Research progress on "ammonia-hydrogen" green energy roadmap and storage & transportation technology of liquid ammonia

Lin TENG; Pengbo YIN; Chaofei NIE; Feng YAN; Liqian ZHAO; Fuhua DANG; Yu LUO; Lilong JIANG

doi:10.6047/j.issn.1000-8241.2022.10.001

You-qi chuyun (Oct 2022)

Research progress on "ammonia-hydrogen" green energy roadmap and storage & transportation technology of liquid ammonia

Lin TENG,
Pengbo YIN,
Chaofei NIE,
Feng YAN,
Liqian ZHAO,
Fuhua DANG,
Yu LUO,
Lilong JIANG

Affiliations

Lin TENG: College of Chemical Engineering, Fuzhou University//National Engineering Research Center of Chemical Fertilizer Catalyst//Qingyuan Innovation Laboratory
Pengbo YIN: College of Chemical Engineering, Fuzhou University//National Engineering Research Center of Chemical Fertilizer Catalyst//Qingyuan Innovation Laboratory
Chaofei NIE: PipeChina Institute of Science and Technology
Feng YAN: PipeChina Institute of Science and Technology
Liqian ZHAO: China Petroleum Pipeline Engineering Co. Ltd.
Fuhua DANG: China Petroleum Pipeline Engineering Co. Ltd.
Yu LUO: College of Chemical Engineering, Fuzhou University//National Engineering Research Center of Chemical Fertilizer Catalyst//Qingyuan Innovation Laboratory
Lilong JIANG: College of Chemical Engineering, Fuzhou University//National Engineering Research Center of Chemical Fertilizer Catalyst//Qingyuan Innovation Laboratory

DOI: https://doi.org/10.6047/j.issn.1000-8241.2022.10.001
Journal volume & issue: Vol. 41, no. 10
pp. 1115 – 1129

Abstract

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As a high-efficiency hydrogen energy carrier, ammonia has the significant advantages such as high energy density, low storage and transportation cost, high safety and carbon-free energy storage. It can effectively solve the problems of high-pressure storage and transportation of hydrogen energy, which is of great significance to open up a featured storage and transportation roadmap for hydrogen energy correponding to the characteristics of energy structure in China and achieve the goals of carbon peaking and carbon neutrality. Based on the fact that ammonia is easier to store and transport than hydrogen, the development status of ammonia-hydrogen green energy roadmap and the research progress of the transportation process system, safety technology and design standard of liquid ammonia pipeline relying on the roadmap were reviewed. In view of the problems that the safe pipeline transportation technology of liquid ammonia needs further research and the design experience of liquid ammonia pipeline is immature in China, the following 4 suggestions were proposed: (1) Studies should be conducted on the basic physical properties of liquid ammonia containing impurities and the phase change characteristics, as well as the thermo-hydraulic behaviors, of different pipeline transportation technologies through the combination of experiments and simulation methods. (2) The mature experience of oil and gas pipelines can be referred to liquid ammonia pipelines, but comprehensive fitness-for-service evaluation should be performed before transferring in-service oil and gas pipelines to liquid ammonia transportation ones, if any. (3) The leakage monitoring system should be improved based on the leakage and diffusion characteristics of liquid ammonia pipeline, and the effect of protection technologies should be verified and optimized. (4) The construction, operation and management standards of liquid ammonia pipelines should be improved from the perspectives of pipeline materials, equipment, safety and corrosion prevention, etc.

Published in You-qi chuyun

ISSN: 1000-8241 (Print)
Publisher: Editorial Office of Oil & Gas Storage and Transportation
Country of publisher: China
LCC subjects: Technology: Chemical technology: Oils, fats, and waxes; Technology: Chemical technology: Gas industry
Website: https://yqcy.paperonce.org/en/

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