A Hybrid AHP-DEMATEL model for Scrap Management in Gas Industries to Establish a Circular Economy
Date
2025-10-25
Authors
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Department of Mechanical and Production Engineering(MPE), Islamic University of Technology(IUT), Board Bazar, Gazipur-1704, Bangladesh
Abstract
Gas industries are highly involved in the disposal of the raw materials used to construct oil and gas
coups which tend to have severe consequences on the environment. Linear economy as we know is
adapted to this situation as (take, make, throw) where these scraps that are stagnant are discarded in
landfills. A circular economy would both maximize the merits of these scraps and minimize their ill
effects, through such actions as redesigning products to cut waste and make them last; boosting
recycling and reuse, and utilizing scraps as a resource; to name a few. In this study we are focusing on
the residual scrap materials generated; since the main focal point of gas industries are usually the
chemical wastages generated from the reactions in order to form gas/oil. A model for recycling the
scrap generated from the gas industry has been proposed which provides recycling of the waste in
multiple levels i.e. we can extract the same product from the waste by high grade recycling or can use
them in secondary operations like incorporating these scraps in the tech or agricultural operations.
This study presents a hybrid methodological study based on the Decision Making Trial and Evaluation
Laboratory (DEMATEL) method and Analytic Hierarchy Process (AHP) method to define the best
Circular Economy methodology to be implemented in order to reduce environmental, economical,
operational, and supply chain barriers. Results were presented as Industrial Symbiosis to be the best
circular economy methodology to implement and Process Optimization to be the reigning cause which
affects the various criteria.
Description
Supervised by
Prof. Dr. Shamsuddin Ahmed,
Department of Mechanical and Production Engineering(MPE),
Islamic University of Technology (IUT)
Board Bazar, Gazipur-1704, Bangladesh
This thesis is submitted in partial fulfillment of the requirements for the degree of Bachelor of Mechanical and Production Engineering, 2025
