Buch, Englisch, 313 Seiten, Format (B × H): 160 mm x 241 mm, Gewicht: 716 g
ISBN: 978-981-961119-5
Verlag: Springer Nature Singapore
This book is a summary of the author's pioneering work on the theory of heating pipelines and its application expansion over the years, trying to establish a complete logical system from the basic theory of pipelines to the application of heating pipelines to the innovation and expansion of large-diameter energy transmission pipelines. These esoteric fundamental theories are linked to practical applications, and numerical simulations are used to help readers understand the problems faced by pipelines in engineering practice.
The book consists of four chapters, the first chapter describes the basic concepts of district heating system, related standards, development history, facing problems and future prospects, while for the basic characteristics of district heating pipe network installation and laying methods made an introduction; followed by the second chapter summarizes and organizes the pipeline safety research of fluid-solid heat, elastic-plasticity and other basic theories, as well as heating pipeline thermal insulation system heat loss and the economic evaluation of theory and so on. Based on the basic theory of pipeline, the third and fourth chapters introduce several typical pipeline application cases in detail, and each case includes modelling, solving, and result analysis, which can provide readers with technical references and idea guidelines in the field of pipeline research. The third chapter of the different structures of the heating pipeline from the safety and economic aspects of a detailed numerical study; the fourth chapter in the heating pipeline on the basis of energy transportation pipeline, transportation medium from the original hot water, hot steam to the oil and gas, specifically introduced various types of large-diameter energy transportation pipeline under the action of different loads of the dynamic response characteristics.
It has important theoretical significance for enriching and developing the basic theory of pipeline and the expansion of all kinds of pipeline applications, and at the same time, it provides technical guidance for the safe, stable, economic and efficient operation of all kinds of long-distance pipelines, such as heating pipelines and energy transmission and transportation pipelines. It helps readers to systematically and comprehensively understand the basic theories of elasticity and plasticity, fluid-solid-thermal coupling, and economic evaluation of pipelines, and at the same time provides readers with new research ideas and technical means from the perspective of scientific research.
Zielgruppe
Research
Autoren/Hrsg.
Fachgebiete
Weitere Infos & Material
District heating.- The basic characteristics of long-distance pipeline networks.- Basic Theory of Fluid Solid Thermal Coupling.- Heat loss and economic evaluation theory of directly buried insulated pipeline system.- Basic theory of pipeline elastic-plastic.- Effects of the temperature and pressure loads coupled on structure stress of “L”-type large-diameter buried pipe network.- Effects of end to side displacement load on structure stress and deformation of “L”-type large-iameter buried pipe network.- Analysis of fluid-solid-thermal performance of L-shaped pipeline system.- Coupled validity analysis of solid-heat multi-field model for straight tube flow.- Influence of key structural parameters on total heat loss and heat transfer between tubes.- Dynamic response of L-shaped oil pipeline under end-side displacement.- Dynamic response of natural gas pipeline under moving loads.- Hazardous area prediction for natural gas pipelines under falling rocks.- Study on the Plastic Region of Natural Gas Pipeline under Ground Overload.- Dynamic Response of Hydrogen Transportation Pipeline under the Action of Oblique Reverse aults.- Assessment of the effect of blood pressure on aortic rupture risk based on two-way fluid-structure coupling.- Quantifying the risk of aortic stenosis complications based on bi-directional thermo-fluid-solid coupling.
