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Journal articles on the topic 'Industrial symbiosis networks'

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Published: 10 December 2022
Last updated: 29 January 2023

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1

Haq, Hafiz, Petri Välisuo, and Seppo Niemi. "Modelling Sustainable Industrial Symbiosis." Energies 14, no. 4 (February 22, 2021): 1172. http://dx.doi.org/10.3390/en14041172.

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Industrial symbiosis networks conventionally provide economic and environmental benefits to participating industries. However, most studies have failed to quantify waste management solutions and identify network connections in addition to methodological variation of assessments. This study provides a comprehensive model to conduct sustainable study of industrial symbiosis, which includes identification of network connections, life cycle assessment of materials, economic assessment, and environmental performance using standard guidelines from the literature. Additionally, a case study of industrial symbiosis network from Sodankylä region of Finland is implemented. Results projected an estimated life cycle cost of €115.20 million. The symbiotic environment would save €6.42 million in waste management cost to the business participants in addition to the projected environmental impact of 0.95 million tonne of CO2, 339.80 tonne of CH4, and 18.20 tonne of N2O. The potential of further cost saving with presented optimal assessment in the current architecture is forecast at €0.63 million every year.
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2

Posch, Alfred, Abhishek Agarwal, and Peter Strachan. "Editorial: Managing Industrial Symbiosis (IS) Networks." Business Strategy and the Environment 20, no. 7 (November 2011): 421–27. http://dx.doi.org/10.1002/bse.736.

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3

Doménech, Teresa, and Michael Davies. "The role of Embeddedness in Industrial Symbiosis Networks: Phases in the Evolution of Industrial Symbiosis Networks." Business Strategy and the Environment 20, no. 5 (October 5, 2010): 281–96. http://dx.doi.org/10.1002/bse.695.

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4

Domenech, Teresa, and Michael Davies. "The social aspects of industrial symbiosis: the application of social network analysis to industrial symbiosis networks." Progress in Industrial Ecology, An International Journal 6, no. 1 (2009): 68. http://dx.doi.org/10.1504/pie.2009.026583.

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5

Zeng, Yu, Renbin Xiao, and Xiangmei Li. "A Resilience Approach to Symbiosis Networks of Ecoindustrial Parks Based on Cascading Failure Model." Mathematical Problems in Engineering 2013 (2013): 1–11. http://dx.doi.org/10.1155/2013/372368.

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Evaluation and improvement of resilience in ecoindustrial parks have been the pressing issues to be addressed in the study of safety. In this paper, eco-industrial systems are extracted as symbiosis networks by using social network analysis first. We then construct a novel cascading failure model and propose an evaluation method of node importance according to the features of symbiosis networks of eco-industrial parks. Based on the cascading model, an effective new method, that is, the critical threshold, is put forward to quantitatively assess the resilience of symbiosis networks of eco-industrial parks. Some theoretical analysis is furthermore provided to the critical threshold. Finally, we take Jinjie eco-industrial system in Shanxi Province of China as a case to investigate its resilience. The key potential nodes are identified by using our model. We also find the respective relation among the resilience of symbiosis networks and the parameters in our cascading model. Theoretical analysis results and numerical simulations both show the optimal value of the tunable load parameter with which the strongest resilience level against cascading failures can be attained in symbiosis networks of eco-industrial parks.
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6

Fichtner, Wolf, Ingela Tietze-Stockinger, and Otto Rentz. "On industrial symbiosis networks and their classification." Progress in Industrial Ecology, An International Journal 1, no. 1/2/3 (2004): 130. http://dx.doi.org/10.1504/pie.2004.004675.

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7

Herczeg, Gábor, Renzo Akkerman, and Michael Zwicky Hauschild. "Supply chain collaboration in industrial symbiosis networks." Journal of Cleaner Production 171 (January 2018): 1058–67. http://dx.doi.org/10.1016/j.jclepro.2017.10.046.

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8

Liu, Kai, Xingping Wang, and Yiran Yan. "Network Analysis of Industrial Symbiosis in Chemical Industrial Parks: A Case Study of Nanjing Jiangbei New Materials High-Tech Park." Sustainability 14, no. 3 (January 26, 2022): 1381. http://dx.doi.org/10.3390/su14031381.

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As the primary drivers of the chemical industry, chemical industrial parks should be characterized by industrial symbiosis, which is essential for realizing the worldwide transformation from linear to circular economies based on sustainable development. At present, a lack of sufficient attention is paid to analyzing the structural characteristics and interaction patterns of industrial symbiosis networks in chemical industrial parks, especially in large-scale specialized chemical industrial parks on a national scale. In this context, with Nanjing Jiangbei New Materials High-Tech Park as an example, this study applies a social-network analysis to empirically investigate the structural characteristics and interaction patterns of an industrial symbiosis network. The results revealed that the industrial symbiosis network of Nanjing Jiangbei New Materials High-Tech Park is currently in a state of low-level agglomeration with a poor transitivity index and that short-distance straight chains are the main connections between enterprises with few transverse connections. Recycling enterprises occupy the core position in the network, while chemical manufacturing enterprises are mostly located on the periphery of the network and fail to establish sufficient effective connections. In terms of individuals, stakeholders’ understanding and evaluation of industrial symbiosis are insufficient; in terms of enterprises, the obstruction of byproducts and waste information circulation and other factors are the main obstacles restricting the industrial symbiosis activities in Nanjing Jiangbei New Materials High-Tech Park. Some policy recommendations are proposed to improve the industrial symbiosis network in large-scale specialized chemical industrial parks on a national scale, and these include establishing industrial symbiosis information systems for the parks, fostering multiple central nodes, and advancing nested development among industrial chains.
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9

Chopra, Shauhrat S., and Vikas Khanna. "Understanding resilience in industrial symbiosis networks: Insights from network analysis." Journal of Environmental Management 141 (August 2014): 86–94. http://dx.doi.org/10.1016/j.jenvman.2013.12.038.

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10

Neves, Angela, Radu Godina, Susana G. Azevedo, and João C. O. Matias. "Current Status, Emerging Challenges, and Future Prospects of Industrial Symbiosis in Portugal." Sustainability 11, no. 19 (October 4, 2019): 5497. http://dx.doi.org/10.3390/su11195497.

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Industrial symbiosis has proven to be an important tool for improving business sustainability with numerous environmental, economic, and social benefits. The literature on this subject has been provided with countless case studies of the application of this practice in different geographical locations. However, studies concerning Portugal in this area are still scarce. Thus, this article aims to map and analyze the existing cases of industrial symbiosis in Portugal, as well as the current state and the legislative context regarding this practice. It also aims to analyze the main barriers to the growth of synergy relations and outline new paths for the development of industrial symbiosis in Portugal. From the analysis to the case studies, it was possible to conclude that most industrial symbiosis networks have few actors, and networks with two and three are common. However, owing to strategic plans, the type of existing economic activities, and the waste generated, there is much potential for industrial symbiosis networks to be established and to contribute to emission reductions, more efficient use of resources, and reduced external dependence. However, in order to increase industrial symbiosis, concerted action must be taken at various levels to encourage companies to develop synergy relations. Changing the legislative framework, making funds available, the role of local governments, the existence of a facilitator, and the use of some industries as anchor tenants are some of the aspects that can contribute to the increase of industrial symbiosis in Portugal.
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11

Uršič, Erika Džajić. "Systematized analysis using data mining’s methodology on the topic of regional industrial symbiosis and its networks." Research in Social Change 12, no. 3 (September 1, 2020): 78–99. http://dx.doi.org/10.2478/rsc-2020-0015.

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Abstract The aim of this paper is the analysis and a presentatition of texts and terminological ontology of scientific and professional publications in the field of regional Industrial Symbiosis and Industrial Symbiotic Networks. With computer-aided text analysis it is possible to have a comprehensive overview of the publications of works in this field and a more detailed presentation of the most fruitful concepts of publications.
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12

Zeng, Yu, Renbin Xiao, and Xiangmei Li. "Vulnerability Analysis of Symbiosis Networks of Industrial Ecology Parks." Procedia Computer Science 17 (2013): 965–72. http://dx.doi.org/10.1016/j.procs.2013.05.123.

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13

Bacudio, Lindley R., Michael Francis D. Benjamin, Ramon Christian P. Eusebio, Sed Anderson K. Holaysan, Michael Angelo B. Promentilla, Krista Danielle S. Yu, and Kathleen B. Aviso. "Analyzing barriers to implementing industrial symbiosis networks using DEMATEL." Sustainable Production and Consumption 7 (July 2016): 57–65. http://dx.doi.org/10.1016/j.spc.2016.03.001.

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14

Mirata, Murat, and Tareq Emtairah. "Industrial symbiosis networks and the contribution to environmental innovation." Journal of Cleaner Production 13, no. 10-11 (August 2005): 993–1002. http://dx.doi.org/10.1016/j.jclepro.2004.12.010.

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15

Aviso, Kathleen B. "Design of robust water exchange networks for eco-industrial symbiosis." Process Safety and Environmental Protection 92, no. 2 (March 2014): 160–70. http://dx.doi.org/10.1016/j.psep.2012.12.001.

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16

Samaroo, Nicholas, Natalia Koylass, Miao Guo, and Keeran Ward. "Achieving absolute sustainability across integrated industrial networks – a case study on the ammonia process." Green Chemistry 22, no. 19 (2020): 6547–59. http://dx.doi.org/10.1039/d0gc02520h.

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17

Korevaar, Gijsbert. "Industrial Ecology in support of building a Circular Economy." Ökologisches Wirtschaften - Fachzeitschrift 37, no. 1 (February 28, 2022): 24–25. http://dx.doi.org/10.14512/oew370124.

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Circular economy and industrial ecology mark different concepts that both support the transition to a sustainable society. Industrial symbiosis, one of the main tools in the field of industrial ecology, can support a successful circular economy, because of its focus on industrial networks and clusters.
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18

Barrau, Enora, and Mathias Glaus. "Structural and Environmental Performance of Evolving Industrial Symbiosis: A Multidimensional Analysis." Sustainability 15, no. 1 (December 30, 2022): 693. http://dx.doi.org/10.3390/su15010693.

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Industrial symbiosis (IS) involves networks of organizations collaborating through flow exchanges. Scientific research has shown that such systems are able to provide benefits at the environmental level. Structural organization and stability were also studied, as they are linked to resilience (maintenance of activity over time), especially with ecological network analysis (ENA), which considers several dimensions in the assessment of a network organization. Studies combining ENA and environmental assessment are lacking in the literature; therefore, the links between the two dimensions are not well documented. The intention of this study was to fill this gap by analyzing structural and environmental performance simultaneously using ENA and a life-cycle-analysis-based approach focusing on the structural topology of IS. The results show that the two dimensions do not strictly influence each other. Structural performance was found to vary depending on the network structure topology, whereas environmental performance was influenced by the network complexity. To ensure the continuation of IS benefits, the two dimensions should be considered in the decision-making process in IS planification, even if they are independent evaluation criteria. Tradeoffs should be based on IS development possibilities and territorial needs.
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19

Butturi, Maria Angela, Miguel A. Sellitto, Francesco Lolli, Elia Balugani, and Alessandro Neri. "A model for renewable energy symbiosis networks in eco-industrial parks." IFAC-PapersOnLine 53, no. 2 (2020): 13137–42. http://dx.doi.org/10.1016/j.ifacol.2020.12.2504.

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20

Galvan-Cara, Aldwin-Lois, Moisès Graells, and Antonio Espuña. "Application of Industrial Symbiosis principles to the management of utility networks." Applied Energy 305 (January 2022): 117734. http://dx.doi.org/10.1016/j.apenergy.2021.117734.

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21

Domenech, Teresa, and Michael Davies. "Structure and morphology of industrial symbiosis networks: The case of Kalundborg." Procedia - Social and Behavioral Sciences 10 (2011): 79–89. http://dx.doi.org/10.1016/j.sbspro.2011.01.011.

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22

Park, Hung-Suck, and Shishir Kumar Behera. "Methodological aspects of applying eco-efficiency indicators to industrial symbiosis networks." Journal of Cleaner Production 64 (February 2014): 478–85. http://dx.doi.org/10.1016/j.jclepro.2013.08.032.

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23

Neves, Angela, Radu Godina, Susana G. Azevedo, Carina Pimentel, and João C.O. Matias. "The Potential of Industrial Symbiosis: Case Analysis and Main Drivers and Barriers to Its Implementation." Sustainability 11, no. 24 (December 11, 2019): 7095. http://dx.doi.org/10.3390/su11247095.

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Industrial symbiosis, which is characterised mainly by the reuse of waste from one company as raw material by another, has been applied worldwide with recognised environmental, economic, and social benefits. However, the potential for industrial symbiosis is not exhausted in existing cases, and there is still a wide range of opportunities for its application. Through a comprehensive literature review, this article aims to compile and analyse studies that focus on potential industrial symbiosis in real contexts, to highlight the margin of optimisation that is not being used. The cases reported in the publications identified here were characterised and analysed according to geographic location, type of economic activity, waste/by-products, main benefits, and the methods employed in the studies. From this analysis, we conclude that there is great potential for applications involving industrial symbiosis throughout the world, and especially in Europe, corresponding to 53% of the total cases analysed. Manufacturing stood out as the sector with the highest potential for establishing symbiosis relationships, and the most common types of waste streams in potential networks were organic, plastic and rubber, wood, and metallic materials. This article also discusses the main drivers and barriers to realising the potential of industrial symbiosis. The diversity of industries, geographical proximity, facilitating entities and legislation, plans, and policies are shown to be the main drivers.
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24

Marinelli, Simona, Maria Angela Butturi, Bianca Rimini, Rita Gamberini, and Samuele Marinello. "Evaluating the environmental benefit of energy symbiosis networks in eco-industrial parks." IFAC-PapersOnLine 53, no. 2 (2020): 13082–87. http://dx.doi.org/10.1016/j.ifacol.2020.12.2260.

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25

Yang, Junliang, and Kai Zheng. "The effect of adaptive behavior on risk propagation in industrial symbiosis networks." Physics Letters A 384, no. 36 (December 2020): 126915. http://dx.doi.org/10.1016/j.physleta.2020.126915.

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26

Wang, Delu, Jingying Li, Yadong Wang, Kaidi Wan, Xuefeng Song, and Yun Liu. "Comparing the vulnerability of different coal industrial symbiosis networks under economic fluctuations." Journal of Cleaner Production 149 (April 2017): 636–52. http://dx.doi.org/10.1016/j.jclepro.2017.02.137.

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27

Fraccascia, Luca, Vito Albino, and Claudio A. Garavelli. "Technical efficiency measures of industrial symbiosis networks using enterprise input-output analysis." International Journal of Production Economics 183 (January 2017): 273–86. http://dx.doi.org/10.1016/j.ijpe.2016.11.003.

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28

Tang, Xiaoying, and Yong He. "Supply Chain Coordination in Industrial Symbiosis Networks with Uncertain Waste Demand and Supply." Mathematical Problems in Engineering 2022 (July 1, 2022): 1–14. http://dx.doi.org/10.1155/2022/3579378.

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By-product synergy (BPS) is considered an effective measure to support a circular economy and sustainable development as it can reduce waste disposal and natural resource consumption. The adoption of BPS can create new supplier-buyer relations that are different from traditional ones because the traded products are usually outside of the core business of the supplier, so the new relations need to be coordinated. This paper considers a two-echelon supply chain consisting of a manufacturer and a retailer. The by-product is randomly generated along with the production of the core product. The manufacturer sells its core product directly to the market with uncertain demand and sells the by-product to the retailer facing stochastic demand. To coordinate both the manufacturer’s production and retailer’s order decisions and achieve efficient performance, we analyze several contracts and find that a combined contract with an ABD contract and a revenue sharing contract could coordinate the supply chain and realize Pareto-improvement. A numerical experiment is also carried out to explore the influences of fluctuations in demand and supply on the performance of the manufacturer, the retailer, and the total supply chain.
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29

Mileva-Boshkoska, Biljana, Borut Rončević, and Erika Uršič. "Modeling and Evaluation of the Possibilities of Forming a Regional Industrial Symbiosis Networks." Social Sciences 7, no. 1 (January 17, 2018): 13. http://dx.doi.org/10.3390/socsci7010013.

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30

Ponis, Stavros T. "Industrial Symbiosis Networks in Greece: Utilising the Power of Blockchain-based B2B Marketplaces." Journal of The British Blockchain Association 4, no. 1 (December 5, 2020): 1–7. http://dx.doi.org/10.31585/jbba-4-1-(4)2021.

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31

Valentine, Scott Victor. "Kalundborg Symbiosis: fostering progressive innovation in environmental networks." Journal of Cleaner Production 118 (April 2016): 65–77. http://dx.doi.org/10.1016/j.jclepro.2016.01.061.

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32

Fraccascia, Luca, and Devrim Murat Yazan. "The role of online information-sharing platforms on the performance of industrial symbiosis networks." Resources, Conservation and Recycling 136 (September 2018): 473–85. http://dx.doi.org/10.1016/j.resconrec.2018.03.009.

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33

Feiferytė-Skirienė, Akvilė, and Žaneta Stasiškienė. "Seeking Circularity: Circular Urban Metabolism in the Context of Industrial Symbiosis." Sustainability 13, no. 16 (August 13, 2021): 9094. http://dx.doi.org/10.3390/su13169094.

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Cities are leading in the implementation of circular economy (CE) principles and sustainable development due to the concentration of knowledge, resources and technology while remaining the highest consumers and producers of resources. CE, urban metabolism (UM) and industrial symbiosis (IS) offer a new more holistic approach based on material and energy flow analysis and materials recovery from waste by creating IS networks to support a new circular urban system (CUM) which contrast to the traditional linear extract-produce-use-dispose model of economic systems. In this paper, we present the concepts of CE, IS and CUM and how the new framework could improve cities transition to sustainability and CE, with detailed CE and IS indicators analysis. We introduce the relations between IS, CE and UM concepts, how they can be used and monitored in the CUM framework. CUM can help unite urban planners, the city’s governance and the business sector to promote collaboration across the city to improve future sustainability and circularity by closing loops.
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34

Ažman Momirski, Lucija, Barbara Mušič, and Boštjan Cotič. "Urban Strategies Enabling Industrial and Urban Symbiosis: The Case of Slovenia." Sustainability 13, no. 9 (April 21, 2021): 4616. http://dx.doi.org/10.3390/su13094616.

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Industrial symbiosis (IS) recognizes the exchange of waste resources and by-products between companies that do not normally cooperate in resource exchange; on the other hand, urban symbiosis (UrS) recognizes the use of solid waste in cities as input sources for industries that do not normally accept these sources. It is difficult to realize both in a pre-planned process, and there are few successful initiatives based on the exchange of waste and energy. The main objective of this research is to find out whether there are urban strategies that support the emergence, existence and development of IS and/or UrS in Slovenia. National documents, networks, projects, programs, and national statistical sources were examined. The Integrated Sustainable Urban Development Strategies (ISUSD) for eleven cities and municipalities were reviewed against ten selected indicators. The main findings are that there is intense awareness raising on IS and UrS, and adequate overall legislative support, aligned with EU legislation. Nevertheless, there has been surprisingly less waste conversion to energy recovery since 2010. The reuse of by-products either for energy or new products is non-existent or negligible. Selected main urban strategies for cities in Slovenia are far from setting more concrete guidelines for the development of IS and/or UrS. In the future, more successful integration of IS and UrS is possible in the context of regeneration development of brownfield sites.
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35

Zhang, Xiaoping, and Lihe Chai. "Structural features and evolutionary mechanisms of industrial symbiosis networks: Comparable analyses of two different cases." Journal of Cleaner Production 213 (March 2019): 528–39. http://dx.doi.org/10.1016/j.jclepro.2018.12.173.

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36

Juárez-García, Maricruz, Gabriel Contreras-Zarazúa, Juan Gabriel Segovia-Hernández, and José María Ponce-Ortega. "Sustainable Carbon–Hydrogen–Oxygen symbiosis networks: Intensifying separation sections." Chemical Engineering and Processing - Process Intensification 179 (September 2022): 109092. http://dx.doi.org/10.1016/j.cep.2022.109092.

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37

Li, Yang, and Lei Shi. "The Resilience of Interdependent Industrial Symbiosis Networks: A Case of Yixing Economic and Technological Development Zone." Journal of Industrial Ecology 19, no. 2 (March 13, 2015): 264–73. http://dx.doi.org/10.1111/jiec.12267.

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38

Behera, Shishir Kumar, Jung-Hoon Kim, Sang-Yoon Lee, Sangwon Suh, and Hung-Suck Park. "Evolution of ‘designed’ industrial symbiosis networks in the Ulsan Eco-industrial Park: ‘research and development into business’ as the enabling framework." Journal of Cleaner Production 29-30 (July 2012): 103–12. http://dx.doi.org/10.1016/j.jclepro.2012.02.009.

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39

de Souza, Vitor, Milton Borsato, and Jacqueline Bloemhof. "Designing Eco-Effective Reverse Logistics Networks." Journal of Industrial Integration and Management 02, no. 01 (March 2017): 1750003. http://dx.doi.org/10.1142/s2424862217500038.

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Reverse Logistics Networks (RLNs) have grown in importance after return policies became compulsory. Lately, questions have been raised whether they effectively decrease environmental impact: efforts to optimize the eco-efficiency of RLNs through minimizing costs and emissions were deployed, but results are not advancing with the necessary speed. Alternatively, the eco-effectiveness (“doing the right thing” for the environment) approach emerges, promoting a supportive relationship, balancing environment and economy. This research aims to model the design (or redesign) process of eco-effective RLNs. There are numerous ecodesign tools focusing on product or service design, but an eco-effective design process conceived specifically for logistics design purposes is yet to be delivered. Research was carried out using the Design Science Research Methodology and an exemplification for the Poultry Industry was outlined to demonstrate how the process unrolls. The model was conceived using a combination of Upcycling, Industrial Symbiosis, TRIZ rationale and Collaboration for Sustainability. The proposed design process model will help the conception of more innovative, eco-effective logistics networks.
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40

Domenech, Teresa, Raimund Bleischwitz, Asel Doranova, Dimitris Panayotopoulos, and Laura Roman. "Mapping Industrial Symbiosis Development in Europe_ typologies of networks, characteristics, performance and contribution to the Circular Economy." Resources, Conservation and Recycling 141 (February 2019): 76–98. http://dx.doi.org/10.1016/j.resconrec.2018.09.016.

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41

Kerdlap, Piya, Jonathan Sze Choong Low, Daren Zong Loong Tan, Zhiquan Yeo, and Seeram Ramakrishna. "M3-IS-LCA: A Methodology for Multi-level Life Cycle Environmental Performance Evaluation of Industrial Symbiosis Networks." Resources, Conservation and Recycling 161 (October 2020): 104963. http://dx.doi.org/10.1016/j.resconrec.2020.104963.

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42

Ramin, Elham, Ksenia Bestuzheva, Carina L. Gargalo, Danial Ramin, Carina Schneider, Pedram Ramin, Xavier Flores-Alsina, Maj M. Andersen, and Krist V. Gernaey. "Incremental design of water symbiosis networks with prior knowledge: The case of an industrial park in Kenya." Science of The Total Environment 751 (January 2021): 141706. http://dx.doi.org/10.1016/j.scitotenv.2020.141706.

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43

Panu, Marc, Kevin Topolski, Sarah Abrash, and Mahmoud M. El-Halwagi. "CO2 footprint reduction via the optimal design of Carbon-Hydrogen-Oxygen SYmbiosis Networks (CHOSYNs)." Chemical Engineering Science 203 (August 2019): 1–11. http://dx.doi.org/10.1016/j.ces.2019.03.066.

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44

Fraccascia, Luca, Ilaria Giannoccaro, and Vito Albino. "Efficacy of Landfill Tax and Subsidy Policies for the Emergence of Industrial Symbiosis Networks: An Agent-Based Simulation Study." Sustainability 9, no. 4 (March 30, 2017): 521. http://dx.doi.org/10.3390/su9040521.

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45

Hildebrandt, Jakob, Sinéad O'Keeffe, Alberto Bezama, and Daniela Thrän. "Revealing the Environmental Advantages of Industrial Symbiosis in Wood‐Based Bioeconomy Networks: An Assessment From a Life Cycle Perspective." Journal of Industrial Ecology 23, no. 4 (October 24, 2018): 808–22. http://dx.doi.org/10.1111/jiec.12818.

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46

Akhtar, Nadia, Syed Atif Bokhari, Michael Alan Martin, Zafeer Saqib, Muhammad Irfan Khan, Arif Mahmud, Muhammad Zaman-ul-Haq, and Sarah Amir. "Uncovering Barriers for Industrial Symbiosis: Assessing Prospects for Eco-Industrialization through Small and Medium-Sized Enterprises in Developing Regions." Sustainability 14, no. 11 (June 5, 2022): 6898. http://dx.doi.org/10.3390/su14116898.

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Industrialization is indispensable for socio-economic development but poses far-reaching implications for resources and the environment. Consequently, industrial symbiosis-based collaborations are gaining recognition as a viable strategy to manage resource consumption for mitigating environmental distress. However, these types of synergistic collaborations are more prevalent in developed regions and are linked to larger-sized industries. Admittedly, such collaborative partnerships are less focused in developing regions and small- to medium-size enterprises (SMEs). This calls for discovering the potentials for synergistic partnerships among the small and medium scaled industrial entities in developing economies. Therefore, the study was designed to identify, assess and explore the prospects of symbiotic collaborations among SMEs in Pakistan. Moreover, the inputs are equally relevant for developing and expanding such productive associations in developing regions. Data regarding inputs and outputs was collected from sixty-one (61) SMEs through field survey during the year 2019. It was processed and analyzed to uncover existing and potential synergies among SMEs. The significant findings transpired that the majority of collaborative linkages are bilateral and are driven to maximize economic gains. However, informal networks of recyclers and absence of a stringent regulatory regime are the ground realities in developing/transforming economies. These factors symptomatically interfere with the process of formal/informal exchanges between and among firms. Furthermore, it was observed that the lack of awareness and impulsiveness of SMEs, as well as the inconsistent supply of by-products, act as barriers for such partnerships in developing countries. It calls for proactive engagements and facilitations from the state institutions through policy instruments. The study addresses a broad audience including industrialists, investors, policy makers and researchers engaged in IS studies. Moreover, the inputs will provide impetus for stimulating eco-industrial progress in developing regions such as Pakistan.
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Albino, Vito, Luca Fraccascia, and Ilaria Giannoccaro. "Exploring the role of contracts to support the emergence of self-organized industrial symbiosis networks: an agent-based simulation study." Journal of Cleaner Production 112 (January 2016): 4353–66. http://dx.doi.org/10.1016/j.jclepro.2015.06.070.

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Juárez-García, Maricruz, Aurora del Carmen Munguía-López, and José María Ponce-Ortega. "Optimization Approach to Identify Fair Solutions in the Synthesis of Carbon, Hydrogen, and Oxygen Symbiosis Networks." Industrial & Engineering Chemistry Research 59, no. 13 (March 5, 2020): 5985–95. http://dx.doi.org/10.1021/acs.iecr.9b06993.

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Lima Junior, Walter Teixeira. "DESAFIOS DO JORNALISMO EM AMBIENTE COMUNICACIONAL SIMBIÓTICO ESTRUTURADO PELA COMPUTAÇÃO COGNITIVA." Revista Observatório 3, no. 3 (May 1, 2017): 34. http://dx.doi.org/10.20873/uft.2447-4266.2017v3n3p34.

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Abstract:
O Jornalismo sofreu forte influência tecnológica oriunda da Revolução Industrial. Séculos depois, outro grande impacto atingiu os seus modos de fazer, a introdução das máquinas computacionais e redes telemáticas, que baseiam a relação homem-máquina computacional na filosofia cibernética denominada master-slave. Outra vertente tecnológica a compor o atual ecossistema informativo digital conectado, a Computação Cognitiva, é baseada no artigo seminal de J.C.R. Licklider, Man-computer Symbiosis (1960). A relação entre homem-máquina computacional, nessa linha tecnológica cognitiva, é de parceria na troca de informações de forma simétrica entre dois agentes cognitivos, um biológico (ser humano) e outro sintético (máquina computacional), que desafiará Jornalismo para adoção de novos tipos de relacionamento com a audiência. PALAVRAS-CHAVE: Jornalismo, Computação Cognitiva, Simbiose homem-máquina, narrativas. ABSTRACT Journalism suffered a strong technological influence from the Industrial Revolution. Centuries later, another major impact their ways of doing, the introduction of computional machines and telematic networks, which base the computational man-machine relationship, named master-slave by cybernetic philosophy. Another technological aspect to compose the current connected digital information ecosystem, Cognitive Computing, is based on the seminal article of J.C.R. Licklider, Man-computer Symbiosis (1960). The relation between computer-human machine, in this cognitive technological line, is in partnership in the exchange of information in a symmetrical way between two cognitive agents, one biological (human being) and another synthetic (computational machine), that will challenge Journalism to adoption of new types Relationship with the its audience. KEYWORDS: Journalism, Cognitive Computation, Man-computer Symbiosis, narratives. RESUMEN El periodismo sufrido una fuerte influencia tecnológica llegada de la revolución industrial. Siglos después, otro impacto importante logró sus formas de hacer, la introducción de equipos de computo y redes de telecomunicaciones, que se basa la interfaz hombre-máquina computacional en la filosofía de la cibernética llamado maestro-esclavo. Otro aspecto tecnológico para componer el actual ecosistema de la información digital conectada, Computación Cognitiva, se basa en el artículo seminal J.C.R. Licklider, la simbiosis hombre-ordenador (1960). La relación entre el ordenador hombre-máquina, esta línea tecnológica cognitiva, es la asociación en el intercambio de información de forma simétrica entre dos agentes cognitivos, una biológica (humanos) y otra sintética (máquina de computación), que pondrá a prueba Periodismo para la adopción de nuevos tipos relación con el público. PALABRAS CLAVE: Periodismo, Computación Cognitiva, simbiosis hombre-máquina, narrativas.
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He, Ting, Weirui Ma, and Xueyuan Wang. "Research on symbiosis state between manufacturing and producer services industry." International Journal of Internet Manufacturing and Services 7, no. 4 (2020): 307. http://dx.doi.org/10.1504/ijims.2020.10028610.

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