Economic Development Based on a Mathematical Model: An Optimal Solution Method for the Fuel Supply of International Road Transport Activity
Due to globalization and increased market competition, forwarding companies must focus on the optimization of their international transport activities and on cost reduction. The minimization of the amount and cost of fuel results in increased competition and profitability of the companies as well as...
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MDPI AG
2021-05-01
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| Series: | Energies |
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| Online Access: | https://www.mdpi.com/1996-1073/14/10/2963 |
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doaj-fe7318e2cdd5457cbb3d54b52cd9cd262021-06-01T00:35:37ZengMDPI AGEnergies1996-10732021-05-01142963296310.3390/en14102963Economic Development Based on a Mathematical Model: An Optimal Solution Method for the Fuel Supply of International Road Transport ActivityMelinda Timea Fülöp0Miklós Gubán1György Kovács2Mihály Avornicului3Faculty of Economics and Business Administration, Babeş–Bolyai University, 400591 Cluj-Napoca, RomaniaFaculty of Finance and Accountancy, Budapest Business School, 1149 Budapest, HungaryInstitute of Logistics, University of Miskolc, 3515 Miskolc, HungaryFaculty of Finance and Accountancy, Budapest Business School, 1149 Budapest, HungaryDue to globalization and increased market competition, forwarding companies must focus on the optimization of their international transport activities and on cost reduction. The minimization of the amount and cost of fuel results in increased competition and profitability of the companies as well as the reduction of environmental damage. Nowadays, these aspects are particularly important. This research aims to develop a new optimization method for road freight transport costs in order to reduce the fuel costs and determine optimal fueling stations and to calculate the optimal quantity of fuel to refill. The mathematical method developed in this research has two phases. In the first phase the optimal, most cost-effective fuel station is determined based on the potential fuel stations. The specific fuel prices differ per fuel station, and the stations are located at different distances from the main transport way. The method developed in this study supports drivers’ decision-making regarding whether to refuel at a farther but cheaper fuel station or at a nearer but more expensive fuel station based on the more economical choice. Thereafter, it is necessary to determine the optimal fuel volume, i.e., the exact volume required including a safe amount to cover stochastic incidents (e.g., road closures). This aspect of the optimization method supports drivers’ optimal decision-making regarding optimal fuel stations and how much fuel to obtain in order to reduce the fuel cost. Therefore, the application of this new method instead of the recently applied ad-hoc individual decision-making of the drivers results in significant fuel cost savings. A case study confirmed the efficiency of the proposed method.https://www.mdpi.com/1996-1073/14/10/2963optimal fuel supplycost functionoptimizationmathematical programming |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Melinda Timea Fülöp Miklós Gubán György Kovács Mihály Avornicului |
| spellingShingle |
Melinda Timea Fülöp Miklós Gubán György Kovács Mihály Avornicului Economic Development Based on a Mathematical Model: An Optimal Solution Method for the Fuel Supply of International Road Transport Activity Energies optimal fuel supply cost function optimization mathematical programming |
| author_facet |
Melinda Timea Fülöp Miklós Gubán György Kovács Mihály Avornicului |
| author_sort |
Melinda Timea Fülöp |
| title |
Economic Development Based on a Mathematical Model: An Optimal Solution Method for the Fuel Supply of International Road Transport Activity |
| title_short |
Economic Development Based on a Mathematical Model: An Optimal Solution Method for the Fuel Supply of International Road Transport Activity |
| title_full |
Economic Development Based on a Mathematical Model: An Optimal Solution Method for the Fuel Supply of International Road Transport Activity |
| title_fullStr |
Economic Development Based on a Mathematical Model: An Optimal Solution Method for the Fuel Supply of International Road Transport Activity |
| title_full_unstemmed |
Economic Development Based on a Mathematical Model: An Optimal Solution Method for the Fuel Supply of International Road Transport Activity |
| title_sort |
economic development based on a mathematical model: an optimal solution method for the fuel supply of international road transport activity |
| publisher |
MDPI AG |
| series |
Energies |
| issn |
1996-1073 |
| publishDate |
2021-05-01 |
| description |
Due to globalization and increased market competition, forwarding companies must focus on the optimization of their international transport activities and on cost reduction. The minimization of the amount and cost of fuel results in increased competition and profitability of the companies as well as the reduction of environmental damage. Nowadays, these aspects are particularly important. This research aims to develop a new optimization method for road freight transport costs in order to reduce the fuel costs and determine optimal fueling stations and to calculate the optimal quantity of fuel to refill. The mathematical method developed in this research has two phases. In the first phase the optimal, most cost-effective fuel station is determined based on the potential fuel stations. The specific fuel prices differ per fuel station, and the stations are located at different distances from the main transport way. The method developed in this study supports drivers’ decision-making regarding whether to refuel at a farther but cheaper fuel station or at a nearer but more expensive fuel station based on the more economical choice. Thereafter, it is necessary to determine the optimal fuel volume, i.e., the exact volume required including a safe amount to cover stochastic incidents (e.g., road closures). This aspect of the optimization method supports drivers’ optimal decision-making regarding optimal fuel stations and how much fuel to obtain in order to reduce the fuel cost. Therefore, the application of this new method instead of the recently applied ad-hoc individual decision-making of the drivers results in significant fuel cost savings. A case study confirmed the efficiency of the proposed method. |
| topic |
optimal fuel supply cost function optimization mathematical programming |
| url |
https://www.mdpi.com/1996-1073/14/10/2963 |
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