Joint tank container demurrage policy and flow optimisation using a progressive hedging algorithm with expanded time-space network

Joint tank container demurrage policy and flow optimisation using a progressive hedging algorithm with expanded time-space network

•Mathematical model of industrial practise in tank container (TC) operations developed including demurrage policy under uncertainty.•Two-stage time-space network modelling used in jointly optimising TC fleet size and TC demurrage policy.•Progressive hedging algorithm with expanded time-space network...

Full description

Saved in:
Bibliographic Details
Published in:European journal of operational research Vol. 307; no. 2; pp. 663 - 679
Main Authors: Xing, Xinjie, Song, Dongping, Qiu, Chengfeng, Drake, Paul R., Zhan, Yuanzhu
Format: Journal Article
Language:English
Published: Elsevier B.V 01-06-2023
Subjects:
Detention and demurrage
OR in maritime industry
Pricing and fleet size optimisation
Progressive hedging algorithm
Time-space network modelling
Progressive hedging algorithm
Detention and demurrage
Pricing and fleet size optimisation
OR in maritime industry
Time-space network modelling
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:•Mathematical model of industrial practise in tank container (TC) operations developed including demurrage policy under uncertainty.•Two-stage time-space network modelling used in jointly optimising TC fleet size and TC demurrage policy.•Progressive hedging algorithm with expanded time-space network developed to solve (optimise) the model with reasonable computational time and memory requirements.•The use of the developed optimisation tool as a management tool is demonstrated not only for optimising demurrage policy but also gaining a deeper understanding of costs and profit in TC operations. A key feature of the tank container (TC) operating industry is that customers overhold TCs to provide temporary storage equipment for their contents rather than provide their own storage facilities. TC operators charge a very profitable fee (demurrage charge) for this service making it an attractive business proposition, but it can be detrimental to holistic network flows and fleet sizing. This paper addresses the problem of jointly optimising TC demurrage policy and TC flow, in the face of uncertain TC maintenance times, to maximise profits. A progressive hedging algorithm with expanded time-space network (PHA-ETSN) is designed to tackle this tactical level optimisation problem as other established techniques struggle with this optimisation in terms of computational time and memory requirements. Experiments are performed to illustrate how the optimisation tool can be used to investigate how demurrage policy affects different operational costs and TC hire revenue and thereby profit. These experiments demonstrate how the optimisation tool can be used by managers not only to optimise demurrage policy but also to explore and to understand more deeply the costs and profits in their operations.
ISSN:0377-2217
1872-6860
DOI:10.1016/j.ejor.2022.08.044