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- Arvidsson, Rickard, 1984, et al.
(author)
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Assessing the Environmental Impacts of Palm Oil
- 2011
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In: Palm Oil: Nutrition, Uses and Impacts. - : Nova Science Publishers, Inc.. - 9781612099217 ; , s. 159-186
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Book chapter (other academic/artistic)abstract
- Palm oil is used for cooking in Southeast Asia and Africa and as a food additive in a number of processed foods world-wide. The production of palm oil is increasing, and it is of special interest from a nutritional point of view due to its high energy content and its significant content of micronutrients. In addition, palm oil is increasingly used to produce various biofuels. Due to large production volumes and diverse applications of palm oil, it is highly interesting and important to study the environmental impacts of its production. This chapter discusses how the environmental impacts of palm oil can be assessed, focusing on the life cycle environmental impacts of palm oil in comparison to similar products. A brief overview of life cycle assessment as a method is given, and results are presented together with suggestions for environmental improvements of palm oil cultivation and production. It is shown that the magnitude of the environmental impacts connected to palm oil in relation to other products is heavily affected by the choice of environmental indicators, which in LCA studies consist of both an environmental impact category and a so-called functional unit. Regarding impact categories, the global warming and acidification potentials of palm oil are lower than those of rapeseed oil per kg oil. The water footprint of palm oil and rapeseed oil are about the same on a mass basis, but for the two land use indicators soil erosion and heavy metal accumulation, rapeseed oil has a lower impact than palm oil. Specific interest is given to the life cycle energy use of palm oil in response to the unclear and diverse definitions of this impact category in different studies. It is concluded that there is a need to carefully define the energy use impact category when reporting on palm oil or similar products, and also to differentiate between different kinds of energy sources. If instead of mass the micronutrient content is applied as functional unit, palm oil still has lower global warming potential and acidification than rapeseed oil when compared on the basis of vitamin E content. However, if β-carotene content is used as functional unit, rapeseed oil is not relevant for comparison due to its negligible content of β-carotene. For that case, palm oil is therefore instead compared to tomatoes on a β-carotene basis, since tomatoes are rich in β-carotene. The tomatoes were shown to perform better then palm oil regarding global warming potential on a β-carotene basis. The effects of time and scale on the environmental impacts of palm oil, which includes changes in technical performance and electricity sources, are also discussed in this chapter. It is shown that combustion of the methane formed from the palm oil mill effluent can significantly reduce the global warming potential.
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| 3. |
- Clancy, Gunilla, 1968, et al.
(author)
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Approach to establish relevant sustainability assessment parameters in product development
- 2011
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In: Poster presentation at the Second Symposium on Industrial Ecology for Young Professionals, 11 June 2011, Berkeley, California.
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Conference paper (other academic/artistic)abstract
- Since companies need to develop more sustainable products to stay in business in the long term, there is a demand for ways to assess and compare product sustainability already in product development. This is studied through action research performed within the “wood based diaper” material development project (WooDi) aiming to develop a wood based material to replace a petroleum based while ensuring a more sustainable product. Methods used so far evaluating environmental product development to a large extend is based on optimization of the present system (improving or replacing parts giving large impacts) or to some extent taking the future into account e.g. by consequential LCA studies. Such approaches will result in marginal improvements of the present situation, but don’t fully take advantage of truly innovative processes or the fact that a more sustainable future society might put very different demands on products compared to the strictest requirements of today. Based on what was found in relevant literature, most often lists of predetermined parameters are being used without critical reflection on their importance in light of the specific situation. There is a specific lack of parameters describing the sustainability impacts of a shift from fossil to biomass resources in a life cycle perspective, e.g. related to competition for resources. As a result, an approach for establishing relevant product sustainability parameters is presented, emphasising the need to bringing in the diverse knowledge and experiences of the product development team members as vital for a successful result. The parameters are intended to guide product development as well as to be a base for a sustainability comparison of a new product with a current product.
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| 4. |
- Clancy, Gunilla, 1968, et al.
(author)
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Approach to establish relevant sustainability assessment parameters in product development
- 2011
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In: Poster presentation at the 6th International Conference on Industrial Ecology 'Science, Systems and Sustainablity' 7-10 June 2011, Berkeley, California.
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Conference paper (other academic/artistic)abstract
- Since companies need to develop more sustainable products to stay in business in the long term, there is a demand for ways to assess and compare product sustainability already in product development. This is attended to in the WooDi research project which aims at developing a wood based material to replace a petroleum based one in an incontinence diaper while ensuring a more sustainable product. Acknowledging the vast number of choices made in product development and their potentially large effect on the sustainability impact of the resulting product leads to the conclusion that assessment of product sustainability should be made throughout the process and be used to guide development. To gain a deeper understanding of the requirements and barriers in assessing product sustainability and guiding product development towards a more sustainable product, several workshops and seminars were carried out in the WooDi project, in parallel to literature surveys. Based on what was found in relevant literature, most often lists of predetermined parameters are being used without critical reflection on their importance in light of the specific situation. Additionally there is a lack of parameters describing the sustainability impacts of a shift from fossil to biomass resources in a life cycle perspective, e.g. related to competition for resources. As a result, an approach was developed for establishing relevant product sustainability parameters, where the parameters are intended to guide product development as well as to be a base for a sustainability comparison of a new product with a current product. It starts with defining what ‘sustainable product’ is in the specific case.This approach emphasises the need of bringing in the product development team members’ diverse knowledge and experiences as vital for a successful result. Practical experience of using the proposed framework throughout a project is still needed for evaluating it and identifying its limits.The presentation reports on the developed approach and on efforts to define what should be meant by ‘sustainable product’ in the specific case.
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| 5. |
- Clancy, Gunilla, 1968, et al.
(author)
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Consequences for wood resource use for incontinence diapers in Europe 2010 to 2050
- 2011
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In: Annual Poster Exhibition at the Department of Chemical and Biological Engineering, Chalmers University of Technology, April 12th 2011, Göteborg, Sweden, A7.
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Conference paper (other academic/artistic)abstract
- Increasing life expectancy results in an ageing society in parts of the world. The old of tomorrow are also expected to have higher comfort demands. One likely consequence is an increase in the need of such products as disposable incontinence diapers, which are today partly based on cellulose from forestry. A calculation of the potential increase for heavy incontinence care (assuming the use of disposable incontinence diapers) was made based on the demographic trends for Europe and on the yield from forestry performed under Nordic conditions. The calculation is using a parameterisation known from literature: I = i * m * u * P. It expresses the impact (I, in our case, forest area in ha) as a product of four factors that humans have the ability to change, in our case, i = ha Nordic forest area / kg material, m = kg material / service, u = service / population in Europe, and P = population in Europe. The 'service' is to keep a customer with heavy incontinence dry for a year, assuming that the same fraction of the population above 50 years as today will need heavy incontinence protection. Under these assumptions, the forest area needed for heavy incontinence care in Europe will increase with about 75% until 2050. According to the current work in the WooDi research project, aiming at producing a wood-based diaper, if the petroleum-based material in the absorbent core in the diapers were to be replaced by wood-based, this would increase the needed forest area to about 136%, assuming a 1:1 replacement ratio by weight which seems to be a low estimate. This is still a small share of the total European forest area (0.2%). However, such an increase in wood demand for only one product is not without problems, since forests to a large extent are already utilised, e.g. for timber and pulp and paper production, and since there is an expected increase in demand for bio-based fuels and materials for replacement of fossil-based products, thus competing for either the yield from the forests or for the land area. At the same time, there are rising concerns regarding biodiversity and other ecosystem services in connection to forestry.
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| 6. |
- Clancy, Gunilla, 1968, et al.
(author)
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The ageing society – an example of consequences for biomass use for incontinence diapers in Europe
- 2011
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In: Poster presentation at the AGS annual meeting 'Sustainability and change', 23-25 January 2011, Göteborg, Sweden.
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Conference paper (other academic/artistic)abstract
- Increasing life expectancy results in an ageing society in parts of the world. The old of tomorrow are also expected to have higher comfort demands. One likely consequence is an increase in the need of such products as disposable incontinence diapers, which are today partly based on cellulose from forestry. A calculation of the potential increase for heavy incontinence care (assuming the use of disposable incontinence diapers) was made based on the demographic trends for Europe and on the yield from forestry performed under Nordic conditions. The calculation is using a parameterisation known from literature: I = i * m * u * P. It expresses the impact (I, in our case, forest area in ha) as a product of four factors that humans have the ability to change, in our case, i = ha Nordic forest area / kg material, m = kg material / service, u = service / population in Europe, and P = population in Europe. The 'service' is to keep a customer with heavy incontinence dry for a year, assuming that the same fraction of the population above 50 years as today will need heavy incontinence protection. Under these assumptions, the forest area needed for heavy incontinence care in Europe will increase with about 75% until 2050. According to the current work in the WooDi research project, aiming at producing a wood-based diaper, if the petroleum-based material in the absorbent core in the diapers were to be replaced by wood-based, this would increase the needed forest area to about 136%, assuming a 1:1 replacement ratio by weight which seems to be a low estimate. This is still a small share of the total European forest area (0.2%). However, such an increase in wood demand for only one product is not without problems, since forests to a large extent are already utilised, e.g. for timber and pulp and paper production, and since there is an expected increase in demand for bio-based fuels and materials for replacement of fossil-based products, thus competing for either the yield from the forests or for the land area. At the same time, there are rising concerns regarding biodiversity and other ecosystem services in connection to forestry.
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| 7. |
- Svanström, Magdalena, 1969-, et al.
(author)
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Trade-offs in the district heat distribution system
- 2011
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In: What is Sustainable Technology?. - Sheffield, UK : Greenleaf Publishing Ltd. - 9781906093501 ; , s. 87-107
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Book chapter (other academic/artistic)abstract
- District heating has the potential to provide consumers with heat using resources that would otherwise be wasted (e.g. surplus heat from industry) or increase overall efficiency by generating both heat and electricity. However, the introduction and utilisation of district heating has to be performed in a responsible way in order to benefit all the different stakeholders involved. A positive outcome depends on local preconditions and the identification of trade-offs involving different environmental, social and economic considerations. In the history of district heating, several illustrative articulations of sustainability can be found, and situations in which different trade-offs have become clear. This chapter will discuss some articulations of sustainability and the environmental, social and economic trade-offs that can be identified for district heat distribution systems, to help achieve a deeper understanding of sustainability considerations and trade-offs for technical systems in general. Examples from research on district heating, carried out at Chalmers University of Technology from 1991 until today, will be used to illustrate real-world dilemmas.
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