufacturer.   The current project will assess the potential environmental impacts of Kalk&, an off-road electric motorcycle model certified for on-road use, designed, and manufactured by CAKE 0 Emission AB. For this purpose, Attributional Life Cycle Assessment was chosen as the method to study the impact of one whole motorbike over a lifetime of 500 battery charging cycles, used by a hypothetical example user in Stockholm, Sweden. The potential environmental impacts are focused on 12 categories using the ReCiPe Midpoint (H) method.   As expected from an electric vehicle, the results show that the impacts mainly stem from the manufacturing phase of the motorbike. The hotspots in the manufacturing phase arise from producing the battery, the electric motor, and the electrical components like lights, the charger, and cables. The materials used for construction that have a high share of impact are Copper and Aluminium. Another environmental hotspot is the casting manufacturing process. Within the vehicle use phase, the impact of using solar energy in Sweden for charging the batteries is not immediately intuitive and has shown to be higher than the Swedish electricity board mix; the results argue that the choice of electricity is vital in reducing emissions. Transporting the vehicle overseas by ship instead of by flight decreases emissions by about 82% to 97% within the various impact categories.   A sensitivity scenario was created for a hypothetical user in Barcelona, Spain, to better understand the influence of the selected lifetime and user behavior on the impacts. The results indicate that using an additional battery and thereby increasing the lifetime of the vehicle shows a 34% decrease in emissions per km driven within the lifetime of the motorcycle. Lastly, it is recommended whenever possible to source the numerous components of the vehicle closer to the assembly unit to reduce the transportation impacts incurred from transoceanic freight. / Företagens elfordonssegment har breddats och deras försäljning har ökat under det senaste decenniet. Den elektriska motorcykelsektorn växer snabbt, med förbättrad teknik på elektriska drivlinor, ökade räckvidder, laddningshastigheter och infrastruktur. Parallellt med den ökade försäljningen går elbatterisektorn snabbt framåt, vilket minskar miljöpåverkan från dessa fordon. Den konkurrensutsatta äventyrssportsektorn drar också nytta av att använda elektriska drivlinor med deras otroliga kraft-till-vikt-förhållande och omedelbara vridmoment. Fördelarna med att använda elfordon framför konventionella kan ses under användningsfasen, med noll avgasutsläpp och ren, tyst körning.  Men med expansionen av elmotorcykelsektorn som rullar ut nya tekniker och modeller, finns det osäkerheter om huruvida den övergripande livscykeln har minskat miljöpåverkan. Att hitta och förbättra de mest hållbara modellerna eller lösningarna innebär att man granskar dessa motorcyklars effekter på miljön, vilket är målet för CAKE 0 Emission AB, en svensk lättviktstillverkare av elmotorcykel.  Det aktuella projektet kommer att bedöma de potentiella miljöeffekterna av Kalk&, en terrängmodell av elektrisk motorcykel certifierad för användning på väg, designad och tillverkad av CAKE 0 Emission AB. För detta ändamål valdes Attributional Life Cycle Assessment som metoden för att studera effekten av en hel motorcykel under en livstid på 500 batteriladdningscykler, som används av en hypotetisk exempelanvändare i Stockholm, Sverige. Den potentiella miljöpåverkan är fokuserad på 12 kategorier med hjälp av metoden ReCiPe Midpoint (H).  Som förväntat av ett elfordon visar resultaten att effekterna huvudsakligen härrör från motorcykelns tillverkningsfas. Hotspots i tillverkningsfasen uppstår från att producera batteriet, elmotorn och de elektriska komponenterna som lampor, laddare och kablar. De material som används för konstruktion som har en hög andel av påverkan är koppar och aluminium. En annan miljömässig hotspot är tillverkningsprocessen för gjutning. Inom fordonsanvändningsfasen är effekten av att använda solenergi i Sverige för att ladda batterierna inte direkt intuitiv och har visat sig vara högre än den svenska elkortsmixen; resultaten talar för att valet av el är avgörande för att minska utsläppen. Att transportera fordonet utomlands med fartyg istället för med flyg minskar utsläppen med cirka 82% till 97% inom de olika påverkanskategorierna.  Ett känslighetsscenario skapades för en hypotetisk användare i Barcelona, Spanien, för att bättre förstå inverkan av den valda livslängden och användarbeteendet på effekterna. Resultaten indikerar att användning av ett extra batteri och därmed ökad livslängd på fordonet visar en 34% minskning av utsläppen per körd km under motorcykelns livslängd. Slutligen rekommenderas det när det är möjligt att köpa de många komponenterna i fordonet närmare monteringsenheten för att minska transportpåverkan från transoceanisk frakt.  Note: The abstract has been translated to Swedish from English using Google Translate

nvironmental impact

two-wheel motorcycle

lithium-ion battery

transportation

BEV (Battery Electric Vehicle)

Life Cycle Assessment (LCA)

miljöpåverkan

våhjulig motorcykel

litiumjonbatteri

transport

BEV (Batteri elektriskt fordon)

Life Cycle Assessment (LCA)

Engineering and Technology

Teknik och teknologier