Operationalizing Industrial Ecology in the Waste Sector

Operationalizing Industrial Ecology in the Waste Sector
Author: Graham Aid
Publisher: Linköping University Electronic Press
Total Pages: 101
Release: 2017-05-16
Genre:
ISBN: 9176855147

The take-make-waste approach to resource management in human production and consumption systems is contributing to a variety of environmental and social problems worldwide. Additionally, as the world’s population and affluence increase, so do the negative impacts of poor resource management. Lifting the waste management (WM) sector into a new phase of development, which takes its lead from the ideals of Industrial Ecology and circular economy, is seen by many scholars and practitioners as one potential to assist in alleviating these impacts. While there are many studies on how more efficient inter-organizational resource management is (or could be) constructed, there are relatively few business development studies which have explored novel approaches (from roles to tactics) that WM organizations might operationalize toward more efficient resource management. The aim of this thesis is to contribute to the development of knowledge and understanding of how the waste management sector can operationalize more effective and efficient resource management. In approaching this aim, two research questions guided the exploration of: 1) novel roles for WM and 2) support tactics for such roles. Grounded in the broader context of Industrial Ecology (IE) and Business Development, five studies were performed. Two studies, focused on the novel roles of inter-organizational resource management and high value secondary resource extraction, were performed through literature review and interviews, and market driver analysis respectively. In exploring support tactics, two design and proof of concept studies were carried out to investigate data analysis tools for inter-organizational resource management, and one long-term action research engagement project was coordinated to study hands-on inter-organizational collaboration tactics. The studies highlighted that the Swedish WM sector holds some key capacities for operationalizing (and in some cases, is already developing) the novel resource management roles identified: industrial symbiosis facilitator, eco-industrial park manager, holistic facility management, and high value resource extractor. However, depending on the portfolio of services to be performed in such roles, several capacities may need to be developed or strengthened. Main opportunities seen for these roles were – staying ahead of market developments, and aligning activities with organizational goals. The main general risk related to these roles was insufficient returns on investment. Looking forward, the main enablers identified were policy leadership for more balanced market mechanisms, increasing use of external knowledge, developing long term partnerships, lobbying, stockpiling resources, and carefully crafting new business models. The tools developed for strategically applying external information toward the identification of opportunities within new roles showed tactical potential. However, their implementation in broader development processes has yet to be fully validated. The hands-on exploration of change oriented collaboration, highlighted collective system framing and goal setting and face-to-face interaction as key activities for inter-organizational approaches within roles such as industrial symbiosis facilitator. Throughout the studies, several novel roles were investigated. Each of these roles will need to be individually evaluated by directing bodies of WM organizations, and evaluated from the organization’s vision and strategy. If certain roles are chosen to be explored in more detail, they will need to be developed within full business models - addressing issues such as income structure, internal processes and capacities to be developed, and key customers. Through applying IE and business development concepts and findings, WM organizations have possibilities to translate ambitious visions into novel offerings.

Marine Plastics: Innovative Solutions to Tackling Waste

Marine Plastics: Innovative Solutions to Tackling Waste
Author: Siv Marina Flø Grimstad
Publisher: Springer Nature
Total Pages: 283
Release: 2023-07-31
Genre: Technology & Engineering
ISBN: 3031310586

This open access book reflects aims of the Blue Circular Economy (BCE) project, which focused on small and medium-sized enterprises (SMEs) aiming to create value using circular economy concepts related to products and services within fishing gear recycling in the Northern Periphery and Arctic (NPA) area. Cluster establishment and operation were carried out in collaboration with academia, industry and government agencies following a triple-helix approach. Discarded fishing gear constitutes a large part of marine plastics. Preventing future discharge of fishing gear into the ocean is a vital step in combating plastic pollution. Circular economy is one of the tools in the European Green deal, targeting waste minimisation. Closing the loop for waste fishing nets by transferring them to a resource could be a solution for preventing discharge at sea: exploring this opportunity is at the core of this book.

Low-Carbon Circular Transition in the Nordics

Low-Carbon Circular Transition in the Nordics
Author: Sepponen, Susanna
Publisher: Nordic Council of Ministers
Total Pages: 169
Release: 2023-03-08
Genre: Business & Economics
ISBN: 9289375132

Available online: https://pub.norden.org/temanord2023-504/ The Nordic region aims to be a forerunner in the transition to circular economy. This project aimed to find areas, industries, and sectors, and potential in them, important for the circular transition in the Nordics. The barriers for unleashing the potential were also studied.Four areas of industry and two cross-cutting drivers were selected for the study. The bioeconomy, the food and beverage sector, building and construction, and the mobility sector play a prominent role in the Nordic economies. They are also responsible for significant emissions and waste. The drivers – applying new circular business models and better exploiting data/digitalisation – can bring change that holds promise for significant benefits.The study’s results are summed up in a set of recommendations addressing how the barriers can be torn down and how positive impacts of circular transition can be supported.

OECD Urban Studies The Circular Economy in Umeå, Sweden

OECD Urban Studies The Circular Economy in Umeå, Sweden
Author: OECD
Publisher: OECD Publishing
Total Pages: 87
Release: 2020-03-31
Genre:
ISBN: 9264739114

This report aims to support the city of Umeå in becoming the leader in the circular economy as stated in its strategic plan for 2016-2028. This is in line with the Swedish Government’s objective to strengthen society’s transition to a resource-efficient, circular and bio-based economy.

Film and the Arts in Symbiosis

Film and the Arts in Symbiosis
Author: Gary Edgerton
Publisher: Greenwood
Total Pages: 412
Release: 1988-03-08
Genre: Art
ISBN:

Film and the Arts in Symbiosis is an interesting collection of readable essays written by film scholars and teachers. Each essay is accompanied by a set of footnotes, a bibliography, and a filmography. The essays cover the relationship between film and painting, photography, graphic arts, literature, theater, classical and popular music, radio, television, video art, and the `new media'. . . . This is a unique and valuable anthology, providing well-written and well-edited essays that may well be used as course readings. RQ This unusual resource guide and handbook examines the key relationships and abundant interconnections between motion pictures and eleven other traditional or communication arts. For the first time, the work of scholars who have studied or taught in fields as diverse as broadcasting, art, music, photography, and popular culture is pulled together for ready access in one volume. Film and the Arts in Symbiosis, takes an exploratory, yet systematic look at the interdisciplinary nature of the film medium and both highlights and enthusiastically endorses that multi-faceted tradition.

Utilisation of Excess Heat Towards a Circular Economy

Utilisation of Excess Heat Towards a Circular Economy
Author: Sofia Päivärinne
Publisher: Linköping University Electronic Press
Total Pages: 111
Release: 2017-11-23
Genre:
ISBN: 9176854590

In order to significantly lower the environmental impact from human activities, numerous efforts and approaches related to the transformation of human activities have developed during the last decades. Examples of such efforts are policies and strategies at different levels, some with a top-down approach focusing on extensive institutional changes, and some with a bottom-up approach focusing on industrial actors and industry-led activities. One essential aspect of these efforts concerns the energy used producing the products and services provided within our society. This includes, for example, improved efficiency of processes in order to minimise the amount of energy used, or optimisation of efficiency by using energy with the lowest possible exergy value. It can also be about re-use of energy, which is the focus of this thesis. Heat, which is the main by-product of all energy systems, can be utilised for heating purposes to lower the primary energy demand for heating. Increased utilisation of excess heat, however, requires collaboration between normally unrelated actors, those with a supply of and those demanding excess heat. In Sweden, which is a Northern European country with high demand for heat, the tradition of large energy-intensive manufacturing industries generating large amounts of excess heat, in combination with well-established district heating distribution systems, constitute good conditions for excess heat utilisation. Despite the fact that Sweden is among the world leaders in utilising excess heat, there is however, still a large unutilised potential. From this background, the objective of this thesis is to identify challenges behind excess heat utilisation for heating purposes, and to propose practical suggestions to facilitate expanded excess heat utilisation. The overall objective is analysed with a focus on drivers and barriers behind interorganisational collaborations on excess heat utilisation, important components of interorganisational business models and how the technical conditions regarding supply and demand could be facilitated by strategic municipal spatial planning processes. The research is largely based on interviews conducted with societal actors with different perspectives on excess heat utilisation; energy companies, industries generating high-grade excess heat, facilities generating low-grade excess heat, facilities demanding low-grade excess heat, experts of utilisation of low-grade excess heat, branch organisations, municipal spatial planners, energy- and climate advisors, and developers. Document studies have been conducted in order to collect case specific knowledge. The research questions are explored based on literature studies on the principles of industrial symbiosis, business model perspective and strategic planning. Further, they are examined in a Swedish context. It is concluded that the three perspectives complement each other by providing a system perspective on increased utilisation of excess heat as they seek to contribute both environmental and financial benefits at both a company and societal level. In order to facilitate further utilisation of excess heat it is important to focus on the organisational factors of humility, honesty, transparency, trust, fine-grained information transfer, joint problem solving, and shared visions of common goals, which are important conditions behind development of functional and long-term durable collaborations. Business models for collaboration could contribute to the creation of these organisationally important conditions. Such business models could also provide knowledge on how to create and capture joint values. For some collaborations involving actors lacking the technical knowledge related to the capturing and distribution of excess heat, a third-party providing services related to the technical knowledge required could be beneficial. Collaborations in which one of the actors consists of an energy company often entail the technical knowledge required. This implies that different collaborations involving different types of actors and under different prevailing financial, technical and organisational conditions require customised and flexible business solutions. Local authorities could, through their overall function, initiate interorganisational collaborations on excess heat within the framework of municipal spatial planning. The results do however show that the investigated planning processes could develop more extensive stakeholder participation to include further societal actors related to excess heat. More extensive stakeholder participation, have the potential to initiate new development of collaborations on excess heat between normally unrelated actors, both with and without involvements of third-party knowledge brokers. A broader participation is also expected to result in increased knowledge on how to plan to further facilitate the condition of excess heat utilisation.

The role of biogas in a more sustainable energy system in Sweden

The role of biogas in a more sustainable energy system in Sweden
Author: Sofia Dahlgren
Publisher: Linköping University Electronic Press
Total Pages: 73
Release: 2019-11-18
Genre:
ISBN: 9179299466

There are numerous problems in the world that need to be dealt with in order to achieve sustainable development. The energy system has significant negative impacts on many of these problems, and there is a need for a transition towards more sustainable energy. Sweden has already started this transition and is using large amounts of renewable energy. However, within the transport sector and the manufacturing sector in particular, large amounts of fossil fuels are still used. Biogas is one alternative that can help solve several sustainability problems and that could be part of a future more sustainable energy system. However, it is not certain what biogas is most suitable to be used for. The aim of this thesis is to investigate how biogas should be used in a future more sustainable energy system, by answering three research questions: 1) In what ways can biogas be used in a more sustainable energy system? 2) How can we assess whether biogas is suitable in a specific context? and 3) What determines whether it is easy or difficult for a user to start using biogas? These questions are explored in a Swedish context using four appended articles, which are based on two collaborative projects using a combination of workshops, literature reviews and interviews. Biogas can be used for heat, electricity or fuel in the manufacturing or transport sector. In Sweden, heat and electricity are mainly of interest for smaller production scales, while production on larger scales will likely be dominated by upgrading mostly to CBG but also to LBG. CBG can be used for less energy-intensive purposes, such as cars or buses, while the growing interest in LBG in Sweden may open up new market segments for biogas which are more energy-intensive, such as heavy trucks or shipping, or in geographical locations that are further away from the site of production. Several sustainability assessment methods exist that can be used to evaluate whether biogas is suitable in a specific context, such as multi-criteria assessments or scenario analyses. These methods can include a number of different aspects that are relevant to biogas use, such as GHG emissions, safety issues, and the vitality of the surrounding region. In order to introduce biogas, six main factors were identified that can make this easier or more difficult: technical maturity, tank volume, distance between the producer and the user, scale of energy use, policies and costs, and strategies of individual organizations. Overall, the rise in LBG production creates new opportunities for biogas use in both geographical and usage areas that did not previously use biogas. There is no simple answer to what biogas should be used for in the future – rather, this depends on the circumstances. It is also possible that the usage areas that are most suitable now for biogas might not be the most suitable areas in the future, depending on developments within, for example, the electricity system and hydrogen. However, CBG and LBG are likely to dominate biogas production in Sweden until then.

Fishing gear recycling technologies and practices

Fishing gear recycling technologies and practices
Author: Food and Agriculture Organization of the United Nations
Publisher: Food & Agriculture Org.
Total Pages: 120
Release: 2023-11-07
Genre: Technology & Engineering
ISBN: 9251382794

This document is a report on the technical aspects and current examples of fishing gear recycling as an option for end-of-life fishing gear waste management and pollution control. The report also discusses fishing gear recycling options in the context of circular economy and Extended Producer Responsibility (EPR) principles. This report will be used for knowledge sharing, dissemination and capacity building purposes. It will assist with planning of GloLitter Partnerships pilot projects around cost–benefit analyses for end-of-life fishing gear port reception facilities, which can support fishing gear recycling. It will also assist with planning of GloLitter Partnerships phase II “pilot projects” to practically implement the proposed fishing gear recycling management systems and incentive schemes. The objectives the report are: summarize current fishing gear recycling technologies; share global case studies of fishing gear recycling initiatives; review the application of circular economy and Extended Producer Responsibility (EPR) principles to fishing gear recycling; discuss trade-offs between available fishing gear recycling options, and recommend best practices for fishing gear recycling under differing socioeconomic and environmental contexts that progress circular economy and EPR principles.

Human Machine Symbiosis

Human Machine Symbiosis
Author: Karamjit S. Gill
Publisher: Springer Science & Business Media
Total Pages: 502
Release: 2012-12-06
Genre: Computers
ISBN: 1447132475

There is now a serious discussion taking place about the moment at which human beings will be surpassed and replaced by the machine. On the one hand we are designing machines which embed more and more human intelligence, but at the same time we are in danger of becoming more and more like machines. In these circumstances, we all need to consider: • What can we do? • What should we do? • What are the alternatives of doing it? This book is about the human-centred alternative of designing systems and technologies. This alternative is rooted in the European tradition of human-centredness which emphasises the symbiosis of human capabilities and machine capacity. The human-centred tra dition celebrates the diversity of human skill and ingenuity and provides an alternative to the 'mechanistic' paradigm of 'one best way', the 'sameness of science' and the 'dream of the exact language'. This alternative vision has its origin in the founding European human-centred movements of the 1970s. These include the British movement of Socially Useful Technology, the Scandinavian move ment of Democratic Participation, and the German movement of Humanisation of Work and Technology. The present volume brings together various strands of human-centred systems philosophy which span the conceptual richness and cultural diversity of the human-centred movements. The core ideas of human-centredness include human-machine symbiosis, the tacit dimension of knowl edge, the system as a tool rather than a machine, dialogue, partici pation, social shaping and usability.