<meta charset="UTF-8">
<meta name="robots" content="noindex,nofollow" />
<link rel="shortcut icon" type="image/x-icon" href="/images/favicon.ico" />
<link rel="icon" type="image/x-icon" href="/images/favicon.ico" />

<pre>




















 [Context|] 



The concept of circular economy (CE) is
gaining increasing attention as a suitable solution to deviate from the linear
economy without neglecting the goals of sustainable development. Closing
resource loops and keeping resources in the system at the highest level of use
for as long as possible are cited as the main goals of CE. To advance the
paradigm change from a linear to a CE, policy frameworks in Europe are getting
stricter by specifying that all plastic packaging placed on the EU market by
2030, should be reusable or recyclable [[6]. However, there are many barriers to achieving this goal, especially
with interconnected process-chains. Often, individual process components,
so-called bottlenecks, prevent entire process chains from being implemented
effectively regarding CE. These problem areas can only be identified through a
holistic CE analysis, which is where this guideline is intended to help. For
companies looking for guidance to better understand their own (micro) or supply
chains (macro) process chains regarding CE, the following guide provides
orientation. 



Di-Plast – Digital Circular Economy for the
Plastics Industry, is a research initiative funded by the EU Interreg NWE program,
which develops solutions for the plastics industry regarding an improved usage
of recycled plastic material (rPM) through the application of digital tools, in
cooperation with leading experts. Di-Plast currently pursues 4 different pilot programs.
The third pilot, “Value Stream Management Pilot” (VSM), emphasizes the visualization
and analysis of value chains, respectively a company’s processes. The idea is
to deliver value from the customer’s perspective and to continuously improve
the process chain by collecting and evaluating the value chain and information
flow [[7]. Due to the increasing interest in the circular economy (CE) by
policy makers and scholars, the adoption of circularity principles alongside
the implementation of a value stream is being analyzed [[2]. 



The upcoming guideline follows the in [[2] introduced ideas, as well as new
concepts, and applies it to the standardized VSM tool firstly mentioned by
Rother &amp; Shook in their book “Learning to See: Value Stream Mapping to Add
Value and Eliminate Muda” [[5] and consequently defined under the ISO 22468 [[4]. The use cases for this guide coincide with the
use cases for the lean-centric version with the adoption of circularity, which
targets the development of close and slow loops, as well as minimized waste and
sustainable value chain [[8]. The following guideline targets a broad user
pool, such that any user, like either an external consultant or an internal
coordinator responsible for lean can assess and evaluate any value chain from a
circular perspective, whilst simultaneously pursuing a continuous improvement
process.



For more information on
using VSM to gather, process, and apply end-of-life (EOL)-process information
to provide the beginning-of-life (BOL) with critical information about a
CE-adapted product design, refer to [[x].



Disclaimer:



The
material and information contained in this document are to be used as guidance
and not to redefine the already consolidated VSM method or to educate the
practitioner on basic lean principles. The Di-Plast project team is not
responsible for the consequences of the incorrect application of the content.



























 [Context|] 



The concept of circular economy (CE) is
gaining increasing attention as a suitable solution to deviate from the linear
economy without neglecting the goals of sustainable development. Closing
resource loops and keeping resources in the system at the highest level of use
for as long as possible are cited as the main goals of CE. To advance the
paradigm change from a linear to a CE, policy frameworks in Europe are getting
stricter by specifying that all plastic packaging placed on the EU market by
2030, should be reusable or recyclable [[6]. However, there are many barriers to achieving this goal, especially
with interconnected process-chains. Often, individual process components,
so-called bottlenecks, prevent entire process chains from being implemented
effectively regarding CE. These problem areas can only be identified through a
holistic CE analysis, which is where this guideline is intended to help. For
companies looking for guidance to better understand their own (micro) or supply
chains (macro) process chains regarding CE, the following guide provides
orientation. 



Di-Plast – Digital Circular Economy for the
Plastics Industry, is a research initiative funded by the EU Interreg NWE program,
which develops solutions for the plastics industry regarding an improved usage
of recycled plastic material (rPM) through the application of digital tools, in
cooperation with leading experts. Di-Plast currently pursues 4 different pilot programs.
The third pilot, “Value Stream Management Pilot” (VSM), emphasizes the visualization
and analysis of value chains, respectively a company’s processes. The idea is
to deliver value from the customer’s perspective and to continuously improve
the process chain by collecting and evaluating the value chain and information
flow [[7]. Due to the increasing interest in the circular economy (CE) by
policy makers and scholars, the adoption of circularity principles alongside
the implementation of a value stream is being analyzed [[2]. 



The upcoming guideline follows the in [[2] introduced ideas, as well as new
concepts, and applies it to the standardized VSM tool firstly mentioned by
Rother &amp; Shook in their book “Learning to See: Value Stream Mapping to Add
Value and Eliminate Muda” [[5] and consequently defined under the ISO 22468 [[4]. The use cases for this guide coincide with the
use cases for the lean-centric version with the adoption of circularity, which
targets the development of close and slow loops, as well as minimized waste and
sustainable value chain [[8]. The following guideline targets a broad user
pool, such that any user, like either an external consultant or an internal
coordinator responsible for lean can assess and evaluate any value chain from a
circular perspective, whilst simultaneously pursuing a continuous improvement
process.



For more information on
using VSM to gather, process, and apply end-of-life (EOL)-process information
to provide the beginning-of-life (BOL) with critical information about a
CE-adapted product design, refer to [[x].



Disclaimer:



The
material and information contained in this document are to be used as guidance
and not to redefine the already consolidated VSM method or to educate the
practitioner on basic lean principles. The Di-Plast project team is not
responsible for the consequences of the incorrect application of the content.







</pre>