Industrial Symbiosis in Malmö: Transitioning into a collaborative network

Larsson, Emelie

January 2020

In collaboration with Afry, the focus of this thesis is to facilitate the transition from an Industrial park into an Eco-park using industrial symbiosis strategy, in the industrial harbor of Malmö. To transition into a collaboration where physical exchanges of energy, waste, materials and other by-products between different facilities takes place. Some of the keys to an industrial symbiosis are proximity, government planning and self-organization. The aim of the thesis is to create a digital platform that can facilitate the connectivity between facilities and organizations and to inspire a social transition. Therefore, this thesis uses transition design as an approach, touching upon topics such as organizational collaboration, industrial symbiosis strategy and knowledge sharing. Whilst using Research through design for designing a technology that can inspire collective transition into a more sustainable future. Design methodology from Service design and Interaction design, such as user researching, customer journey mapping and prototyping, is used when designing for a somewhat unexplored area in Sweden.

Transition design

Interaction design

Knowledge sharing

Industrial symbiosis

Engineering and Technology

Teknik och teknologier

Building Sustainable Industrial Partnerships: Factors Affecting Industrial Symbiosis in Vetlanda, Sweden.

Yousif, Katren, Lindén, Alexander, Vahedi, Niki

January 2024

Abstract Background:Industrial symbiosis, a concept where waste or by-products from one industry serve as resources for another has gained attention as industries seek sustainable and efficient resource management solutions. However, the practical implementation of industrial symbiosis remains complex. Purpose:This research investigates the factors influencing the establishment of industrial symbiosis among stakeholders in Vetlanda, Sweden. Method:Utilizing a qualitative approach, interviews with six regional stakeholders provide insights into the dynamics of symbiotic relationships and the obstacles and aids to their development. Key findings indicate that financials, collaboration, resources, geographical proximity, politics and regulations are crucial factors when establishing industrial symbiosis partnerships. Conclusion:Despite potential benefits like resource efficiency and reduced environmental impact, practical challenges like high initial investment costs and organizational complexities remain significant. This study contributes to understanding the conditions necessary for successful industrial symbiosis implementation and suggests areas for future research that include, continuation of this research and cross regional research.

Industrial symbiosis

circular economy

resource efficiency

sustainable development

Business Administration

Företagsekonomi

Transforming Trash to Treasure: Uncovering the Social Benefits of Industrial Symbiosis in Scandinavia

Vitale, Valeria, Ziegler, Marie

January 2024

Background: The United Nation's Agenda 2030, which includes 17 Sustainable Development Goals (SDGs), emphasizes the importance of partnerships across different sectors to address global challenges. In particular, SDG 17 encourages multi-stakeholder collaborations to mobilize resources for sustainability. Despite their importance, there is limited research on the mechanisms of these partnerships, especially in terms of generating social value. Industrial Symbiosis (IS) is a prime example of such collaborations, focusing on resource exchange and shared services. However, the social aspects of IS have not been thoroughly explored, highlighting the need for further research to achieve comprehensive sustainability.Purpose: The purpose of this study is to contribute to the understanding of the contribution of Industrial Symbiosis initiatives in the Scandinavian Region on the existence of Social Benefits in the local community.Method: This study, grounded in the interpretivistic paradigm, follows a qualitative approach. Experts and practitioners within Industrial Symbiosis were interviewed and the data collected were analysed with an inductive-open coding process to then evolve in a thematic analysis.Conclusion: Our findings emphasize that Industrial Symbiosis is not merely an environmental strategy but a robust framework that actively contributes to local community development through job creation, industry retention, and infrastructure improvement, among others. By embracing a circular economy and engaging diverse stakeholders, IS demonstrates a sustainable model of industrial interaction that benefits both the environment and society. Overall, we conclude that the successful implementation of Industrial Symbiosis leads to substantial Social Benefits, reinforcing its role as a pivotal element in achieving Sustainable Development Goals.

Industrial Symbiosis

Social Benefit

Scandinavia

Stakeholder Engagement

Sustainability

Business Administration

Företagsekonomi

Social Sciences

Samhällsvetenskap

Arbetssätt vid kartläggning av värdehöjande synergier för ökad kapacitet inom industriell symbios : En fallstudie vid Händeö Eco Industrial Park / A proposed approach for mapping value-adding synergies for increased capacity for industrial symbiosis : A case study at Händelö Eco Industrial Park

Nelzén, Milian, Brunfelt, Julia

January 2020

Industriers samverkan med varandra och andra sektorer i samhället genom industriell symbios spelar en viktig roll för omställningen till cirkulära kretslopp och en hållbar framtid. Genom att företag, industrier och kommuner verkar tillsammans genom bland annat resurs- och kunskapsutbyten fås en ökad energioch resurseffektivitet med ekonomiska, miljömässiga och sociala vinster. De områden med industriell symbios som finns idag har ofta uppkommit genom spontant utvecklade projekt, på grund av exempelvis lönsamheten i att tillvarata restflöden eller krav på slutna flöden. Att symbiosnätverk inte uppkommer vid fler områden kan bero på bristfällig kommunikation och företags fokus på den egna kärnverksamheten, att de inte ser till det större systemet de är en del av och vilka nyttor som kan fås genom samverkan. Ett första steg i att aktivt utveckla industriell symbios är att kartlägga potentiella synergier inom ett område. Kartläggningssteget är ett av de inom litteraturen mest undersökta stegen av utvecklingsprocessen för industriell symbios. Det innehåller en mängd framtagna dataverktyg som syftar till att matcha verksamheters in- och utflöden. Identifierade dataverktyg missar dock ofta aspekten att involvera och engagera medarbetare samt ytterligare mervärden som utöver möjliga resursutbyten är viktiga för att industriell symbios ska uppkomma och fortsätta verka. Det saknas även ett arbetssätt för hur en kartläggning kan struktureras, där detta examensarbete är ett värdefullt bidrag inom ämnet. Detta examensarbete undersöker hur en kartläggning av befintliga och potentiella värdehöjande synergier kan struktureras. Synergier är exempelvis utbyten av material- och resursflöden, gemensam infrastruktur och kunskapsnätverk. Synergier syftar till att vara värdehöjande i form av att ge ekonomiska fördelar, minskad miljöpåverkan eller stärkta sociala band mellan olika aktörer. En fallstudie genomfördes för att kartlägga synergier vid Händelö Eco Industrial Park i Norrköping. Datainsamlingen för kartläggningen genomfördes externt av rapportförfattarna genom genomgång av dokument, telefonsamtal och möten med medarbetare vid Händelö. En workshop med representanter från sju aktörer genomfördes som intern kartläggning, som ämnar till att samla aktörer och låta dem gemensamt identifiera synergimöjligheter mellan varandra. Genom fallstudien identifierades ett 50-tal olika synergier och ett flertal mervärden vid Händelöområdet. Som en avslutande del i kartläggningen bedömdes identifierade synergiers implementeringspotential. Examensarbetet presenterar ett arbetssätt för hur en kartläggning av befintliga och potentiella värdehöjande synergier inom ett område kan struktureras. Arbetssättet består av fyra steg; identifiering av startgrupp av aktörer, kartläggning av synergier, inkludering av ytterligare aktörer och bedömning av implementeringspotentialen. Diskussion förs gällande hur arbetssättet kan anpassas utifrån kartläggarens och områdets förutsättningar samt vikten av olika mervärden. Genom att formulera ett arbetssätt som utöver identifierade värdehöjande synergier även resulterar i mervärden som stärker den institutionella kapaciteten för industriell symbios, ökar möjligheterna för industriell symbios och mer hållbar hushållning av resurser inom fler områden. I slutsatserna rekommenderas att en kartläggning av synergier bör genomföras både externt och internt. En intern kartläggning, när aktörer samlas och interagerar med varandra, kan utöver synergimöjligheter även resultera i viktiga mervärden som främjar implementering av synergier. Exempel på mervärden är engagemang och ökad kommunikation, vilket stärker den institutionella kapaciteten för industriell symbios och möjliggör långsiktiga industriella samarbeten. För att ta arbetet vidare är kontinuerliga möten iv och att koordinera aktörer viktigt, för att ta tillvara på identifierade synergier och de anställdas engagemang, därmed fortsätta utveckla den industriella symbiosen vid Händelö. / Industries cooperating with each other and other sectors of society through industrial symbiosis which plays an important role for a sustainable development and the conversion to circular economy. Industries, municipalities and organizations collaborating through, among other things, sharing resources and knowledge leads to energy and resource efficiency with economic, environmental and social benefits. Areas with existing industrial symbiosis have often emerged through spontaneously developed projects, due to regulations or the profitability of utilizing residual flows. Why industrial symbiosis network doesn’t emerge in more areas may be due to lack of communication and coordination as well as companies focusing on their core business and not seeking the benefits that collaborations can provide. A first step in developing industrial symbiosis is to find synergetic opportunities within an area. This step contains a variety of data tools for process input–output stream-based matching. These types of data tools, however, often misses the aspect of involving and engaging employees which is important for the process of industrial symbiosis to emerge and proceed. There is also no clear workflow for how identifying synergy opportunities can be done, where this thesis is a valuable contribution within the subject. This master thesis examines how a mapping of existing and potential value-adding synergies can be structured. Synergies include, for example, exchanges of material and resource flows, shared infrastructure and knowledge networks. Synergies aim to added value of economic benefits, reduced environmental impact or strengthened social links between different actors. A case study was conducted to find synergetic opportunities at Händelö Eco Industrial Park in Norrköping. The data collection was carried out externally by the authors through a review of documents and meetings with employees at Händelö. A workshop with representatives from seven actors was held as internal mapping, which aimed to help them to identify mutual synergy opportunities between each other together. The case study identifies about 50 different synergies and several added values in the Händelö area. As a final part of the mapping, the potential for the identified synergies’ feasibility were assessed. This master thesis presents a workflow for a mapping of existing and potential value-adding synergies within an area. The process consists of four steps; identification of actors, mapping of synergies, incorporation of further actors and feasibility assessment. Discussion is conducted on how the workflow can be adapted based on the surveyor and the area of the symbiosis, as well as the importance of various added values. Formulating a workflow that, in addition to identifying value-added synergies increases the opportunities for industrial symbiosis and more sustainable management of resources in further areas. The conclusions include a recommendation that a mapping of synergies should be done both externally and internally. An internal survey, where actors gather and interact with each other, can result in important added values which facilitates the feasibility of identified synergies. Examples of added value are engagement and increased communication, which strengthens the institutional capacity for industrial symbiosis and enables long-term industrial collaborations. In order to continue the development of the Händelö area, recurrent meetings and coordination of actors are important, taking advantage of identified synergies and employee engagement, thus continuing to develop the industrial symbiosis.

Industrial symbiosis

institutional capacity

energy and resource efficiency

tools for industrial symbiosis

mapping of synergies

workflow for mapping of synergies

Industriell symbios

institutionell kapacitet

energi- och resurseffektivitet

verktyg för industriell symbios

kartläggning av synergier

Environmental Management

Miljöledning

Conditions for Industrial Symbiosis surrounding a hydrogen based steel industry / Förutsättningar för industriell symbios kring en vätebaserad stålindustri

Nylund, Erland

January 2023

There is an ongoing transition to a more sustainable industry with lower climate impact. As part of this transition, the steel industry is expected to move from the conventional process for producing iron and steel using Blast Furnace (BF) and Basic Oxygen Furnace (BOF) processes, consuming large amounts of fossil fuels. In Sweden, transition to an alternative process route using Hydrogen Direct Reduction of Iron (H DRI) combined with electric arc furnace s (EAFs) is underway. Large H DRI based steel industries are being established and are expected to produce significant volumes of residues. According to the principles of circular economy, these residues should be valorised as products or raw materials to as large an extent as possible. Industrial Symbiosis is a method for increasing industrial circularity by promoting transactions of information and residues to- provide economic and environmental synergies in a network of industry actors. There are existing industrial networks for valorising residues from the traditional iron and steel industry. Notably, large amounts of BF slags are used as a Supplementary Cementitious Material (SCMs) or raw material in cement production. However, there is a lack of research into how these existing networks can manage the residues produced in the new H DRI and EAF based process. There is also a need to better understand to what extent EAF slags can replace BF and BOF slags in valuable applications such as SCM or cement production. Research into these issues is complicated by the fact that no commercially operating HDRI based steel industries exist at present. Therefore, an exploratory and qualitative research approach was chosen to investigate the knowledge and current conditions in a region where such an industry is being established. A case study was conducted to investigate the industrial network surrounding an emerging steel industry that will use H DRI and EAF processes. A theoretical framework was constructed to assess conditions for the development of an Industrial Symbiosis Network (ISN) in such an industry. Social as well as technological conditions important for ISN development were identified.  The growing network of recyclers, metal industries and other actors surrounding the planned steel plant of H2 Green Steel (H2GS) in Boden was chosen as case. Potential ISN participants were identified and participated in four focus group workshops and ten in depth interviews. An overview of expected residues from H2GS was compiled, together with a list of potential methods for valorisation. The Technology Readiness Levels (TRL) of these valorisation processes were assessed, and the social conditions for ISN development were investigated. There seems to be an existing ISN kernel already forming among recyclers and waste management actors surrounding H2GS. Social networks and an exchange of experiences are in place, and technological and economic barriers are perceived as the main obstacles to efficient residue management. The presence of traditional iron and steel industries in the region seems to be a clear benefit to ISN development. Most of the residues originating in the planned H2GS plant are well known and similar to those produced by other steelmakers, except for the large volumes. However, valorisation of EAF slags is a significant challenge. The most mature technology valorising EAF slags as rocky materials in construction seems unlikely to be able to valorise large volumes of EAF slags in the long run. EAF slags has potential as an SCM material or as raw material for cement production. However, these applications require further refining using technologies that are not yet mature. When the development trajectory of these immature technologies can be predicted, the ISN participants can adjust and prepare for the opp ortunities they create. Some valorisation technologies would bring great ISN advantages by improving diversity of inputs and outputs. However, when development trajectories are unpredictable, ISN development is blocked. / Det pågår en omställning till en mer hållbar industri med lägre klimatavtryck. Som en del i denna omställning förväntas stålindustrin röra sig i väg från den konventionella framställningsprocessen för järn och stål som använder masugn och syrgaskonverter där stora mängder fossila bränslen förbrukas. I Sverige pågår en omställning till en alternativ processväg där direktreduktion med vätgas används tillsammans med ljusbågsugnar. Stora industrier baserade på direktreduktion med vätgas håller på att etablera sig och förväntas producera stora mängder restprodukter. Enligt principerna för cirkulär ekonomi bör dessa restprodukter användas som produkter eller råmaterial för andra processer i så stor utsträckning som möjligt. Industriell symbios är en metod för att förbättra industrins cirkularitet genom att främja utbyten av information och restprodukter som kan skapa ekonomiska och miljömässiga fördelar i ett industrinätverk. Det finns existerande industrinätverk för att använda restprodukter från den traditionella järn- och stålindustrin. Särskilt relevant är att stora mängder masugnsslagg används som alternativa cementmaterial eller som insatsvara i cementproduktion. Det finns dock en brist på forskning om hur sådana nätverk kan hantera restprodukterna från den nya processkedjan med vätgasreduktion och ljusbågsugn. Vidare finns ett behov av att förstå i vilken utsträckning ljusbågsugnsslagg kan ersätta masugnsslagg och konverterslagg i tillämpningar som cementproduktion eller produktion av alternativa cementmaterial. Forskning om dessa ämnen försvåras av att det ännu inte finns någon aktiv stålindustri i storskalig kommersiell drift som använder sig av vätgasreduktion och ljusbågsugnsprocesserna. Därför valdes en utforskande och kvalitativ forskningsdesign för att undersöka kunskapen och de nuvarande förutsättningarna i en region där en sådan industri håller på att etableras. En fallstudie genomfördes för att undersöka industrinätverket kring en framväxande stålindustri som kommer att använda vätgasreduktion och ljusbågsugn. Ett teoretiskt ramverk konstruerades för att bättre bedöma förutsättningarna för industriella symbiosnätverk att växa fram i en sådan industri. Sociala så väl som tekniska omständigheter som påverkar nätverkets framväxt identifierades. Det framväxande nätverket av återvinnare, metallindustrier och andra aktörer runt H2 Green Steels planerade stålverk i Boden valdes som fallstudie. Potentiella nätverksdeltagare identifierades och deltog i fyra fokusgruppworkshops samt tio djupintervjuer. En sammanställning av förväntade restmaterial från H2GS sammanställdes tillsammans med en lista över möjliga metoder för att nyttja dessa. Den tekniska färdighetsnivån (TRL-nivån) hos dessa nyttjandealternativ bedömdes och de sociala förutsättningarna för ett industriellt nätverk att växa fram undersöktes. Ett frö till symbiosnätverk verkar redan formas bland återvinnare och restmaterialhanterare runt H2GS. Sociala nätverk och utbyten av erfarenheter finns, och tekniska och ekonomiska barriärer ses som de största hindren för effektiv restmaterialhantering. Närvaron av traditionella järn- och stålindustrier verkar vara en tydlig fördel för framväxten av ett symbiosnätverk. De flesta av restprodukterna som förväntas från den planerade H2GS anläggningen är väl kända och lika de som produceras av andra stålverk, förutom att de kommer produceras i större volymer. Nyttjande av ljusbågsugnsslagg är dock en betydande utmaning Den mest mogna nyttjandemetoden för denna slagg är att använda den som ett stenmaterial i byggnadstillämpningar. Det verkar dock osannolikt att denna metod skulle kunna hitta avsättning för de stora mängderna ljusbågsslagg som väntas på lång sikt. Ljusbågsugnsslagg har potential som ett alternativt cementmaterial eller som insatsvara i cementproduktion. Dessa tillämpningar kräver dock vidare förädling av slaggen med hjälp av tekniker som inte är mogna ännu. När utvecklingsbanan för dessa tekniker kan förutsägas kan nätverksdeltagarna anpassa sig och förbereda för de möjligheter de skapar. Vissa nyttjandemetoder skulle ge stora symbiosfördelar till nätverket genom att öka mångfalden av insatsvaror och produkter som är möjliga. När utvecklingsbanorna inte går att förutsäga blockeras dock symbiosnätverkets utveckling.

Industrial Symbiosis

H-DRI steelmaking

Industrial Symbiosis Networks

Waste management

circular economy

Industriell symbios

H-DRI stålproduktion

Industriell Symbios-nätverk

restmaterialhantering

alternativa cementmaterial

(SCM)

cirkulär ekonomi.

Engineering and Technology

Teknik och teknologier

Inclusão do conceito de simbiose industrial na definição do layout: uma proposta conceitual / Including the industrial symbiosis concept in layout definition: a conceptual proposal

Camparotti, Carlos Eduardo Soares

10 April 2015

O aspecto ambiental está cada vez mais presente no cotidiano das empresas, as quais necessitam reduzir custos e diminuir seus impactos ambientais sempre, concomitantemente a isso tem a necessidade de diminuir a disposição de resíduos na natureza e a extração desenfreada de recursos naturais finitos. Um conceito importante encontrado na literatura é a Simbiose Industrial (SI), a qual busca reutilizar resíduos para obter um sistema fechado com a diminuição de impactos ambientais. A SI ocorre entre empresas e estas são preferíveis que estejam dentro de um parque para maior eficiência, portanto pode-se considerar que a proximidade geográfica influencia no sucesso dela e que o arranjo físico do parque deve ser planejado para atingir melhores resultados. Este trabalho propõe um procedimento composto por seis passos, baseados principalmente no modelo Systematic Layout Planning (SLP) de Muther (1973) para planejar o layout de empresas que participam da SI dentro de um sistema com limites definidos, de forma a encontrar o melhor arranjo físico que favoreça as trocas simbióticas e os relacionamentos criados. O procedimento proposto direciona desde a coleta de dados, passando pelo matching, análise e fluxo, até o estabelecimento das inter-relações das empresas dentro do espaço. Para demonstrar a aplicação do procedimento e os possíveis resultados, realizou-se uma aplicação deste através da coleta de dados de empresas que irão participar de um parque ecológico no interior de São Paulo. Os dados foram utilizados e o procedimento resultou em um arranjo físico das empresas, com foco naquelas que realizam trocas simbióticas. O resultado foi analisado teoricamente, principalmente em relação a SI, que necessita ser o centro do layout final, sendo considerado satisfatório por atender o objetivo proposto, além disso foram colocadas algumas ideias para melhorar a questão da proximidade geográfica ao máximo. Os trabalhos futuros necessitam considerar o fluxo de produtos, em caso da presença de uma cadeia logística no parque e a necessidade de implementação do resultado para maiores análises. / The environmental aspect is increasingly present in daily companies routine, these companies always need to reduce costs and decrease their environmental impacts, concomitantly to that there is the need to reduce the residue disposal in the nature and the unbridled extraction of finite natural resources. An important concept found in literature is the Industrial Symbiosis (IS), which seeks to reuse residues to obtain a closed system with the environment impacts diminution. The IS occurs between companies and they are preferable to be inside a park for more efficiency, so it can be considered that geographical proximity influences in its success and that the park layout must be well planned to reach better results. This research proposes a procedure composed by six steps mainly based on Systematic Layout Planning (SLP) model from Muther (1973) to plan the layout of companies which participate in IS inside a system with defined limits, to find the best layout that favors the symbiotic exchanges and the created relationships. The proposed procedure directs since the data collection, passing by the matching, the flow analysis, until the establishment of the companies interrelationships inside the space. To demonstrate the procedure application and the possible results, this research held an application of the procedure through the data collection in the companies that are going to participate at an ecological park within the state of São Paulo. The data was used and the procedure resulted in the layout of the companies, focusing on that ones which perform symbiotic exchanges. The result was theoretically analyzed, mainly in relation to the IS, which needs to be the center of the final layout, it was considered satisfactory because attended the proposed objective, furthermore some ideas were given to improve the question of the geographic proximity to the maximum. The future researches need to consider the products flow, in case of the presence of a logistic chain in the park and the necessity of the implementation of the results to better analysis.

Fluxo de resíduos

Industrial symbiosis

Inter-relações

Interrelationships

Layout planning

Planejamento de layout

Simbiose industrial

Symbiotic exchanges

Trocas simbióticas

Waste stream

Inclusão do conceito de simbiose industrial na definição do layout: uma proposta conceitual / Including the industrial symbiosis concept in layout definition: a conceptual proposal

Carlos Eduardo Soares Camparotti

10 April 2015

O aspecto ambiental está cada vez mais presente no cotidiano das empresas, as quais necessitam reduzir custos e diminuir seus impactos ambientais sempre, concomitantemente a isso tem a necessidade de diminuir a disposição de resíduos na natureza e a extração desenfreada de recursos naturais finitos. Um conceito importante encontrado na literatura é a Simbiose Industrial (SI), a qual busca reutilizar resíduos para obter um sistema fechado com a diminuição de impactos ambientais. A SI ocorre entre empresas e estas são preferíveis que estejam dentro de um parque para maior eficiência, portanto pode-se considerar que a proximidade geográfica influencia no sucesso dela e que o arranjo físico do parque deve ser planejado para atingir melhores resultados. Este trabalho propõe um procedimento composto por seis passos, baseados principalmente no modelo Systematic Layout Planning (SLP) de Muther (1973) para planejar o layout de empresas que participam da SI dentro de um sistema com limites definidos, de forma a encontrar o melhor arranjo físico que favoreça as trocas simbióticas e os relacionamentos criados. O procedimento proposto direciona desde a coleta de dados, passando pelo matching, análise e fluxo, até o estabelecimento das inter-relações das empresas dentro do espaço. Para demonstrar a aplicação do procedimento e os possíveis resultados, realizou-se uma aplicação deste através da coleta de dados de empresas que irão participar de um parque ecológico no interior de São Paulo. Os dados foram utilizados e o procedimento resultou em um arranjo físico das empresas, com foco naquelas que realizam trocas simbióticas. O resultado foi analisado teoricamente, principalmente em relação a SI, que necessita ser o centro do layout final, sendo considerado satisfatório por atender o objetivo proposto, além disso foram colocadas algumas ideias para melhorar a questão da proximidade geográfica ao máximo. Os trabalhos futuros necessitam considerar o fluxo de produtos, em caso da presença de uma cadeia logística no parque e a necessidade de implementação do resultado para maiores análises. / The environmental aspect is increasingly present in daily companies routine, these companies always need to reduce costs and decrease their environmental impacts, concomitantly to that there is the need to reduce the residue disposal in the nature and the unbridled extraction of finite natural resources. An important concept found in literature is the Industrial Symbiosis (IS), which seeks to reuse residues to obtain a closed system with the environment impacts diminution. The IS occurs between companies and they are preferable to be inside a park for more efficiency, so it can be considered that geographical proximity influences in its success and that the park layout must be well planned to reach better results. This research proposes a procedure composed by six steps mainly based on Systematic Layout Planning (SLP) model from Muther (1973) to plan the layout of companies which participate in IS inside a system with defined limits, to find the best layout that favors the symbiotic exchanges and the created relationships. The proposed procedure directs since the data collection, passing by the matching, the flow analysis, until the establishment of the companies interrelationships inside the space. To demonstrate the procedure application and the possible results, this research held an application of the procedure through the data collection in the companies that are going to participate at an ecological park within the state of São Paulo. The data was used and the procedure resulted in the layout of the companies, focusing on that ones which perform symbiotic exchanges. The result was theoretically analyzed, mainly in relation to the IS, which needs to be the center of the final layout, it was considered satisfactory because attended the proposed objective, furthermore some ideas were given to improve the question of the geographic proximity to the maximum. The future researches need to consider the products flow, in case of the presence of a logistic chain in the park and the necessity of the implementation of the results to better analysis.

Fluxo de resíduos

Inter-relações

Planejamento de layout

Simbiose industrial

Trocas simbióticas

Industrial symbiosis

Interrelationships

Layout planning

Symbiotic exchanges

Waste stream

Methodology for capturing environmental, social and economic implications of industrial symbiosis in heavy industrial areas

Kurup, Biji R.

January 2007

Industrial operations have been attributed to causing social and environmental problems such as: acid rain; greenhouse gas emissions, air, water and soil pollution; plus health problems to neighbourhood communities. With the 3P (people, planet, profit) approach for sustainability as the background, there have been movements to establish the concept of eco-industrial development in existing or new industrial areas from the planning stage onwards. Industrial ecology (IE) is the operation of an industrial ecosystem which is based on the principles of operation of a natural ecosystem. Industrial symbiosis (IS), one of the principal applications of IE, is defined as inter-firm collaboration, where a network of industries collaborates in exchange of products, by-products, information, resources and wastes to reduce their collective environmental footprint to achieve mutual benefits. / Industrial symbiosis is a collaborative process of industries geographically located in an industrial park, which facilitates and enables an exchange of products, by-products and wastes to reduce the collective adverse impacts of the emission during the operation of these industries. However, IS faces a number of barriers. Importantly, it has been identified that there is a critical impediment to implementing future IS practices in the area. This is because of the number of barriers such as technical, regulatory, commercial as well as informational. In addition, there is an absence of a proven and well established evaluation methodology to identify the benefits of such practice. The true implications of IS might therefore remain underestimated, thereby failing to convince industry, government and the community to realize the opportunities IS can bring in attaining goals of sustainability in their operations. / The aim of this PhD research was to develop and trial a method for capturing the life cycle environmental, social and economic implications of industrial symbiosis in heavy industrial areas. This research was based on multi-disciplinary approach of examining environmental, social and financial aspects to develop an integrated method. In the Kwinana industrial Area (KIA), the primary research area in Western Australia, the opportunities were significant for such industrial symbiosis to happen because of the co-location of diverse industries. The research hypothesis that informs this thesis is that the assessment of implications of present IS might bring further opportunities for enhancing symbiosis between industries. Though the primary emphasis of the research was in the Kwinana Industrial Area, this approach could be applied to other heavy industrial areas. This site could be significant both nationally and internationally in providing a platform for business responses to regional sustainable development challenges, by documenting best practice and improving approaches for implementing industrial symbiosis. / This research addressed the objectives by using the developed Six Capitals Model (SCM) for identifying environmental, social and economic benefits. The values under these dimensions were analysed with regard to natural, ecosystem, human, social, financial and manufactured capitals for a project of wastewater reclamation for industrial use. Under the environmental dimension, the model revealed that resource conservation and resource security were achieved as a result of the operation of this project. These results are in line with the argument that industrial symbiosis secures and conserves resources due to the possibility of reclaiming the resources that were once discarded. Water contamination has been reduced as a result of the operation of this project. This indicator shows that there is an improvement in maintaining the ecosystem capital. / In terms of human capital, sharing information between industries and opportunities of sharing infrastructure and technology has been improved. Regarding community capital, sharing of information between industries and communities, has increased as a result of this project. Collaboration of government bodies, level of understanding about IS projects due to increasing communication between various stakeholders, and increase of employment opportunities are notable, as value has been generated for community capital since the project started. In terms of financial capital of the project, the majority of the participants did not gain any financial savings in terms of direct costs but rather accrued short term costs. This was due to the infrastructure cost involved as part of installation of pipes and pumps. It was also due to the high cost of the reclaimed water than the scheme water. In addition, the analysis showed that most of the participants of the project did not gain any savings in the indirect costs such as hidden and legal costs, such as permit costs, compliance costs, future fines and penalties. However, as part of manufactured capital, there were savings due to improved business opportunities as well as infrastructure, for business and community collectively. / The results of this thesis show that broader benefits of symbiosis can be achieved, not only from operation of the project, but also from the influence of processes of symbiosis. Among them are connection, communication and collaboration between the project partners. There has been a substantial increase in the networking of industries and formation of multi groups for addressing various issues faced by industry and community in the Kwinana. There has also been a further increase in the transparency of information dissemination and communication through industries council’s website. In addition, there has been an improvement in the rate of participation of community members and groups in the Communities and Industries Forum (CIF) which resulted in the formation of further stakeholder groups by industries council as a platform for addressing the issues of industries and communities. / IS practices strengthen the EIP concept and increase the chances of sustainable industrial development regionally due to collaboration of community of businesses and local and regional community. IS also increases the reputation and license to operate in the community. There are many advantages for using the Model developed in the thesis to assess the benefits of IS. First, the values of ecosystem values maintained are able to be accounted for in addition to natural capital values. The Six Capital Model can also account human capital values in addition to community capital. The Model also accounted the manufactured capital in addition to financial capital and it gives an opportunity to identify the value generated towards community and companies. / Finally, the Model enables a calculation of the internal costs and external costs and benefits so that industries are able to understand the real cost of the projects. One of the main advantages of this method is that with, right indicators, the intangible values of the IS process can also be assessed and reported.

Industriell symbios i Malmö stad utifrån Transition Management modellen / Industrial symbiosis in Malmö based on the Transition Managemant model

Hagström, Agnes, Ghoreishi, Jasmin

January 2021

Jordens resurser används flitigt av människan och bidrar bland annat till samhällsutvecklingar. Men användandet bidrar också till utsläpp av växthusgaser, global uppvärmning och vattenanvändning. För att minska det ekologiska fotavtrycket och resursanvändningen har städer och aktörer börjat utveckla industriell symbios som är ett samarbete där en restprodukt från ett företag blir en resurs till ett annat företag. Den här samhällsutveckling påvisar en samhällsövergång för att utveckla och sammanföra ekonomin, miljön och samhället. Studien undersöker om transition management som styrningsstrategi kan appliceras i etableringen av industriell symbios i Malmö hamnområde. För att svara på frågan behövdes en delfrågeställning som löd: Hur har processen av projektet, delad energi är dubbel energi, gått till i Malmö stad hamnområde? Delad energi är dubbel energi är ett projekt som utvecklat industriell symbios i Malmö stad. Projektet påbörjades 2015 och avslutades under 2019 där 12 aktörer varit delaktiga. Fyra intervjuer genomfördes med personer delaktiga i projektet på ett eller annat sätt. I analysen sammanställdes information från informanterna och på delad energi är dubbel energis hemsida, utifrån transition management-modellen. Vi delade upp analysen i fyra komponenter från modellen som är ​transition-arena​, transition-agenda,​​transition-actiono​ch​transition-adaption​.Idethärarbetetbehandlarvi transition-​processensomövergångentillcirkulärekonomigenomindustriellsymbios. Transition management-modellens syfte är att genom en ​transition gå från ett jämviktsläge till ett annat. / The earth's resources contribute, among other things, to societal developments. But it also contributes to greenhouse gas emissions, global warming and water use. To reduce the ecological footprint and resource use, cities and actors have begun to develop industrial symbiosis, which is a collaboration where a residual product from one company becomes a resource for another company. This societal development demonstrates a societal transition to develop and bring together economy, the environment and society. The purpose of this study was to investigate whether transition management as a management strategy could have been applicable in the establishment process of industrial symbiosis in the Malmö port area. The main question was whether it would have been possible for the City of Malmö to use the transition management model during the establishment process of industrial symbiosis in the port area. To answer that question, a sub-question was needed: How did the process of the project, ​delad energi är dubbel energi, tok place in the port area of ​​Malmö? ​Delad energi är dubbel energi is the project that has developed industrial symbiosis in the city of Malmö, where we have, among other things, taken part in the project process. The project began in 2015 and ended in 2019 where 12 actors were involved at the beginning. To answer our questions, four interviews were conducted with people who have all been involved in the project in one way or another. The analysis compiled the information we received from the informants and what we found on shared energy is a dual energy website, based on the transition management model. We divided the analysis into four components from the model, which are transition arena, transition agenda, transition action and transition adaptation. In this work, we treat the transition process as the transition to a circular economy through industrial symbiosis. The purpose of the transition management model is to use the specified transition to go from one equilibrium position to another.

​transition management

industrial symbiosis

circular economy

transition management

industriell symbios

cirkulär ekonomi

Earth and Related Environmental Sciences

Geovetenskap och miljövetenskap

Inter-organizational Symbiotic Relationships : Key Factors for Success / Sa​marbetsformer för industriell symbios : Nyckelfaktorer för framgång

Hållstedt, Ulrika

January 2016

This report focuses on governance mechanisms for industrial symbiosis (IS). The study takes an organizational approach on material and energy exchanges between different organizations (or different parts in the same organization) leading to increased regional resource efficiency. This project explores different strategies for governance mechanisms and analyzes how these affect trust. Significant factors for initiating and keeping a collaboration successful are also analyzed. Representatives from 24 Swedish cases of symbiotic arrangements are interviewed and ten themes affecting IS collaborations are identified. The themes are governance structure, shared vision, previous collaboration, local conditions, initiating a collaboration, activities to build trust, conflicts, transaction-based or goal-oriented approach, indicators and distribution of costs and benefits. Among the governance structures used are hierarchy (collaboration between different parts of the same organization), joint venture, strategic alliance and different types of agreements. Common is a 10-15 years agreement, sometimes combined with a strategic discussion about the development of the collaboration. Three factors particularly affecting collaborations are identified: strategic meetings, indicators related to the collaboration and fair profit distribution. The factor strategic meetings is about combining long term agreements with innovation. Long term agreements might be necessary when a project requires investments. Meanwhile, this can suppress innovation by supporting outdated solutions. The paradox of needing both long term agreements and continued innovation may be solved by the practice of having strategic meetings and contract surveillance. Another significant factor for successful collaborations is the use of jointly evaluated indicators. To jointly evaluate a project according to predetermined indicators gives all parties the opportunity to know when a collaboration is successful. The third significant factor is fair profit distribution. Unfair profit distribution may delay or stop a project. It may also decrease trust in an ongoing project. A fair profit distribution is a key factor for enabling long term relationships. / Den här rapporten studerar samarbetsformer för industriell symbios (IS). Fokus för den här studien är material- och energiutbyten mellan organisationer eller mellan olika delar i samma organisation som leder till regional resurseffektivisering. Val och implementering av samarbetsform analyseras i relation till förtroende mellan organisationer och lyckade samarbeten. Viktiga faktorer för att lyckas starta och bibehålla ett symbiossamarbete analyseras också. Representanter från 24 svenska fall av symbiotiska samarbeten intervjuas och deras svar analyseras utifrån tio teman: samarbetsform, gemensam vision, tidigare samarbete, lokala förutsättningar, att starta ett samarbete, aktiviteter för att bygga förtroende, konflikter, transaktionsbaserat eller målinriktat förhållningssätt, indikatorer och vinstfördelning. Bland de samarbetsformer som används återfinns hierarki (samarbete mellan olika delar i samma organisation), joint venture, strategisk allians och olika typer av avtal. Vanligt är avtal på 10-15 år, ibland kombinerat med en strategisk diskussion om samarbetets utveckling. Tre faktorer identifieras som extra viktiga vid symbiotiska samarbeten: strategiska möten, indikatorer relaterade till samarbetet och rättvis vinstfördelning. Strategiska möten handlar om att kombinera långsiktiga avtal med innovation. Långsiktiga avtal behövs ofta i symbiossamarbeten för att kunna göra investeringar. Samtidigt kan detta låsa fast utdaterade lösningar och försvåra innovation och utveckling. Att ha avtalsbevakning och en strategisk diskussion kring utveckling av samarbetet har identifierats som ett sätt att lösa detta på. En annan betydande faktor för lyckade samarbeten är gemensamma indikatorer relaterade till samarbetet. Att gemensamt utvärdera samarbetet enligt uppsatta indikatorer ger alla parter möjlighet att veta när ett samarbete lyckats. Den tredje identifierade faktorn är rättvis vinstfördelning. Orättvis vinstfördelning kan stoppa eller försena ett samarbete. Det kan också urholka parternas förtroende till varandra. En rättvis vinstfördelning kan däremot skapa förtroende och är en nyckelfaktor till ett långsiktigt samarbete.

Governance structure

industrial symbiosis

industrial ecology

inter-organizational collaboration

trust

Industriell symbios

industriell ekologi

förtroende

samarbete

samarbetsform

Environmental Management

Miljöledning