Title :
Sizing industrial rail car fleets using discrete-event simulation
Author :
Lesyna, William R.
Author_Institution :
DuPont Electron., Wilmington, DE, USA
Abstract :
DuPont has many products that use rail cars in various portions of their supply chains. Often these cars are used to deliver final products to a variety of customers at different geographical locations. In many cases it is difficult to optimally size these fleets, since the underlying system is complex, dynamic, and involves random variables. This paper describes how DuPont has used discrete-event simulation (“DES”) to optimally size an industrial rail car fleet used to deliver final products to customers. It explains why it is important to DuPont to optimize the size of our rail car fleets; how such fleets are sized without DES; the value of DES in modeling one particular rail car system; and some of the lessons from building such DES models
Keywords :
discrete event simulation; goods dispatch data processing; rail traffic; DuPont; customers; discrete-event simulation; final product delivery; industrial rail car fleet sizing; optimal rail car fleets; random variables; supply chains; Cost function; Discrete event simulation; Investments; Job shop scheduling; Planning; Production; Rails; Railway engineering; Random variables; Supply chains;
Conference_Titel :
Simulation Conference Proceedings, 1999 Winter
Conference_Location :
Phoenix, AZ
Print_ISBN :
0-7803-5780-9
DOI :
10.1109/WSC.1999.816850
