TY - JOUR
T1 - MarPEM
T2 - An agent based model to explore the effects of policy instruments on the transition of the maritime fuel system away from HFO
AU - Bas, G.
AU - De Boo, K.
AU - Vaes-Van de Hulsbeek, A. M.
AU - Nikolic, I.
PY - 2017
Y1 - 2017
N2 - To lower the emissions of deep sea shipping, policymakers aim to decrease the use of heavy fuel oil (HFO) as a maritime fuel. Multiple alternatives for HFO exist, but despite new regulations, their use is still limited. To stimulate shipping companies to replace HFO by one of the alternatives, policymakers can use a variety of policy instruments. In this paper, we present a comprehensive system perspective of the maritime fuel system and agent-based model (MarPEM) that can be used to study the effects of policy instruments on the transition away from HFO. In contrast to existing studies on reducing maritime emissions, our system perspective captures the relations and dynamics between different components of the maritime fuel system. Thereby, it can account for the feedback and non-linear dynamics in the system. We illustrate the use of MarPEM to assess the effect of three policy instruments that each influence the maritime fuel system differently. The outcomes of the experiments are in line with previous studies and the opinion of industrial experts. The model is thus a valid representation of the maritime fuel system. By presenting a sufficiently detailed representation of the marine fuel socio-technical system, listing clear and detailed assumptions, and publishing the source code, future studies can use this work as basis to study the effects of other policy instruments. Thereby, this research enables future detailed studies of the maritime fuel system's transition.
AB - To lower the emissions of deep sea shipping, policymakers aim to decrease the use of heavy fuel oil (HFO) as a maritime fuel. Multiple alternatives for HFO exist, but despite new regulations, their use is still limited. To stimulate shipping companies to replace HFO by one of the alternatives, policymakers can use a variety of policy instruments. In this paper, we present a comprehensive system perspective of the maritime fuel system and agent-based model (MarPEM) that can be used to study the effects of policy instruments on the transition away from HFO. In contrast to existing studies on reducing maritime emissions, our system perspective captures the relations and dynamics between different components of the maritime fuel system. Thereby, it can account for the feedback and non-linear dynamics in the system. We illustrate the use of MarPEM to assess the effect of three policy instruments that each influence the maritime fuel system differently. The outcomes of the experiments are in line with previous studies and the opinion of industrial experts. The model is thus a valid representation of the maritime fuel system. By presenting a sufficiently detailed representation of the marine fuel socio-technical system, listing clear and detailed assumptions, and publishing the source code, future studies can use this work as basis to study the effects of other policy instruments. Thereby, this research enables future detailed studies of the maritime fuel system's transition.
KW - Agent-based modelling
KW - Liquefied natural gas
KW - Maritime fuels
KW - Policy evaluation
KW - Simulation
KW - Sulphur emissions
KW - System perspective
UR - http://www.scopus.com/inward/record.url?scp=85021845562&partnerID=8YFLogxK
U2 - 10.1016/j.trd.2017.06.017
DO - 10.1016/j.trd.2017.06.017
M3 - Article
SN - 1361-9209
VL - 55
SP - 162
EP - 174
JO - Transportation Research. Part D: Transport & Environment
JF - Transportation Research. Part D: Transport & Environment
ER -