TY - GEN
T1 - DEVELOPMENT MODEL OF THE LINE III WAREHOUSE NETWORK STRUCTURE MODEL IN THE EAST JAVA REGION OF PETROKIMIA GRESIK
AU - Kusuma, Indra Permata
AU - Suryani, Erma
AU - Siswanto, Nurhadi
N1 - Publisher Copyright:
© 2024 SPIE.
PY - 2024
Y1 - 2024
N2 - Petrokimia Gresik is one of Indonesia's largest manufacturers of fertilizer. In order to fulfill its aspiration of being a fiercely competitive manufacturer of fertilizer and other chemical products that consumers most desire, and to facilitate the nation's fertilizer supply in order to accomplish the food self-sufficiency program, a dependable distribution system is prerequisite. A buffer warehouse is one element that guarantees fertilizer is distributed to farming areas in an efficient manner. The provinces of DIY, Banten, Bali, West Java, Central Java, and East Java are home to 162 buffer warehouses as of right now. East Java has the most warehouses out of the 162. With 75 buffer warehouses, East Java has more than any other province. Since it is expensive to distribute fertilizer to 75 buffer warehouses, it is important to consider restructuring the fertilizer distribution network in order to save distribution costs. Optimation model approach can be used to assess and make recommendations regarding the location and most efficient warehouse for distribution. Optimation model approach minimizes the number of shortest distances multiplied by the number of demands from all demand nodes in a network, making it the best choice for solving this problem. Based on the lowest distribution costs—which include land transportation, loading and unloading, warehouse management, and warehouse rental costs—a set number of buffer warehouses will be chosen as intermediate warehouses. In order to meet demand in the East Java region, 25 intermediate warehouses were built, with a minimum total distribution cost of IDR 220.463.873.320.
AB - Petrokimia Gresik is one of Indonesia's largest manufacturers of fertilizer. In order to fulfill its aspiration of being a fiercely competitive manufacturer of fertilizer and other chemical products that consumers most desire, and to facilitate the nation's fertilizer supply in order to accomplish the food self-sufficiency program, a dependable distribution system is prerequisite. A buffer warehouse is one element that guarantees fertilizer is distributed to farming areas in an efficient manner. The provinces of DIY, Banten, Bali, West Java, Central Java, and East Java are home to 162 buffer warehouses as of right now. East Java has the most warehouses out of the 162. With 75 buffer warehouses, East Java has more than any other province. Since it is expensive to distribute fertilizer to 75 buffer warehouses, it is important to consider restructuring the fertilizer distribution network in order to save distribution costs. Optimation model approach can be used to assess and make recommendations regarding the location and most efficient warehouse for distribution. Optimation model approach minimizes the number of shortest distances multiplied by the number of demands from all demand nodes in a network, making it the best choice for solving this problem. Based on the lowest distribution costs—which include land transportation, loading and unloading, warehouse management, and warehouse rental costs—a set number of buffer warehouses will be chosen as intermediate warehouses. In order to meet demand in the East Java region, 25 intermediate warehouses were built, with a minimum total distribution cost of IDR 220.463.873.320.
KW - Buffer Warehouse
KW - Distribution Cost
KW - Subsidized Fertilizer
UR - http://www.scopus.com/inward/record.url?scp=85197564879&partnerID=8YFLogxK
U2 - 10.1117/12.3033744
DO - 10.1117/12.3033744
M3 - Conference contribution
AN - SCOPUS:85197564879
T3 - Proceedings of SPIE - The International Society for Optical Engineering
BT - International Conference on Medical Imaging, Electronic Imaging, Information Technologies, and Sensors, MIEITS 2024
A2 - Jaiswal, Jyoti
PB - SPIE
T2 - 2024 International Conference on Medical Imaging, Electronic Imaging, Information Technologies, and Sensors, MIEITS 2024
Y2 - 1 March 2024 through 2 March 2024
ER -