Abstract
Product—service systems (PSSs) are often outlined as potential enablers of new business models for circular economy. However, not all business models based on product-service systems have superior circularity potential. This research demonstrates how the application of a previously developed business model configurator for circular economy can support the design and assessment of customer value, economic and resource decoupling potential for product-service system business models in practice. By applying action research in two Nordic manufacturing companies from the furniture sector, different business model concepts based on product-service systems were proposed and assessed. Results indicate positive uptake by companies regarding the usefulness of the obtained outcomes. This research identified two key findings about ‘product-service system business models for circular economy’: (i) their configuration should fulfil certain simultaneous conditions—i.e. superior customer value, economic growth, and resource decoupling potential—to contribute to circular economy; and (ii) they are often ‘niche solutions’, fulfilling specific needs and customer segments, and more likely to flourish with certain types/characteristic of products, segments or geographical locations. Lastly, a framework outlining the conditions and trade-offs for assessing the circularity potential of business models based on product-service systems is introduced as one of the key contributions.
Highlights
Circular economy (CE) aims to establish a resource-effective and efficient economic system that is more suitable to respect planetary boundaries [1]
The second subsection provides an overview of the conceptual framing—a process model and the main tool applied in the action research cycles for supporting the companies in configuring CE-oriented business models (BM) based on Product—service systems (PSSs)
This section explains the application of the Configurator and the configured CE-oriented PSS BMs as outcomes for each action research cycle
Summary
Circular economy (CE) aims to establish a resource-effective and efficient economic system that is more suitable to respect planetary boundaries [1]. CE is often interpreted as one way of achieving economic and environmental sustainability [2], but it has potential to generate secondary positive effects on the social sustainability perspective [3,4]. To implement CE principles, societal, industrial, and consumption systems will need to shift their foundations to build on renewable energy/materials sources and to reduce waste generation [5] by intentionally narrowing, slowing, and closing material and energy flows [6]. Building organizational (or even interorganizational) capabilities for CE requires as much technological or product innovation as systemic value innovation with the configuration of new business models (BM) which are fit with CE principles [8,9]
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