A Concept of Integration of a Vactrain Underground Station with the Solidarity Transport Hub Poland

Stryhunivska, Olena; Gdowska, Katarzyna; Rumin, Rafał

doi:10.3390/en13215737

Cited by 8 publications

(12 citation statements)

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“…The port's land area is 3248 ha, and the port quays specialized for several functions are 23,700 m long. The largest seagoing ships that can sail on the Baltic Sea can be accommodated in the newest part of the Port of Gdansk, called the Northern Port [11].…”

Section: Overview Of Issues Related To Long-distance China-poland Tra...mentioning

confidence: 99%

Comparative Analysis of Long-Distance Transportation with the Example of Sea and Rail Transport

Neumann

2021

Energies

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The subject of the article is a comparative long-distance transport analysis based on the relationship between central and eastern China and Poland. It provides an overview of issues related to long-haul China–Poland. The technique for order of preference by similarity to ideal solution (TOPSIS) method was proposed in the multi-criteria analysis. This method was briefly discussed, and its choice was justified. Then, the criteria adopted in the analysis were presented, i.e., time, cost, maximum number of containers, and ecology index. Multi-criteria analysis was carried out for three cases: the transport of one loading unit, 82 loading units, and 200 loading units. The geopolitical and operational situation on the transport route for the analyzed modes of transport was discussed.

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Section: Overview Of Issues Related To Long-distance China-poland Tra...mentioning

confidence: 99%

Comparative Analysis of Long-Distance Transportation with the Example of Sea and Rail Transport

Neumann

2021

Energies

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“…the electromagnetic levitation (Soni et al, 2019;Pradhan and Katyayan, 2018;Abdelrahman et al, 2018;Tudor and Paolone, 2019;Lafoz et al, 2020), the dynamics of the HL capsules and low-pressure tubes (Rajendran and Harper, 2020;Niu et al, 2020a;Nowacki et al, 2019;Belova and Vulf, 2016) the HL infrastructure and their resistance to natural catastrophes (Ahmadi et al, 2020;Alexander and Kashani, 2018;Taylor et al, 2016;Heaton, 2017) environmental aspects of the HL technology including energy consumption and utilization of renewable energy sources (Janić, 2020;Nowacki et al, 2019;Sayeed et al, 2018Sayeed et al, -2018Lafoz et al, 2020;Roswall et al, 2018;Rajendran and Harper, 2020) as well as costs and benefits associated with operational, economic, social, and environmental performance of the HL (Janić, 2020;Almujibah et al, 2020;van Goeverden et al, 2018;Rajendran and Harper, 2020). As the deployment of the HL technology gets more and more real, the design of hyperloop station and passenger safety management issues need systematical exploration, however existing studies on these subjects are scarce (Dudnikov, 2019;Taylor et al, 2016;Covell, 2017;Stryhunivska et al, 2020;van Goeverden et al, 2018;Rajendran and Harper, 2020). This work aims at filling in this gap by studying critical safety issues and propounding a way of dealing with one of them, i.e.…”

Section: Introductionmentioning

confidence: 99%

Key Points of the Management System for the Safety of Passengers Travelling with Low-Pressure Trains

Stryhunivska

Gdowska

Rumin

2020

New Trends in Production Engineering

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Due to the innovation of transport means based on hyperloop technology, the correctness of its functioning should be investigated in relation to many technical, economic and operational factors. This paper presents an analysis of the hyperloop technology from the point of view of ensuring safety of passengers while travelling in a low-pressure rail tunnel. The main subject of research was the design of hyperloop station infrastructure and the safety management system that will ensure the safety of passengers at the station in the sphere of atmospheric pressure, despite the station’s interaction with low-pressure tubes during entry and exit of the capsules. The safety management system also includes evacuation of passengers from low-pressure tubes in an emergency situation. The paper reviews the key issues of passenger safety in the hyperloop transport system, which are the source of justified and unfounded people’ fear of using this transport means despite its obvious advantages. The authors’ original achievement is the identification of critical points of passenger safety during their stay in the station area and during their journey through a low-pressure tunnel, as well as the design of a double airlock that can be used in the hyperloop tunnel at repeatable intervals with the aim of evacuating passengers to the atmospheric pressure zone. The designed solution allows to eliminate one of the significant weaknesses of the transport system using low-pressure rail.

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“…Concrete pylons are expected to support the tube system with a height depending on the configuration of the guideway [53,107]. Three types of guideway infrastructures are under study: elevated, on ground, and underground [8,9,11,13,16,22,66,87,107]. The elevated guideway is expected to be the safer, as there is no need for crossing control systems at roadway intersections [107] and the land footprint is smaller for pylons compared to a railway track [44,107].…”

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confidence: 99%

“…The elevated guideway is expected to be the safer, as there is no need for crossing control systems at roadway intersections [107] and the land footprint is smaller for pylons compared to a railway track [44,107]. Leveraging the surface on top of the tubes, solar panels could be installed [8][9][10][11][12][13][17][18][19][20][21]25,44,53,66,87,88,106] depending on local conditions, thus contributing to the local electric grid.…”

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The Hyperloop System and Stakeholders: A Review and Future Directions

et al. 2021

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The hyperloop is an innovative land transport mode for passengers and freight that travels at ultra-high speeds. Lately, different stakeholders have been engaged in the research and development of hyperloop components. The novelty of the hyperloop necessitates certain directions to be followed toward the development and testing of its technological components as well the formation of regulations and planning processes. In this paper, we conduct a comprehensive literature review of hyperloop publications to record the current state of progress of hyperloop components, including the pod, the infrastructure, and the communication system, and identify involved EU stakeholders. Blending this information results in future directions. An online search of English-based publications was performed to finally consider 107 studies on the hyperloop and identify 81 stakeholders in the EU. The analysis shows that the hyperloop-related activities are almost equally distributed between Europe (39%) and Asia (38%), and the majority of EU stakeholders are located in Spain (26%) and Germany (20%), work on the traction of the pod (37%) and the tube (28%), and study impacts including safety (35%), energy (33%), and cost (30%). Existing tube systems and testing facilities for the hyperloop lack full-scale tracks, which creates a hurdle for the testing and development of the hyperloop system. The presented analysis and findings provide a holistic assessment of the hyperloop system and its stakeholders and suggest future directions to develop a successful transport system.

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A Concept of Integration of a Vactrain Underground Station with the Solidarity Transport Hub Poland

Cited by 8 publications

References 47 publications

Comparative Analysis of Long-Distance Transportation with the Example of Sea and Rail Transport

Comparative Analysis of Long-Distance Transportation with the Example of Sea and Rail Transport

Key Points of the Management System for the Safety of Passengers Travelling with Low-Pressure Trains

The Hyperloop System and Stakeholders: A Review and Future Directions

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