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Sustainability is a critical issue in supply networks that is going to affect the environment
as well as the economy. Jobs in conventional manufacturing are at the risk of being lost
owing to stricter environmental regulations the world over. India needs to promote
sustainability in manufacturing all the more if it has to reap its demographic dividend.
Adopting sustainability into supply networks of manufacturing organizations will lead to
the implementation of state of the art technologies having lower carbon footprints in
manufacturing, leading to products that are globally competitive and meet the strict
environmental standards. Current supply networks of manufacturing organizations are not
sustainable. Life cycle assessment (LCA) has been widely used for the design of sustainable
supply networks by environmental managers. In this research, our aim is to assess and
improve sustainability in the supply networks of manufacturing organizations. In the first
objective, we developed an LCA based framework to assess sustainability in supply
networks of manufacturing organizations, to be tested in four case studies. Utilizing this
framework, we identified environmental impact hotspots and then suggested green
interventions to remove these hotspots. We performed four case studies to test this
framework. The products chosen for the case studies were paracetamol tablet, rice-based
pudding-kheer, bio implant, and hair dryer. The products were chosen based on their
widespread use and environmental impact potential. The results of the study validated the
effectiveness of the proposed sustainability assessment framework in the four case studies.
The successful implementation this framework in these four case studies builds a case for
wider application of this framework in more number of manufacturing organizations
belonging to various industries and sectors. We also present reconfiguration case in the
supply network of these four products, simulating the implementation of a suggested green
intervention. Green interventions are scattered in the literature, and there is a need for a
single trustworthy information support. Therefore in our second objective, we developed a
software tool to suggest suitable green interventions that could be used to remove a given
environmental impact hotspot in a supply network. Subsequent to finding the green
interventions, there is also a need to rank the green interventions depending on how
dominant they are. Therefore, in the third objective, we analyzed a set of green
interventions implemented in supply networks and found the dominant green interventions.
In the second part of this objective, we analyzed a green intervention for its implementation. The green intervention chosen for the analysis was ‘green supplier selection.’ The process
of sustainability assessment and improvement in supply networks of manufacturing
organizations is dependent on various factors. Therefore in the fourth objective, we
identified and analyzed the factors hindering the implementation of sustainability (barriers)
in supply networks as well as the factors which can overcome these barriers (drivers).
This research has developed a comprehensive package for manufacturing organizations to
assess and improve sustainability in their supply networks. We developed a holistic
systematic approach through adoption of a multiple methodological approach. The holistic
approach developed is appropriate for varied manufacturing industries. Small industries
will find the framework more useful, as it will help to create a sustainability infrastructure
at their plants without a lot of investment. Besides creating a life cycle inventory of data,
the framework will also help create a sustainability ecosystem in the manufacturing
organizations. The developed framework also enhances the scope of the analyses that can
be done using life cycle analysis technique. The LCA based sustainability assessment
framework is a key theoretical contribution of this research work, as it develops a analytical
process framework to assess and improve sustainability in supply networks of
manufacturing organizations. It presents a methodology that can be adopted by the
manufacturing organizations with ease to assess and improve sustainability in their supply
networks. The first part (objective 1) of this work provides an LCA based sustainability
assessment framework. The manufacturing organizations can use it to find the
environmental impact hotspots in the supply networks of their products. The data
generation done in the course of application of the LCA based sustainability assessment
framework is a significant research contribution of this work, as the data generated is novel
and will assist in future environmental sustainability assessment studies. The second part
(objective 2) provides software support to search and find green interventions to remove
the environmental impact hotspots. In the third part (objective 3) of the work, we developed
an interpretive structure modelling method based framework to prioritize the green
interventions. The companies can use the framework to find the most effective green
interventions among a set of interventions. The fourth part (objective 4) of the work
provides a hybrid fuzzy analytical hierarchy process (FAHP) and technique for order
performance by similarity to ideal solution framework (TOPSIS), which the companies can
use to rank the top drivers to sustainability implementation. FAHP approach alone can only
provide the weights of different criteria and sub-criteria but cannot rank the alternatives. Therefore, it requires an additional approach to rank the alternatives. The reason behind
using a combination of FAHP and FTOPSIS is that it is a stablished approach for analyzing
the different criteria and alternatives to find the concrete results. However, the novelty of
this study lies in the fact that this approach has not been used so far to analyze the supply
chain barriers and the drivers to eliminate these barriers. The sustainability managers can
use the identified drivers to their advantage to accelerate the implementation of
sustainability. |
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