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Title [sv]
Industriell symbios i energikrisens spår – nya arbetssätt för att främja ökad biogasproduktion genom samverkan
Title [en]
Industrial symbiosis in the wake of the energy crisis – new ways of working to promote increased biogas production through collaboration
Abstract [sv]
Projektet är ett samarbete mellan Högskolan i Halmstad, IVL (Svenska miljöinstitutet) samt Vessige Biogas, och arbetar med att förstå drivkrafter och hinder för industriell symbios i biogassammanhang och att identifiera lämpliga former för samarbete mellan intressenter.Produktion och användning av biogas är ett cirkulärt system som kan bidra till energiförsörjning och klimatomställning. Biogassystemet behöver dock involvera industriella aktörer och andra organisationer för att utveckla biogasmarknadens fulla potential. Projektet med Högskolan i Halmstad, IVL (Svenska miljöinstitutet) samt Vessige Biogas som partner kommer att arbeta med att förstå drivkrafter och hinder för industriell symbios i biogassammanhang, och att identifiera lämpliga former för samarbete mellan intressenter. Projektet finansieras av Energimyndigheten och pågår mellan maj 2023 och december 2025 med syfte att identifiera aktörerna, deras roller och potentiella interaktioner inom systemet för industriell symbios. Affärspartner från olika delar av värdekedjan som har ett intresse av att utveckla biogasmarknaden, hållbara affärsmodeller och industriella symbios kommer att involveras, och ett ramverk för att etablera praktikbaserad affärsutveckling inklusive samarbete mellan intressenter kommer att utarbetas. Effekten förväntas bli mer cirkulära lösningar som involverar biogasbranschen, och att mer biogas kan användas och ersätta naturgas.Projektet innehåller olika arbetspaket som kommer att utforska hur konceptet industriell symbios kan appliceras i en biogaskontext, vilka drivkrafter och hinder som finns för etablering av industriella symbios inom biogas-”case” och slutligen utveckla en prototyp för en samverkansmodell som ska underlätta möten och interaktioner inom industriella symbios där biogasaktörer ingår.
Abstract [en]
The project is a collaboration between Halmstad University, IVL (The Swedish Environmental Research Institute) and Vessige Biogas, and works to understand driving forces and obstacles for industrial symbiosis in the context of biogas and to identify suitable forms of collaboration between stakeholders.Production and use of biogas is a circular system that can contribute to energy supply and climate change. However, the biogas system needs to involve industrial actors and other organisations in order to develop the full potential of the biogas market.The project, with Halmstad University, IVL (the Swedish Environmental Research Institute) and Vessige Biogas as partners, will work to understand driving forces and obstacles for industrial symbiosis in the context of biogas, and to identify suitable forms of cooperation between stakeholders.The project is financed by the Swedish Energy Agency and runs between May 2023 and December 2025 with the aim of identifying the actors, their roles and potential interactions within the system for industrial symbiosis. Business partners from different parts of the value chain who have an interest in developing the biogas market, sustainable business models and industrial symbiosis will be involved, and a framework for establishing practice-based business development including collaboration between stakeholders will be created. This is expected to result in more circular solutions involving the biogas industry, and that more biogas can be used and replace natural gas.The project contains various work packages that will explore how the concept of industrial symbiosis can be applied in a biogas context, what driving forces and obstacles exist for the establishment of industrial symbiosis within the case of biogas, and finally develop a prototype for a collaboration model that will facilitate meetings and interactions within industrial symbioses in which biogas actors are included.
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Hansson, A., Karlsson, N., Klugman, S., Johansson, J., Mattsson, M., Hjort, A., . . . Andersson, H. (2024). Biogas production in the industrial symbiosis context – facilitating collaboration through digitalization. In: 5THCESUST2024: 5TH SYMPOSIUM ON CIRCULAR ECONOMY AND SUSTAINABILITY: . Paper presented at 5THCESUST2024: 5TH SYMPOSIUM ON CIRCULAR ECONOMY AND SUSTAINABILITY.
Open this publication in new window or tab >>Biogas production in the industrial symbiosis context – facilitating collaboration through digitalization
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2024 (English)In: 5THCESUST2024: 5TH SYMPOSIUM ON CIRCULAR ECONOMY AND SUSTAINABILITY, 2024Conference paper, Oral presentation with published abstract (Refereed)
Abstract [en]

Improving sustainability performance and adapting to circular economy principles in operational business strategies are becoming increasingly prioritized. In this pursuit, the concept of industrial symbiosis (IS) has become increasingly relevant. IS represents a collaborative approach where the interplay of material, residual waste, energy, and infrastructure exchanges aims to yield not only economic and environmental advantages for the participating companies but also substantial societal benefits by using resources more efficiently. Biogas production is such an example, it can reduce greenhouse gas emissions since it can produce heat and electricity, replace renewable fuel for vehicles, or be used as input material for industrial use. The digestate from biogas production can also be used as an effective agricultural fertilizer to replace chemical fertilizers which are produced using fossil energy.

Digital tools and platforms in IS can be used to different extent depending on businesses levels of digital maturity (the extent to which businesses adapt to ongoing digital change and integrate digitalization). Digital tools and platforms hold a central role for developing various advantages in biogas-based IS, but since the digital maturity for IS focusing on biogas production is uncertain, the current efficiency obtained by tools and platforms is unknown. Therefore, through semi-structured interviews and study visits, this study assesses stakeholder collaboration and use of digital tools at five IS sites with biogas production in Sweden. It explores (i) current digital maturity and collaboration characteristics amongst established biogas-based IS, and (ii) needs amongst stakeholders for development of digital tools and platforms to promote digital maturity, monitoring, collaboration, and knowledge exchange in current and future IS structures.

Preliminary results of the on-going study show that the use of digital tools varies depending on the character and size of resource flows that are included in the collaboration, and due to the internal digital maturity of the involved companies. In general, the use of digital tools for stakeholder interaction is on low or medium level, in which manual handling is required and little is automated. This complies with the sites being relatively small, and the number of stakeholders involved are relatively few. Moreover, the preliminary results show that the interest of future development of digital tools is found to be related to business development and expanded market opportunities through diversified raw material use, increased production, and new distribution channels. In addition, a demand of digital platforms for exchange of experience and competence supply has been identified.

Keywords
circular economy, industrial symbiosis, biogas, digital maturity
National Category
Renewable Bioenergy Research
Research subject
Smart Cities and Communities, PROACTS; Smart Cities and Communities, PROACTS
Identifiers
urn:nbn:se:hh:diva-54215 (URN)
Conference
5THCESUST2024: 5TH SYMPOSIUM ON CIRCULAR ECONOMY AND SUSTAINABILITY
Funder
Swedish Energy Agency, P2022-01103
Available from: 2024-07-03 Created: 2024-07-03 Last updated: 2024-07-12
Principal InvestigatorMattsson, Marie
Co-InvestigatorJohansson, Jeaneth
Co-InvestigatorHansson, Anna
Co-InvestigatorLygnerud, Kristina
Co-InvestigatorHjort, Anders
Co-InvestigatorGrahn, Desirée
Co-InvestigatorAndersson, Henrik
Funder
Period
2023-03-01 - 2025-12-31
National Category
Mechanical EngineeringEnvironmental Engineering
Identifiers
DiVA, id: project:3089Project, id: P2022-01103

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