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Port planning and management simulation /
Port Planning and Management Simulation examines port planning simulation applications, showing how they supports better port decision-making. Using a clear organizational format based on actual port system structure and operation processes, the book provides practical and theoretical insights on po...
| Clasificación: | Libro Electrónico |
|---|---|
| Autores principales: | , |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Amsterdam ; Oxford, United Kingdom ; Cambridge, MA :
Elsevier,
[2022]
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| Temas: | |
| Acceso en línea: | Texto completo |
MARC
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| 100 | 1 | |a Wang, Wenyuan, |e author. | |
| 245 | 1 | 0 | |a Port planning and management simulation / |c Wenyuan Wang, Yun Peng. |
| 264 | 1 | |a Amsterdam ; |a Oxford, United Kingdom ; |a Cambridge, MA : |b Elsevier, |c [2022] | |
| 300 | |a 1 online resource | ||
| 336 | |a text |b txt |2 rdacontent | ||
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| 500 | |a Part 1 Port planning and management and simulation application 1. To port planning and management from three aspects 2. The simulation application in port Part 2 Water area planning, operation, and safe navigation 3. An introduction to ships' operating system 4. How simulation techniques can help provide decision support for water area planning 5. The influences of different operation strategies 6. How simulation can be used for safe navigation Part 3 Land area planning and operation management 7. Introduction to the land area operating system 8. Land area function layout involving the layout site and the scale for different components 9. Traffic impact analysis Part 4 Port-centric collecting and distributing system: planning and management 10. Traffic flow under port collecting and distributing network context 11. Planning of interchange scheduling based on the simulation-based dynamic programming method 12. Management perspective on the application of simulation techniques in optimization Part 5 Emission reduction and alternative energy applications 13. An introduction to emission reduction methods and alternative energy applications used in green ports 14. Simulation for emission reduction strategies 15. Alternative energy applications Part 6 Conclusions and Discussions 16. Applying simulation in the port planning and management with an appropriate discussion 17. Future work Part 1 Port planning and management and simulation application 1. To port planning and management from three aspects 2. The simulation application in port Part 2 Water area planning, operation, and safe navigation 3. An introduction to ships' operating system 4. How simulation techniques can help provide decision support for water area planning 5. The influences of different operation strategies 6. How simulation can be used for safe navigation Part 3 Land area planning and operation management 7. Introduction to the land area operating system 8. Land area function layout involving the layout site and the scale for different components 9. Traffic impact analysis Part 4 Port-centric collecting and distributing system: planning and management 10. Traffic flow under port collecting and distributing network context 11. Planning of interchange scheduling based on the simulation-based dynamic programming method 12. Management perspective on the application of simulation techniques in optimization Part 5 Emission reduction and alternative energy applications 13. An introduction to emission reduction methods and alternative energy applications used in green ports 14. Simulation for emission reduction strategies 15. Alternative energy applications Part 6 Conclusions and Discussions 16. Applying simulation in the port planning and management with an appropriate discussion 17. Future work | ||
| 588 | |a Description based on online resource; title from digital title page (viewed on December 08, 2021). | ||
| 520 | |a Port Planning and Management Simulation examines port planning simulation applications, showing how they supports better port decision-making. Using a clear organizational format based on actual port system structure and operation processes, the book provides practical and theoretical insights on port planning and management. The book describes the water, land, collecting and distributing components of the port system, focusing on management, development, and risk mitigation. It examines the key challenges based on discrete system simulation theory that is less affected by local or national regulations. It compares various simulation scenarios for optimal port operational strategy. It quantifies port emissions, analyzes the impact of different reduction strategies, and presents operational strategies for green port planning developmentmand management. Port Planning and Management Simulation provides guidance for carrying out deep analysis in a complex and dynamic system, providing an integrated solution framework based on simulation techniques for improving efficiency and cost savings of the port system. | ||
| 505 | 0 | |a Intro -- Port Planning and Management Simulation -- Copyright -- Contents -- Contributors -- Preface -- Part 1: Introduction to port planning and management and simulation application in port -- Chapter 1: Introduction to port planning and management -- 1.1. A port and its components -- 1.1.1. Water area in port -- 1.1.2. Land area in port -- 1.1.3. Port collecting and distributing system -- 1.2. General problems of port planning and management -- 1.2.1. General problems of port planning -- 1.2.2. General problems of port management -- 1.3. Challenges on port planning and management -- References -- Chapter 2: Simulation application in port -- 2.1. Port operation system -- 2.1.1. Operation system in container terminals -- 2.1.2. Operation system in bulk cargo ports -- 2.2. Advantages of simulation -- 2.2.1. Advantages of simulation on port planning -- 2.2.2. Advantages of simulation on port management -- 2.3. Framework of simulation models -- 2.4. Basic conception of simulation -- 2.4.1. Overview of development history of simulation technology -- 2.4.2. Simulation software -- 2.4.3. Basic components of simulation model -- 2.4.4. Basic process of simulation modeling -- 2.5. Simulation-based optimization -- References -- Part 2: Water area planning, operation, and safe navigation -- Chapter 3: Simulation framework for ships navigation operation system -- 3.1. Ships navigation operation system and its logic model -- 3.2. The simulation framework -- 3.2.1. Ship waits at anchorage submodel -- 3.2.2. Ship enters the port submodel -- 3.2.3. Ships handling operation submodel -- 3.2.4. Ship leaves the port submodel -- Reference -- Chapter 4: Simulation for water area planning -- 4.1. Waterway -- 4.1.1. The suitable time to expand the waterway -- 4.1.2. The impact of navigation duration -- 4.2. Inner anchorage -- 4.2.1. Definition of inner anchorage. | |
| 505 | 8 | |a 4.2.2. Simulation method -- 4.2.3. Experiments and results -- 4.3. Avoiding area -- 4.3.1. Definition of avoiding area -- 4.3.2. Simulation method -- 4.3.3. Experiments and results -- 4.4. Basin -- 4.4.1. Definition of basin -- 4.4.2. Simulation method -- 4.4.3. Experiments and results -- References -- Chapter 5: Simulation for water area operation -- 5.1. Traffic rules -- 5.1.1. Definition of traffic rules -- 5.1.2. Simulation method -- 5.1.3. Experiments and results -- 5.2. Navigation rules -- 5.2.1. Definition of navigation rules -- 5.2.2. Simulation method -- 5.2.3. Experiments and results -- 5.3. Influences of the flexible berthing scheme -- 5.3.1. Definition of flexible berthing scheme -- 5.3.2. Simulation method -- 5.3.3. Experiments and results -- Reference -- Chapter 6: Simulation for influences of safe navigation requirements -- 6.1. Influences of navigation safety level -- 6.1.1. Definition of navigation safety level -- 6.1.2. Simulation method -- 6.1.3. Experiments and results -- 6.2. Influences of special ships -- 6.2.1. Definition of special ships -- 6.2.2. Simulation method -- 6.2.3. Experiments and results -- References -- Part 3: Land area planning and operation management -- Chapter 7: Simulation framework for land area operation system -- 7.1. Land area operation system and its logic model -- 7.2. Universal simulation framework -- 7.2.1. Framework design -- 7.2.2. Simulation model establishment -- 7.2.3. Submodels of simulation system -- References -- Chapter 8: Simulation for land functional area layout -- 8.1. Quayside layout -- 8.1.1. Introduction to quayside operation -- 8.1.2. Model establishment -- 8.1.3. Case study -- 8.2. Storage yard layout -- 8.2.1. Introduction to yard operation -- 8.2.2. Model establishment -- 8.2.3. Case study -- 8.3. Gate layout -- 8.3.1. Introduction to gate operation -- 8.3.2. Model establishment. | |
| 505 | 8 | |a 8.3.3. Case study -- 8.4. Inspection area layout -- 8.4.1. Scale determination simulation -- 8.4.2. Site selection simulation -- References -- Chapter 9: Simulation for land area operation management -- 9.1. Truck configuration in container terminals -- 9.1.1. Introduction to truck configuration for quayside cranes -- 9.1.2. Model establishment -- 9.1.3. Case study -- 9.2. Scheduling of reversible lanes in container terminals -- 9.2.1. Introduction to reversible lanes -- 9.2.2. Model establishment -- 9.2.3. Case study -- 9.3. Impact of truck arrival rules on port gate -- 9.3.1. Introduction to port gate operation management -- 9.3.2. Model establishment -- 9.3.3. Case study -- 9.4. Impact of traffic rules on inspection area road network -- 9.4.1. Introduction to traffic situation of the inspection area -- 9.4.2. Model establishment -- 9.4.3. Case study -- References -- Part 4: PRCDS: Planning and management -- Chapter 10: Introduction to PRCDS and simulation framework -- 10.1. Port-centric road collecting and distributing system -- 10.1.1. Overview -- 10.1.2. Composition and function -- 10.1.3. Operation process -- 10.2. General simulation framework -- 10.2.1. Entity and parameter -- 10.2.2. Construction and logic of simulation model -- Chapter 11: Simulation application in PRCDS planning -- 11.1. Time-varying characteristic analysis of freight traffic flow -- 11.1.1. Description of the characteristic of container freight traffic -- 11.1.2. Simulation model of container port freight traffic -- 11.1.3. Simulation analysis on traffic characteristic in port-centric road collecting and distributing system -- 11.1.4. Conclusion -- 11.2. Interchange construction planning -- 11.2.1. Interchange construction planning multistage decision problem -- 11.2.2. Simulation-based dynamic programming model. | |
| 505 | 8 | |a 11.2.3. Case study: Application of SDPM in interchange construction planning -- 11.2.4. Conclusion -- 11.3. Layout planning of drop-and-pull station -- 11.3.1. Description of port drop-and-pull transport station -- 11.3.2. Traffic simulation model of port drop-and-pull station -- 11.3.3. Case study: Layout planning of drop-and pull station in a Ro/Ro port -- 11.3.4. Conclusion -- References -- Chapter 12: Simulation application in PRCDS management -- 12.1. Freight traffic routing -- 12.1.1. Description of freight traffic routing problem in port-centric road collecting and distributing system -- 12.1.2. Traffic simulation model of port-centric road collecting and distributing system -- 12.1.3. Case study: Freight traffic routing in port-centric road collecting and distributing system of a container port -- 12.1.4. Conclusion -- 12.2. Traffic management with real-time information provision -- 12.2.1. Background of simulation analysis -- 12.2.2. Traffic simulation model for port-centric road collecting and distributing system with varying information provision -- 12.2.3. Case study: Impact analysis of real-time information provision on traffic management of port-centric road collect ... -- 12.2.4. Conclusion -- 12.3. Traffic analysis and management in signalized intersection -- 12.3.1. Traffic capacity of signalized intersections -- 12.3.2. Microscopic traffic simulation model of signalized intersection -- 12.3.3. Traffic capacity analysis of signalized intersection -- 12.3.4. Case study: Decussation intersection of port-centric road collecting and distributing system in a container port -- 12.3.5. Conclusion -- References -- Part 5: Emission reduction and renewable energy applications -- Chapter 13: Introduction to emission reduction methods and renewable energy applications -- 13.1. Emission assessment method in port. | |
| 505 | 8 | |a 13.1.1. Energy consumption of ships -- 13.1.2. Energy consumption from quay cranes -- 13.1.3. Energy consumption from yard cranes -- 13.1.4. Energy consumption from trucks -- 13.2. Emission reduction methods -- 13.2.1. Emission reduction methods for visiting ships -- 13.2.2. Emission reduction methods for port facilities -- 13.3. Renewable energy applications -- References -- Chapter 14: Simulation analysis on emission reduction methods -- 14.1. Simulation analysis on emission reduction methods for ships -- 14.1.1. Emission reduction methods for ships -- 14.1.2. Simulation method -- 14.1.3. Experiments and results -- 14.2. Simulation analysis on allocation strategies of on-shore power system -- 14.2.1. Adopting pattern of on-shore power system -- 14.2.2. Model formulation for on-shore power system -- 14.2.3. Simulation-based solution algorithm -- 14.2.4. Experiments and results -- 14.3. Simulation analysis on emission reduction methods for port facilities -- 14.3.1. Emission reduction methods for port facilities -- 14.3.2. Simulation method -- 14.3.3. Experiments and results -- References -- Chapter 15: Simulation-based optimization methods for renewable energy applications -- 15.1. Optimal design of a hybrid renewable energy system for ports considering economic benefits -- 15.1.1. Hybrid renewable energy systems -- 15.1.2. Optimal model for designing hybrid energy system -- 15.1.3. Simulation-based optimization method for hybrid energy system -- 15.1.4. Experiments and results -- 15.2. Optimal allocation and operation strategies of hybrid renewable energy systems considering environmental benefits -- 15.2.1. Adopted patterns of hybrid renewable energy systems -- 15.2.2. Evaluation strategy for designing a hybrid renewable energy system -- 15.2.3. Model formulation -- 15.2.4. Simulation-based optimization algorithm -- 15.2.5. Experiments and results. | |
| 650 | 0 | |a Harbors |x Management. | |
| 650 | 0 | |a Harbors |x Planning. | |
| 650 | 6 | |a Ports |x Gestion. |0 (CaQQLa)201-0045312 | |
| 650 | 6 | |a Ports |0 (CaQQLa)201-0003252 |x Planification. |0 (CaQQLa)201-0379726 | |
| 650 | 7 | |a Harbors |x Management |2 fast |0 (OCoLC)fst00951283 | |
| 650 | 7 | |a Harbors |x Planning |2 fast |0 (OCoLC)fst00951292 | |
| 700 | 1 | |a Peng, Yun, |e author. | |
| 776 | 0 | 8 | |i Print version: |z 9780323901123 |
| 856 | 4 | 0 | |u https://sciencedirect.uam.elogim.com/science/book/9780323901123 |z Texto completo |