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Products in environmental management systems : drivers, barriers and experiencesAmmenberg, Jonas, Sundin, Erik January 2005 (has links)
Do standardised environmental management systems (EMS) lead to improved environmental performance? This depends on to what extent these systems lead to changes in important flows of material and energy, which for manufacturing companies, in turn, mean that the product development process is important. Consequently, it appears vital to investigate the connection between EMS and ‘Design for the Environment’ (DFE), i.e. the connection between these management systems and concepts that deal with environmental issues in product development. This paper presents product-oriented environmental management systems (POEMS), including characteristics of existing models, experiences from projects where these models have been tested and experiences concerning the product connection in ‘normal’ EMS. It includes a discussion of important factors influencing to what extent DFE activities are integrated into EMS and/or the outcome of such integration. There are many motives for integrating the two concepts. Firstly, DFE thinking might enrich EMS by contributing with a life-cycle perspective. If EMS encompassed products' life cycles to a greater extent, they would be a better complement to the often facility-oriented legal requirements and authority control. Secondly, EMS might remove the pilot project character of DFE activities and lead to continuous improvement. Thirdly, integration could lead to successful co-operation, both internally and externally. However, existing studies show that there is a mixed picture concerning the extent ‘normal’ EMS currently encompass products.
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Exploring the sustainability potential of an algae-based wood adhesive : Comparative and explorative environmental life cycle assessment of algae- vs. formaldehyde- based adhesives for particleboard productionRasche, Charlotte January 2020 (has links)
Adhesives used for wood composites such as particleboard are conventionally of petrochemical nature with formaldehyde as a base substance and represent a pain point in the industry due their toxic emissions. Consequently, adhesives are subject to an agenda to develop more benign, low-impact alternatives. On the one hand, the issue has been addressed by means of optimisation of composition and amounts, and on the other hand, development of biobased adhesives from different renewable feedstock has been taking place over the past decades. Yet, these bio-adhesives remain a niche segment as renewability or lower toxicity alone is widely not enough despite increasingly strict regulations on formaldehyde emissions. Emphasis on a more comprehensive set of beneficial properties of ‘green’ adhesives is needed for successful adoption in the market. In this context, this study investigates the holistic sustainability potential of a yet untapped bio- adhesive feedstock: macroalgae. Current research on an algae-based adhesive from cultivated biomass in Sweden suggests suitable adhesive properties for particleboard manufacture. Complementing these promising findings on material properties, this study assesses sustainability of using an algae-based adhesive in a particleboard production system as opposed to conventional formaldehyde-based resins. A comparative cradle-to-gate life cycle assessment of different scenarios was conducted, with the specific aim to explore changes in toxicity, climate change impacts and eutrophication due to the known benefits of cultivated macroalgae in these areas. A considerably better performance for algae-based adhesives was found across impact categories (CML baseline method) compared to formaldehyde-based scenarios, as well as a similar pattern with respect to cumulative energy demand. Particularly under a low-impact preservation method for the algal biomass, relative impacts were substantially lower without exception. Furthermore, a potential for carbon sequestration and replacing of fossil with biogenic carbon flows was identified, as well as bioremediation of location eutrophication through nutrient uptake of the biomass during cultivation. Despite the early stage and the need for further research, the results point to a promising potential for macroalgae as a feedstock for biobased wood adhesives which go beyond renewability. / Lim som vanligtvis används för träkomponenter som exempelvis spånskivor är konventionellt från petrokemiska källor med formaldehyd som basämne, och anses vara en utmaning för branschen på grund av dess giftiga utsläpp. Därav är det av intresse för branschen att utveckla bättre alternativ med mindre miljöpåverkan. Utvecklingen har dels skett genom optimering av sammansättning och proportioner, men under det senaste decennierna har även utveckling av biobaserade lim från olika förnyelsebara råvaror tagit fart. Dessa biobaserade lim är dock fortfarande ett nischat område, att enbart arbeta med förnybara råvaror som ger lägre toxicitet verkar inte vara tillräckligt, trots allt striktare bestämmelser om formaldehydutsläpp. Därför krävs det tydliga bevis av miljövinsterna med lim av förnyelsebara råvaror för att denna metod ska bli mer framgångsrik på marknaden. I detta sammanhang undersöker denna uppsats, genom ett holistiskt perspektiv, potentialen med lim gjort på det ännu outnyttjade förnyelsebara materialet makroalger. Aktuell forskning på algbaserat lim från odlad biomassa i Sverige har uppvisat lämpliga limegenskaper för användning inom spånskivetillverkning. Som ett komplement för dessa potentiella fördelaktiga egenskaper, bedömer denna uppsats miljönyttan med användandet av ett algbaserat lim i produktionssystem av spånskivor, i relation till det konventionella formaldehydbaserade limmet. Därmed görs en jämförande livscykelanalys från vaggan till grinden av olika scenarier, med syftet att undersöka förändringar i toxicitet, klimatpåverkan och övergödning, i och med att dessa tre påverkanskategorier redan har visat på kända miljöfördelar. Resultatet visade att det algbaserade limmet hade betydligt bättre miljöprestanda i alla påverkanskategorier undersökt med metoden CML baseline i jämförelse med det formaldehydbaserade limmet, vilket även visades för kategorin kumulativt energibehov. När en konserveringsmetod används för att processa algbiomassan, är skillnaden i miljöpåverkan av dom två limmen lägre inom alla påverkanskategorier. Slutligen identifierades potential för kolbindning och utbyte av biogena och fossila kolflöden, även bioremediering av lokal övergödning genom att biomassan upptog näringsämnen under odling. Trots det tidiga stadiet och behovet av fortsatt forskning så visar dessa resultat en fortsatt potential för makroalger som ett råmaterial för biobaserade trälim som tar förbybarhet ett steg längre.
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An integrated approach to environmentally conscious design and manufacturingGoan, Meng-Jong Kuan 03 October 2007 (has links)
The problem addressed in this research was to develop an approach for the simultaneous green design of products and associated manufacturing processes including demanufacturing concerns. We propose a generic approach called Integrated Environmentally Conscious Design and Manufacturing (IECDM) which can be applied to address problems in the ECDM domain. IECDM incorporates environmental considerations into the engineering design process, thereby increasing a product's total life-cycle value (including its end-of-life value) as experienced by the customer, manufacturer, and society, while simultaneously reducing impacts on the environment caused by that product and its manufacturing processes. IECDM is a novel integration of Quality Function Deployment (QFD), Life-Cycle Assessment (LCA), Multiple Criteria Decision-Making (MCDM), and Cost-Benefit Assessment (CBA). The focus is on process, based on modification of the traditional QFD methodology to incorporate environmental issues and green product-design decisions through the life cycle design activities of synthesis, analysis, and evaluation.
This dissertation presents a QFD-based IECDM approach, a mathematical CBA model, and an IDDS (Integrated Design Decision-Support) framework with a design-flow-chart application for incorporating environmental criteria into product and process eco-design. The IECDM problem is defined as: given the customer and environmental requirements, develop an integrated approach for green product design that results in maximization of the product's total life-cycle value (TLCV). Initially. through investigation in the field of ECDM, we specified a clear ECDM domain within Industrial Ecology. Then. we proposed various state-of-the-art techniques that were used to implement ECDM in the literature. After we defined the IECDM problem. we developed an integrated approach that led to a generic QFD-IECDM methodology for dealing with problems in the ECDM domain. Finally, for implementing the proposed methodology, we developed a tentative IODS framework to encourage long-term development followed by an example. / Ph. D.
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