Draft research proposal; 20 JAN 2013. Preliminary proposal for a 3 (max 4) year research project leading to a PhD. In preparation for the WION workshops on Advanced Purchasing Research and to be worked out in more detail as a PhD research proposal before MAY 2013. The research objective is to find out: How innovating SMEs can best use Industrial Property Rights (patents) within value chains with their (SME) suppliers and their (SME) customers, what are best practices and improvement areas, what is a suitable theoretical framework, how can enterprises, business researchers & practitioners benefit from applying this framework.
DOCUMENT
The increase in consumption of resources has led to more waste being generated, which then needs to be managed at the end of their life-cycle as waste. Current practices of waste management are not efficient as they lead to a release of emissions and a loss of value that is present in the resource, which is discarded as waste. New legislation for efficient waste management practices has been established, however, adopting them is hampered by factors, one of which is the high cost of these solutions. However, incentive-based approaches can be used to address this problem. This research explores the role of institutional incentives in the form of property rights bundles for such cases. Property rights are a set of formal and informal rules that define how resource allocation is done, while property rights bundles are the set of one or more property rights tied together. As per academic literature, a clear allocation of property rights leads to an economically efficient distribution of costs, benefits, risks and responsibilities associated with a resource. Based on these aspects, this research explores the influence of property rights bundles in the case of collective ownership of waste processing infrastructure by companies. Through collective ownership of the infrastructure, the investment cost would be distributed among those using the resource, thereby reducing the share of investment per company and addressing the challenge of high investment costs. Furthermore, in this situation of collective ownership, property rights need to be defined clearly so that there are no conflicts among the participants at later stages. The research is based on a case study of a few companies in Amsterdam, who are attempting to set up an initiative to improve the waste management practice in the region. For this purpose, they plan to invest collectively in a waste-processing infrastructure. This research thus explores the role of property rights in this regard. The literature on property rights forms the theoretical foundation of the research, along with the Theory of Planned Behaviour, which is the behavioural theory chosen to analyse the decision-making of the companies. The case study was analysed using the Institutional Analysis and Development framework. An agent-based model was built based on the insights obtained from these concepts to capture the interaction between the property rights and the characteristics of the companies, such as the amount of waste generated by them, the amount of budget they hold, etc. The influence of property rights bundles was analysed using the attributes of property rights: robustness, strength, duration and excludability. The results obtained were analysed using the defined Key Performance Indicators: Joining Ratio, Number of Participants and Number of times the initiative is started. It was found that for the case of the Amsterdam Zuidoost initiative, providing property rights bundles of claimants and proprietors as incentives leads to an increase in the number of participants that join the initiative. However, due to lack of statistical significance between the distributions, we cannot determine which of the two has a higher influence. Furthermore, the influence of the other property rights bundle could not be verified due to lack of statistical significance in the distribution.
MULTIFILE
This paper explores how, in the light of global economic downturn and rising student populations, new academic-industrial models for research collaboration based upon specific technological expertise and knowledge can be developed as potential mechanisms for preserving and extending central university research infrastructure. The paper explores two case studies that focus upon the new serious games sector: the UK-based Coventry University's Serious Games Institute - a hybrid model of applied research and business, and the Netherlands-based TU-Delft University's Serious Game Center - a networked model of semi-commercial funding and public-private co-operation between industry, public sector and research partners. To facilitate these kinds of academic-industrial collaborations, the paper introduces the Innovation Diffusion Model (IDM) which promotes innovation diffusion by bringing academic and industrial experts into close proximity. Overall, the benefits include: sustained intellectual property development and publication opportunities for academics, employment creation, accelerated development and real commercial benefits for industrial partners.
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Paper sludge contains papermaking mineral additives and fibers, which could be reused or recycled, thus enhancing the circularity. One of the promising technologies is the fast pyrolysis of paper sludge, which is capable of recovering > 99 wt.% of the fine minerals in the paper sludge and also affording a bio-liquid. The fine minerals (e.g., ‘circular’ CaCO3) can be reused as filler in consumer products thereby reducing the required primary resources. However, the bio-liquid has a lower quality compared to fossil fuels, and only a limited application, e.g., for heat generation, has been applied. This could be significantly improved by catalytic upgrading of the fast pyrolysis vapor, known as an ex-situ catalytic pyrolysis approach. We have recently found that a high-quality bio-oil (mainly ‘bio-based’ paraffins and low-molecular-weight aromatics, carbon yield of 21%, and HHV of 41.1 MJ kg-1) was produced (Chem. Eng. J., 420 (2021), 129714). Nevertheless, catalyst deactivation occurred after a few hours’ of reaction. As such, catalyst stability and regenerability are of research interest and also of high relevance for industrial implementation. This project aims to study the potential of the add-on catalytic upgrading step to the industrial fast pyrolysis of paper sludge process. One important performance metric for sustainable catalysis in the industry is the level of catalyst consumption (kgcat tprod-1) for catalytic pyrolysis of paper sludge. Another important research topic is to establish the correlation between yield and selectivity of the bio-chemicals and the catalyst characteristics. For this, different types of catalysts (e.g., FCC-type E-Cat) will be tested and several reaction-regeneration cycles will be performed. These studies will determine under which conditions catalytic fast pyrolysis of paper sludge is technically and economically viable.
