1 AIT Asian Institute of Technology

A planning model and analysis for a reversed supply chain

AuthorRapeepan Pitakaso
Call NumberAIT Thesis no. ISE-01-21
Subject(s)Business logistics

NoteA thesis submitted in pa1tial fulfillment of the requirements for the degree of Master of Engineering, School of Advanced Technologies
PublisherAsian Institute of Technology
Series StatementThesis ; no. ISE-01-21
AbstractUsed-products (UPs), which are taken back from end-users, are added to a recycle system integrated into typical supply chain (SC) and then causes the transfmmation to reversed supply chain (RSC). The primary objective of this paper is to investigate the practicality of RCS by means of some proper analyses. Firstly, a linear programming (LP) model is used for the RSC's production planning. The model employs multiple actors and products in RSC. Also, the quality levels of each compartment of the finished products in a bill of material (BOM) are conveyed into consideration. Secondly, by comparison between the cost of SC and that of RSC, it is perceptible that the RSC is more advantageous than the SC, since production, transportation and disposal cost of all RSC actors have been optimized. Moreover, the design of experiment is then manipulated to find the main parameter that affects the change of both RSC's total and unit cost. Recovering cost of a recycler has been observed as a significant parameter that most affects the advantages of RSC. A residual test from a regression model is in addition used to find that there is no significant interaction effect between each parameter. Lastly, two recycle system investment alternatives are presented and evaluated as the investor guideline. It is shown that the higher investment, the more sensitive the demand changed in RSC, since the increase of operating fixed cost of the recycle system is expected.
Year2001
Corresponding Series Added EntryAsian Institute of Technology. Thesis ; no. ISE-01-21
TypeThesis
SchoolSchool of Advanced Technologies (SAT)
DepartmentDepartment of Industrial Systems Engineering (DISE)
Academic Program/FoSIndustrial Systems Engineering (ISE)
Chairperson(s)Anulark Techanitisawad;
Examination Committee(s)Voratas Kachitvichayanukul;Tripathy, Arabinda;
Scholarship Donor(s)Royal Thai Government ;
DegreeThesis (M.Eng.) - Asian Institute of Technology, 2001


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