How environmental collaboration with suppliers and customers influences firm performance : Evidence from Dutch food and beverage processors
Grekova, K. ; Calantone, R.J. ; Bremmers, H.J. ; Trienekens, J.H. ; Omta, S.W.F. - \ 2016
Journal of Cleaner Production 112 (2016)3. - ISSN 0959-6526 - p. 1861 - 1871.
Environmental collaboration - Extended resource-based view - Firm performance - Food industry - Sustainable process improvements - Sustainable supply chain
Searching for sustainable growth opportunities, manufacturing firms are increasingly embedding sustainability concerns into their relationships with supply chain partners. In the present paper, we explore the potential of environmental collaboration with suppliers and customers to induce environmentally sustainable improvements to internal processes to address external sustainability pressures and to contribute to business performance. Grounded in resource based view spin-offs, this study claims that environmental collaboration can enhance the performance of the focal firm not only directly, but also indirectly - by stimulating the focal firm to implement more environmentally sustainable processes that in turn contribute to firm's performance. Providing manufacturing managers with a better understanding of the direct and indirect relationships between environmental collaboration and firm performance can gain them more control over the outcomes of environmental collaboration. Proposed relationships were tested in a sample of 139 Dutch food and beverage processors using structural equation modelling. The results indicate that environmental collaboration with suppliers can improve the performance of Dutch food and beverage processors directly as it induces cost savings. Nevertheless, such collaboration is not likely to assist firms seeking to improve environmental sustainability of their internal processes as one of the outcomes of environmental collaboration. On the contrary, environmental collaboration with customers induces performance indirectly, by stimulating food and beverage processors to implement sustainable process improvements that subsequently bring about cost savings and market gains.
|Sustainable reverse logistics for household plastic waste
Bing, Xiaoyun - \ 2014
Closed-loop supply chain management - Reverse logistics - Sustainable supply chain
Plastic waste recovery in the Netherlands is characterized by various collection, separation and treatment systems. Decision support is needed for redesign of the plastic waste reverse logistics, in order to further optimize the current recycling logistics customized for plastic waste and to meet the future demand of handling waste in a more proper and sustainable way. This paper presents the outcomes of several research conducted within a Dutch research project on plastic waste recycling. This research project aims for the analysis of a logistics network and the design of decision support tools for analysing the effects of various collection, separation and treatment systems of household plastics, from PET bottles to plastic wrappings. The key aspects investigated comprise costs, quality of the process, environmental impact and benefits for civilians and municipalities. Special attention is directed to the economic and environmental difference between plastics source separation (at households) and post-separation (at separation centres). Research results identify the key issues that determine the performance of the reverse logistics system on collection level and network level. The results also provide suggestions on how to improve sustainability in building plastic recycling chains.