Norme e pubblicazioni sull’idrogeno e sulle celle a combustibile

Questa pagina contiene una selezione di norme, pubblicazioni, libri ed altre risorse documentali ed informative correlate alla tecnologia basata sull’ìdrogeno, la sua produzione, trasporto, stoccaggio, distribuzione e sulle celle a combustibile, applicabili nei più svariati ambiti industriali e commerciali, dei trasporti e della produzione energetica.

NFPA

NFPA 2    “Hydrogen Technologies Code”

NFPA 55    “Compressed Gases and Cryogenic Fluids Code” (incorpora NFPA 50A “Standard for Gaseous Hydrogen Systems at Consumer Sites” e NFPA 50B “Standard for Liquefied Hydrogen Systems at Consumer Sites”)

 

ASME

Boiler and Pressure Vessels Code Section VIII-3 “Rules for Construction of Pressure Vessels, Division 3, Alternate Rules High Pressure Vessels”, al cui interno si trova:

KD-10 Article    “Special Requirements for Vessels in High Pressure Gaseous Hydrogen Transport and Storage Service”

B31.12                 “Hydrogen Piping & Pipelines”

STP-PT-003         “Hydrogen Standardization Interim Report for Tanks, Piping, and Pipelines”

STP-PT-005         “Hydrogen, High Pressure Composite Tanks, Design Factor Guidelines”

STP-PT-006         “Design Guidelines for Hydrogen Piping and Pipelines”

STP-PT-014         “Data Supporting Composite Tank Standards Development for Hydrogen Infrastructure Applications.

STP-PT-017         “Hydrogen, Service, Properties for Composite Materials”

STP-PT-021         “Nondestructive Testing and Evaluation Methods for Composite Hydrogen Tanks”

STP-PT-064         “Evaluation of Fracture Properties Test Methos for Hydrogen Service”

PVP2005-71031  “Codes and Standards for Gaseous Hydrogen Vessesls” Conference Proceedings del ASME 2005 Pressure Vessels and Piping Conference

 

ASTM

D7606-17            “Standard Practice for Sampling of High Pressure Hydrogen and Related Fuel Cell Feed Gases”

D7634-10(2017) “Standard Test Method for Visualizing Particulate Sizes and Morphology of Particles Contained in Hydrogen Fuel by Microscopy”

D7649-19            “Standard Test Method for Determination of Trace Carbon Dioxide, Argon, Nitrogen, Oxygen and Water in Hydrogen Fuel by Jet Pulse Injection and Gas Chromatography/Mass Spectrometer Analysis”

D7650-21            “Standard Practice for Sampling of Particulate Matter in High Pressure Gaseous Fuels with an In-Stream Filter”

D7651-17            “Standard Test Method for Gravimetric Measurement of Particulate Concentration of Hydrogen Fuel”

D7653-18            “Standard Test Method for Determination of Trace Gaseous Contaminants in Hydrogen Fuel by Fourier Transform Infrared (FTIR) Spectroscopy”

D7675-15            “Standard Test Method for Determination of Total Hydrocarbons in Hydrogen by FID-Based Total Hydrocarbon (THC) Analyzer”

D7676-18            “Standard Practice for Screening Organic Halides Contained in Hydrogen or Other Gaseous Fuels”

D7892-15            “Standard Test Method for Determination of Total Organic Halides, Total Non-Methane Hydrocarbons, and Formaldehyde in Hydrogen Fuel by Gas Chromatography/Mass Spectrometry”

D7941/D7941M-14 “Standard Test Method for Hydrogen Purity Analysis Using a Continuous Wave Cavity Ring-Down Spectroscopy Analyzer”

STP543-EB        “Hydrogen Embrittlement Testing”

STP962-EB        “Hydrogen Embrittlement: Prevention and Control”

 

SAE

J1766    Recommeded Practice for Electic, Fuel Cell and Hybrid Electice Vehicle Crash Integrity Testing

J2572    Recommended Practice for Measuring Fuel Consumption and Range of Fuel Cell and Hybrid Fuel Cell Vehicles Fuelled by Compressed Gaseous Hydrogen

J2574    Fuel Cell Vehicle Terminology

J2578    Recommended Practice for General Fuel Cell Vehicle

J2579    Technical Information Report for Fuel Systems in Fuel Cell and Other Hydrogen Vehicles

J2594    Recommended Practice to Design for Recycling Proton Exchange Membrane (PEM) Fuel Cell Systems

J2600    Compressed Hydrogen Surface Vehicle Refueling Connection Devices

J2601    Fueling Protocols for Light Duty and Medium Duty Gaseous Hydrogen Surface Vehicles

J2601/2    Fueling Protocol for Gaseous Hydrogen Powered Heavy Duty Vehicles

J2601/3    Fueling Protocol for Gaseous Hydrogen Powered Industrial

J2601/4    Ambient Temperature Fixed Orifice Fueling

J2615    Testing Performance of Fuel Cell Systems for Automotive Applications

J2616    Testing Performance of the Fuel Processor Subsystem of An Automotive Fuel Cell System

J2617    Recommended Practice for Testing Performance of PEM Fuel Cell Stack Sub-system for Automotive Applications

J2719    Hydrogen Fuel Quality for Fuel Cell Vehicles

J2719/1    Application Guideline for Use of Hydrogen Quality Specification

J2760    Pressure Terminology Used in Fuel Cells and Other Hydrogen Vehicle Applications

J2799    Hydrogen Surface Vehicle to Station Communications Hardware and Software

J2990/1    Gaseous Hydrogen and Fuel Cell Vehicle First and Second Responder Recommended Practice

J3089    Characterization of On-board Vehicular Hydrogen Sensors

J3219    Hydrogen Fuel Quality Screening Test of Chemicals for Fuel Cell Vehicle

 

SAE BOOKS – Fuel Cells

R-494    Advanced Hybrid Powertrains for Commercial Vehicles, 2E

TU-003    Advances in Electric Propulsion

B-HON-020    Honda R&D Technical Review October 2016

TU-001    Impacting Commercialization of Rapid Hydrogen Fuel Cell Electric Vehicles (FCEV)

B-HON-017    Honda R& D Technical Review April 2015

MR-ID-020    Range Extenders for Electric Vehicles Land, Water & Air 2015-2025

R-409    Fuel/Engine Interactions

T-128    Future Automotive Fuels and Energy

R-396    Advanced Hybrid Powertrains for Commercial Vehicles

T-127    Automotive 2030–North America

B-925    Toyota R&D Technical Review 2011

B-HON-009    Honda R&D Technical Review: April 2011

T-125    Hybrid-Powered Vehicles, Second Edition

PT-143/5    Electric and Hybrid-Electric Vehicles – Fuel Cell Hybrid EVs

B-ART-026    Energy Harvesting for Autonomous Systems

B-HON-001    Honda R&D Technical Review: October 2009

B-HON-007    Honda R&D Technical Review: April 2009

PT-96    Fuel Cell Technology for Vehicles 2002-2004

T-119   Hybrid Powered Vehicles

T-114    Fuel Cell Powered Vehicles

R-347    Direct Injection Systems

T-100    Alternative Fuels

RR-010    Fuel Cell Vehicles

RR-013    Fuel Cell Powered Vehicles

R-263    The Automotive Industry and the Global Environment

R-187    History of the Electric Automobile

R-180    Alternative Fuels Guidebook

 

SAE EDGE REPORTS

Economics of Fuel Cells and Electric Ground Vehicles

Use of Fuel Cells in Electric Ground Vehicles

 

ISO/TC 197 “Hydrogen technologies”

ISO 13984:1999    Liquid hydrogen — Land vehicle fuelling system interface

ISO 13985:2006    Liquid hydrogen — Land vehicle fuel tanks

ISO 14687:2019    Hydrogen fuel quality — Product specification

ISO/TR 15916:2015    Basic considerations for the safety of hydrogen systems

ISO 16110-1:2007    Hydrogen generators using fuel processing technologies — Part 1: Safety

ISO 16110-2:2010    Hydrogen generators using fuel processing technologies — Part 2: Test methods for performance

ISO 16111:2018    Transportable gas storage devices — Hydrogen absorbed in reversible metal hydride

ISO 17268:2020    Gaseous hydrogen land vehicle refuelling connection devices

ISO 19880-1:2020    Gaseous hydrogen — Fuelling stations — Part 1: General requirements

ISO 19880-3:2018    Gaseous hydrogen — Fuelling stations — Part 3: Valves

ISO 19880-5:2019    Gaseous hydrogen — Fuelling stations — Part 5: Dispenser hoses and hose assemblies

ISO 19880-8:2019    Gaseous hydrogen — Fuelling stations — Part 8: Fuel quality control

ISO 19880-8:2019/Amd 1:2021    Gaseous hydrogen — Fuelling stations — Part 8: Fuel quality control — Amendment 1: Alignment with Grade D of ISO 14687

ISO 19881:2018    Gaseous hydrogen — Land vehicle fuel containers

ISO 19882:2018    Gaseous hydrogen — Thermally activated pressure relief devices for compressed hydrogen vehicle fuel containers

ISO/TS 19883:2017    Safety of pressure swing adsorption systems for hydrogen separation and purification

ISO 22734:2019    Hydrogen generators using water electrolysis — Industrial, commercial, and residential applications

ISO 26142:2010    Hydrogen detection apparatus — Stationary applications

 

IEC TC 105 “Fuel cell technologies”

IEC 62282-2-100:2020    Fuel cell technologies – Part 2-100: Fuel cell modules – Safety

IEC 62282-3-100:2019    RLV Fuel cell technologies – Part 3-100: Stationary fuel cell power systems – Safety

IEC 62282-3-100:2019    Fuel cell technologies – Part 3-100: Stationary fuel cell power systems – Safety

IEC 62282-3-200:2015    Fuel cell technologies – Part 3-200: Stationary fuel cell power systems – Performance test methods

IEC 62282-3-201:2017+AMD1:2022 CSV    Fuel cell technologies – Part 3-201: Stationary fuel cell power systems – Performance test methods for small fuel cell power systems

IEC 62282-3-201:2017    Fuel cell technologies – Part 3-201: Stationary fuel cell power systems – Performance test methods for small fuel cell power systems

IEC 62282-3-201:2017/AMD1:2022 Amendment 1 –    Fuel cell technologies – Part 3-201: Stationary fuel cell

IEC 62282-3-300:2012    Fuel cell technologies – Part 3-300: Stationary fuel cell power systems – Installation

IEC 62282-3-400:2016    Fuel cell technologies – Part 3-400: Stationary fuel cell power systems – Small

IEC 62282-4-101:2022    Fuel cell technologies – Part 4-101: Fuel cell power systems for propulsion other than road vehicles and auxiliary power units (APU) – Safety of electrically powered industrial trucks

IEC 62282-4-102:2022    Fuel cell technologies – Part 4-102: Fuel cell power systems for industrial electric trucks – Performance test methods

IEC 62282-4-600:2022  Fuel cell technologies – Part 4-600: Fuel cell power systems for propulsion other than road vehicles and auxiliary power units (APU) – Fuel cell/battery hybrid systems performance test methods for excavators

IEC 62282-5-100:2018    Fuel cell technologies – Part 5-100: Portable fuel cell power systems – Safety

IEC 62282-6-100:2010+AMD1:2012 CSV    Fuel cell technologies – Part 6-100: Micro fuel cell power systems – Safety

IEC 62282-6-100:2010    Fuel cell technologies – Part 6-100: Micro fuel cell power systems – Safety

IEC 62282-6-100:2010/COR1: Corrigendum 1 –    Fuel cell technologies – Part 6-100: Micro fuel cell power systems – Safety

IEC 62282-6-100:2010/AMD1:2012 Amendment 1 –    Fuel cell technologies – Part 6-100: Micro fuel cell power systems – Safety

IEC PAS 62282-6-150:2011    Fuel cell technologies – Part 6-150: Micro fuel cell power systems – Safety – Water reactive (UN Devision 4.3) compounds in indirect PEM fuel cells

IEC 62282-6-200:2016    Fuel cell technologies – Part 6-200: Micro fuel cell power systems – Performance test methods

IEC 62282-6-300:2012    Fuel cell technologies – Part 6-300: Micro fuel cell power systems – Fuel cartridge interchangeability

IEC 62282-6-400:2019    Fuel cell technologies – Part 6-400: Micro fuel cell power systems – Power and data interchangeability

IEC TS 62282-7-1:2017    Fuel cell technologies – Part 7-1: Test methods – Single cell performance tests for polymer electrolyte fuel cells (PEFC)

IEC 62282-7-2:2021    Fuel cell technologies – Part 7-2: Test methods – Single cell and stack performance tests for solid oxide fuel cells (SOFCs)

IEC 62282-8-101:2020    Fuel cell technologies – Part 8-101: Energy storage systems using fuel cell modules in reverse mode – Test procedures for the performance of solid oxide single cells and stacks, including reversible operation

IEC 62282-8-102:2019    Fuel cell technologies – Part 8-102: Energy storage systems using fuel cell modules in reverse mode – Test procedures for the performance of single cells and stacks with proton exchange membrane, including reversible operation

IEC 62282-8-201:2020    Fuel cell technologies – Part 8-201: Energy storage systems using fuel cell modules in reverse mode – Test procedures for the performance of power-to-power systems

IEC TS 62282-9-101:2020    Fuel cell technologies – Part 9-101: Evaluation methodology for the environmental performance of fuel cell power systems based on life cycle thinking – Streamlined life-cycle considered environmental performance characterization of stationary fuel cell combined heat and power systems for residential applications

IEC TS 62282-9-102:2021    Fuel cell technologies – Part 9-102: Evaluation methodology for the environmental performance of fuel cell power systems based on life cycle thinking – Product category rules for environmental product declarations of stationary fuel cell power systems and alternative systems for residential applications

 

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