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  • 1.
    Capener, Carl-Magnus
    et al.
    RISE - Research Institutes of Sweden (2017-2019), Built Environment, Building Technology.
    Pettersson Skog, Anna
    Emilsson, Tobias
    Malmberg, Jonatan
    Jägerhök, Tove
    Edwards, Ylva
    RISE - Research Institutes of Sweden (2017-2019), Built Environment, CBI Swedish Cement and Concrete Research Institute.
    Grönatakhandboken: Vägledning2017Report (Other academic)
  • 2.
    Edwards, Ylva
    et al.
    RISE, SP – Sveriges Tekniska Forskningsinstitut, CBI Betonginstitutet AB, Hållbara byggnadsverk.
    Emilsson, Tobias
    SLU Swedish University of Agricultural Sciences, Sweden.
    Malmberg, Jonatan
    Scandinavian Green Roof Institute, Sweden.
    Pettersson Skog, Anna
    Sweco Environment, Sweden.
    Capener, Carl-Magnus
    RISE, SP – Sveriges Tekniska Forskningsinstitut.
    Quality-assured solutions for green roof gardens on concrete deck with zero tolerance for leaks2016In: WIT Transactions on Ecology and the Environment: The Sustainable City XI / [ed] A. Galiano-Garrigos, C.A. Brebbia, WIT Press, 2016, Vol. 204, p. 363-372Conference paper (Refereed)
    Abstract [en]

    Eco-neighborhoods with gardens on concrete decks are for several reasons increasingly being prescribed today in major Swedish cities. However, there is a lack of knowledge, experience, standards and guidelines as well as collaboration between parties and stakeholders when installing such systems. It is incredibly important to avoid any leakage during the lifetime of a green roof garden but this cannot be completely guaranteed with today’s installation practice and project management. At Sustainable City 2014 in Siena, we presented a paper about a new project aiming at bringing together researchers, government and industry to collaborative development of new and attractive solutions for green roof gardens with consideration to the environment and high requirements for durability, materials, construction and energy efficiency. This paper is a continuation of the paper presented in Siena and reports on the most recent results from the collaborative project which will finalize in November 2016. After that, the project will be further evaluated in a proposed continuation project for another couple of years.

  • 3.
    Edwards, Ylva
    et al.
    RISE, SP – Sveriges Tekniska Forskningsinstitut, CBI Betonginstitutet AB.
    Pettersson Skog, Anna
    Systemlösningar för gröna anläggningar/tak2014In: Bygg och Teknik, ISSN 0281-658X, E-ISSN 2002-8350, Vol. 106, no 4, p. 31-33Article in journal (Other academic)
  • 4.
    Pettersson Skog, Anna
    et al.
    RISE Research Institutes of Sweden, Built Environment, Infrastructure and concrete technology.
    Johansen, Ann
    RISE Research Institutes of Sweden, Built Environment, Infrastructure and concrete technology.
    Farquharson, Lukas
    RISE Research Institutes of Sweden, Built Environment, Infrastructure and concrete technology.
    Stenbeck, Sten
    RISE Research Institutes of Sweden, Built Environment, Infrastructure and concrete technology.
    Kvalitetskriterier för regnbäddssubstrat2023Report (Other academic)
    Abstract [en]

    Quality criteria for rainbed substrates

    Rainbeds are an increasingly common feature of the urban environment, managing stormwater while greening the cityscape and reducing impervious surfaces. The function of rainbeds can be both to retain and purify stormwater before the water is further infiltrated or led to a recipient. However, rainbeds can also leach nutrients, as shown by previous projects that have looked at the quality of outgoing water from rainbeds. Today, there are no quality criteria to ensure the functionality of rainbeds and rainbed substrates. In an interview study, and in a questionnaire study, different professional groups (designers, clients, stormwater experts and researchers, etc.) who work with rainbeds were asked how they see the need for quality criteria, which criteria are most important, how guideline values and reduction factors can be developed and desirable channels for communicating quality criteria. It has been clear that guidance is in demand by the industry and that it is desirable to have some form of industry standard that can be published in AMA or as a publication by Svenskt Vatten, or similar. The criteria that were considered most important varied with different professional groups, but they agreed that different requirements should be set for different purposes of the rain garden. In an international analysis, international representatives were also interviewed about how possible quality criteria are applied in each country. Four Swedish substrate producers also contributed a total of 10 different samples of their rainbed substrates. These were sent for analysis together with a substrate developed according to recommendations from research on rainbed substrates, which was used as a reference. One purpose of the analyses was to characterize the rainbed substrates. Another aim was to see how the different methods correlate - whether more complicated and timeconsuming analyses can be replaced by simpler ones. The analytical methods to be performed were decided after discussions with routine labs about suitable and available methods. The methods chosen were two different nutrient analyses: AL analysis and Spurway analysis, and two different leaching tests, namely shake tests and column tests. The shake tests were done at L/S 2 and L/S 10 and repeated twice with the leachate. The column tests were performed on three substrates at L/S 0.1; 0.2; 0.5; 1, 2, 5 and 10. The focus of the evaluation was on nutrient content and leaching. The nutrient content was evaluated based on guideline values for nutrient content according to AMA and Hässelby-Skälby garden laboratory. The leaching was evaluated based on guideline values for the city of Gothenburg and guideline values according to the guideline group, level 3VU. The elements that exceeded the guideline values were mainly cadmium, copper, phosphorus and nitrogen. The phosphorus leaching exceeded the guideline values in all substrates at L/S 2 and only the reference substrate was below the guideline values at L/S 10. In the repeated leaching, the phosphorus content gradually decreased but did not fall below the detection limit in any of the substrates except in the reference substrate at the last leaching. It should be emphasized that although the leached content was above the guideline limits, the leached amounts were in the order of mg/kg DM, which corresponds to g/ton DM substrate. One conclusion is that the substrates available on the market today have been developed mostly to contribute to the retention of stormwater and to get the vegetation to grow. The substrates have a completely different character than what is recommended by research. Another conclusion is that it has not yet been established which analysis method is best suited to form the basis of quality criteria.

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  • 5. Pettersson Skog, Anna
    et al.
    Jonatan, Malmberg
    Emilsson, Tobias
    Jägerhök, Tove
    Capener, Carl-Magnus
    RISE - Research Institutes of Sweden (2017-2019), Built Environment, Building Technology.
    Grönatakhandboken: Växtbädd och vegetation2017Report (Other academic)
  • 6.
    Råberg, Tora
    et al.
    RISE Research Institutes of Sweden, Bioeconomy and Health, Agriculture and Food.
    Lorentzon, Katarina
    RISE Research Institutes of Sweden, Built Environment, System Transition and Service Innovation.
    Västerdal, Mårten
    RISE Research Institutes of Sweden.
    Pettersson Skog, Anna
    RISE Research Institutes of Sweden, Built Environment, Infrastructure and concrete technology.
    Cristescu, Carmen
    RISE Research Institutes of Sweden, Built Environment, Building and Real Estate.
    Davidsson, Kent
    RISE Research Institutes of Sweden, Bioeconomy and Health, Biorefinery and Energy.
    Schouenborg, Björn
    RISE Research Institutes of Sweden, Built Environment, Infrastructure and concrete technology.
    Atongka Tchoffor, Placid
    RISE Research Institutes of Sweden, Built Environment, Infrastructure and concrete technology.
    Potentiella kolsänkor i Malmö stad2022Report (Other academic)
    Abstract [sv]

    Miljöförvaltningen inom Malmö stad gav RISE uppdraget att identifiera möjligheter att öka kolsänkorna inom kommungränsen. Syftet med den här rapporten är att sammanställa ett brett underlag för klimatarbete med åtgärder som möjliggör en ökning av de lokala kolsänkorna i Malmö stads geografiska område. Genom att uppskatta olika åtgärders potential för kolinlagring, teknisk mognadsgrad och kostnadseffektivitet från ett klimatperspektiv, samt visa på vilka skalor det går att jobba med dessa åtgärder inom kommunen, avses rapporteringen ge en översikt över vilka satsningar som kan göras för att kolsänkorna ska kunna bidra till Malmö stads miljö- och klimatmål. Forskargruppen från RISE har analyserat 18 olika kategorier som har potential att öka den lokala kolinlagringen inom: • de urbana grönområdena, • den urbana infrastrukturen, bebyggd mark och tillhörande mark • rural markanvändning och • övriga möjligheter. I beräkningarna ingår inte klimatpåverkan från insatser som krävs för att genomföra åtgärderna, till exempel avverkning, uppdrivning och plantering av skogsplantor, transport av timmer och förädling av virke. I rapporten tas inte hänsyn till om en ökad användning av mark i en kategori, minskar markanvändning inom en annan kategori.

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  • 7.
    Pettersson Skog, Anna (Contributor)
    RISE Research Institutes of Sweden, Built Environment, Infrastructure and concrete technology.
    Farquharson, Lukas (Contributor)
    RISE Research Institutes of Sweden.
    Nordlöf, Beatrice (Contributor)
    RISE Research Institutes of Sweden, Built Environment, Infrastructure and concrete technology.
    Stenvall, Brita (Contributor)
    RISE Research Institutes of Sweden.
    Multifunktionella Urbana Dagvattenåtgärder, MUD:s – En kortfattad beskrivning av konceptet med MUD:s på kvartersmark.2023Other (Other academic)
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    fulltext
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