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Inland Waterway Transportation explores how tools of economic analysis can improve the efficiency of both public and private investment in inland waterway transportation. Originally published in 1969, this study investigates how waterway transportation has been affected by public operating policy, costs and charges for the use of waterways in the United States as well as the impact of relationships central to waterway policy and individual firms such as the effect of the waterway environment on a firm’s efficiency. This title will be of interest to students of Environmental Studies and professionals.
The People’s Republic of China (PRC) has the world’s longest inland waterway system. Despite the system’s potential and the government’s policies encouraging its development, inland waterway transport (IWT) has not been developed as much as other transport modes. This publication examines the constraints in developing IWT based on a study in the PRC’s Hunan province. Six major challenges threatening the viability of IWT and its integration into the whole logistics chain have been identified. The analyses and case study lead to recommendations that are relevant not just to the PRC but also to other developing countries.
The UNECE Recommendations on Harmonized Europe-Wide Technical Requirements for Inland Navigation Vessels (Resolution No. 61) establish a Pan-European regime of technical requirements for inland navigation vessels engaged in international transport of goods and passengers. They are a result of Governments efforts, aimed at unifying the divergent regulations in force within different intergovernmental organizations and within individual UNECE member countries. The unified regulations contained therein have been brought in line with relevant European Union's legislation and are to facilitate the recognition of ship's certificates issued on their basis, thus avoiding the need for vessels engaged in international transport by inland waterway to undergo a double inspection. The Recommendations contain, in particular, strict regulations on limitation of air and water pollution by vessels and on abatement of noise produced by them as well as the internationally agreed standards for minimum manning requirements and working and rest hours of crews.
Inland waterways are a host for a mode of transport that is not as visible to the general public or as used as it once was. It is, however, generally perceived to be very important to our freight transport system today, although a closer look into the inland waterway transport system rebuts this perception and reveals the strengths and opportunities of this mode of transportation. This book gives the reader a thorough understanding of the current role of inland waterway transport as a freight transport system and its conditions. Drawing on case studies from across Europe, this text explores the economic, logistic, and technological and policy issues related to inland waterway transport and the challenges that changes in these areas present to this transport mode. It also explores the strategies for the inland waterway transport sector to secure and then enlarge its role in the future of freight transport. Inland Waterway Transport will be an invaluable source for students and researchers of transport studies. In addition, the book will be useful to policymakers and practitioners involved in its development. It may also appeal to wider readers with an interest in the fascinating business of inland waterway transport.
Theodore J. Karamanski's sweeping maritime history demonstrates the far-ranging impact that the tools and infrastructure developed for navigating the Great Lakes had on the national economies, politics, and environment of continental North America. Synthesizing popular as well as original historical scholarship, Karamanski weaves a colorful narrative illustrating how disparate private and government interests transformed these vast and dangerous waters into the largest inland water transportation system in the world. Karamanski explores both the navigational and sailing tools of First Nations peoples and the dismissive and foolhardy attitude of early European maritime sailors. He investigates the role played by commercial boats in the Underground Railroad, as well as how the federal development of crucial navigational resources exacerbated sectionalism in the antebellum United States. Ultimately Mastering the Inland Sea shows the undeniable environmental impact of technologies used by the modern commercial maritime industry. This expansive story illuminates the symbiotic relationship between infrastructure investment in the region's interconnected waterways and North America's lasting economic and political development.
Coal will continue to provide a major portion of energy requirements in the United States for at least the next several decades. It is imperative that accurate information describing the amount, location, and quality of the coal resources and reserves be available to fulfill energy needs. It is also important that the United States extract its coal resources efficiently, safely, and in an environmentally responsible manner. A renewed focus on federal support for coal-related research, coordinated across agencies and with the active participation of the states and industrial sector, is a critical element for each of these requirements. Coal focuses on the research and development needs and priorities in the areas of coal resource and reserve assessments, coal mining and processing, transportation of coal and coal products, and coal utilization.
Water covers more than 70% of the Earth’s surface, making maritime influences an important consideration in evaluating modern global economic systems. Therefore, the efficient design, operation, and management of maritime systems are important for sustainable marine technology development and green innovation. Marine Technology and Sustainable Development: Green Innovations examines theoretical frameworks and empirical research in the maritime industry, evaluating new technologies, methodologies, and practices against a backdrop of sustainability. This critical reference encourages the discussion and exploration of diverse opinions on the benefits and challenges of new marine technologies essential for marine and maritime professionals, researchers, and scholars hoping to improve their understanding of environmental considerations in preserving the world’s oceanic resources.
This book constitutes the proceedings of the 11th International Conference on Computational Logistics, ICCL 2020, held in Enschede, The Netherlands, in September 2020. The 49 papers included in this book were carefully reviewed and selected from 73 submissions. They were organized in topical sections named: maritime and port logistics; vehicle routing and scheduling; freight distribution and city logistics; network design and scheduling; and selected topics in logistics. Due to the Corona pandemic ICCL 2020 was held as a virtual event.
Inland Waterway (IW), or river vessels are in every respect different from the seagoing ships. The professional literature is mostly focused on conventional seagoing fleets, leaving a gap in the documentation of design practices for IW vessels. The principal attribute that differentiates river vessels from the seagoing ships is the low, or shallow, draught due to water depth restrictions. This book addresses key aspects for the design of contemporary, shallow draught IW vessels for the transport of dry cargo (containers and bulk cargo). Most of the logic that is presented is applicable to the design of river vessels for any river, but the material that is presented is focused on vessels for the River Danube and its tributaries. The term ‘contemporary river vessel’ assumes that the present-day technology and current Danube river infrastructure are taken into consideration in its design. It is believed that the technologies and concepts that are proposed here are applicable for all new vessel designs for the next 10 to 15 years. Other innovative technologies should be considered for designs beyond that horizon. Moreover, nowadays contemporary IW vessel must be in harmony with the Environmentally Sustainable Transport (EST) policies and hence special attention is paid to both ecology and efficiency. Note however that shipowners and ship operators usually tend to choose the conventional cost-effective transport technologies. Given that potential divergence of interests, the concepts and technologies treated here may be regarded as innovative.
This book focuses on the different aspects of management and administration of seaports as well as their linkage with ongoing reformatory measures and some emerging challenges facing the Nigerian maritime transport sub-sector.