000	02246cam  2200325za 4500
001	9.848323
003	CaOODSP
005	20221107153640
007	cr |||||||||||
008	171205s2017    oncad  #ob   f000 0 eng d
020	|a978-0-660-24130-2
040	|aCaOODSP|beng
043	|an-cn---
086	1 |aNR16-190/2017E-PDF
100	1 |aYoo, Yeong.
245	10|aReview of hydrogen tolerance of key Power-to-Gas (P2G) components and systems in Canada |h[electronic resource] : |bfinal report / |cAuthors: Yeong Yoo, Nancy Glass and Ryan Baker.
246	17|aEnergy storage for grid security and modernization
260	|a[Ottawa?] : |bNational Research Council Canada, |c2017.
300	|a61 p. : |bill., graphs
500	|a"Date: July 14, 2017."
500	|aAt head of title: Energy, mining and environment.
504	|aIncludes bibliographical references.
520	|a"This report presents the codes, standards, and regulations (CSR), R&D needs and gaps, hydrogen tolerance of key components and systems, demo cases, and Technology Development Matrix (TDM) analysis identified and determined for Power-to-Gas (P2G) technology. P2G technology enables hydrogen produced from electrolysis and renewable natural gas (RNG) produced by methanation to be injected into national gas grids, which permits large scale storage of green energy. If economically feasible, methane injection in the grid could represent considerable volumes since RNG complies with grid specifications. However, the amount of direct hydrogen injected into the gas grid is limited by country-specific standards and regulations. In the European Union the maximum is 0-12 vol.% or 0-2 wt.%. A detailed investigation of CSR on the injection of renewable hydrogen and RNG into natural gas (NG) pipelines has clarified current constraints and safety considerations in terms of gas injection, transport and end-use systems"--Executive summary, p. 5.
692	07|2gccst|aPipelines
692	07|2gccst|aRegulations
692	07|2gccst|aEnergy supply
700	1 |aGlass, Nancy.
700	1 |aBaker, Ryan.
710	2 |aNational Research Council Canada.
856	40|qPDF|s1.46 MB|uhttps://publications.gc.ca/collections/collection_2018/cnrc-nrc/NR16-190-2017-eng.pdf