BS EN 62282-4-102:2017
$215.11
Fuel cell technologies – Fuel cell power systems for industrial electric trucks. Performance test methods
| Published By | Publication Date | Number of Pages |
| BSI | 2017 | 76 |
IEC 62282-4-102:2017 covers performance test methods of fuel cell power systems intended to be used for electrically powered industrial trucks. The scope of this document is limited to electrically powered industrial trucks. This document applies to gaseous hydrogen-fuelled fuel cell power systems and direct methanol fuel cell power systems for electrically powered industrial trucks. This document covers fuel cell power systems whose fuel source container is permanently attached to either the industrial truck or the fuel cell power system. This document applies to DC type fuel cell power systems, with a rated output voltage not exceeding 150 V DC for indoor and outdoor use.
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 2 | National foreword |
| 7 | English CONTENTS |
| 10 | FOREWORD |
| 12 | INTRODUCTION |
| 13 | 1 Scope 2 Normative references |
| 14 | 3 Terms and definitions |
| 15 | Figures Figure 1 â Fuel cell power systems for industrial electric trucks |
| 16 | 4 Symbols |
| 17 | Tables Table 1 â Symbols and their meanings for electric/thermal performance |
| 18 | 5 Reference conditions 6 Heating value base Table 2 â Symbols and their meanings for environmental performance |
| 19 | 7 Test preparation 7.1 General 7.2 Data acquisition plan 8 Test setup |
| 20 | Figure 2 â Example of a test setup for hydrogen fuel |
| 21 | 9 Instruments and measurement methods 9.1 General 9.2 Measurement instruments Figure 3 â Example of a test setup for methanol fuel |
| 22 | 9.3 Measurement points |
| 23 | 9.4 Minimum required measurement systematic uncertainty 10 Test conditions 10.1 Laboratory conditions 10.2 Installation and operating conditions of the system 10.3 Indication of battery condition 10.4 Quality of test fuel 10.4.1 Hydrogen |
| 24 | 10.4.2 Methanol solution 11 Fuel consumption test 11.1 Hydrogen fuel consumption test 11.1.1 General 11.1.2 Test method 11.1.3 Calculation of results |
| 26 | 11.2 Methanol fuel consumption test 11.2.1 General 11.2.2 Test method 11.2.3 Calculation of average methanol fuel power input |
| 27 | 12 Electrical power output test 12.1 General 12.2 Test method 12.3 Calculation of average electrical power output |
| 28 | 12.4 Computation of electrical efficiency 13 Type tests on operational performance 13.1 Cold start maximum power output test 13.1.1 General 13.1.2 Test method 13.1.3 Processing of data 13.2 Power cycling electrical load test 13.2.1 General 13.2.2 Test method |
| 29 | 13.2.3 Processing of data 13.3 Accessory load voltage spike test 13.3.1 General 13.3.2 Test method 13.3.3 Data processing 14 Power stability under the operation 14.1 General 14.2 Power delivered |
| 30 | 14.3 Power absorbed 15 Type tests on environmental performance 15.1 General 15.2 Noise test 15.2.1 General Table 3 â Power delivered measurements Table 4 â Power absorbed measurements |
| 31 | 15.2.2 Test conditions Figure 4 â Noise measurement points for fuel cell power systems |
| 32 | 15.2.3 Test method 15.2.4 Processing of data 15.3 Exhaust gas test 15.3.1 General 15.3.2 Components to be measured Table 5 â Compensation of readings against the effect of background noise |
| 33 | 15.3.3 Test method 15.3.4 Processing of data |
| 35 | 15.4 Discharge water test 15.4.1 General 15.4.2 Test method 16 Test reports 16.1 General |
| 36 | 16.2 Title page 16.3 Table of contents 16.4 Summary report |
| 37 | Annex A (informative)Heating values for hydrogen and methanol at reference conditions Table A.1 â Heating values for hydrogen and methanol at reference conditions |
| 38 | Annex B (informative)Guidelines for the contents of detailed and full reports B.1 General B.2 Detailed report B.3 Full report |
| 39 | Bibliography |
| 41 | Français SOMMAIRE |
| 44 | AVANT-PROPOS |
| 46 | INTRODUCTION |
| 47 | 1 Domaine dâapplication 2 RĂ©fĂ©rences normatives |
| 48 | 3 Termes et définitions |
| 50 | Figures Figure 1 â SystĂšmes Ă piles Ă combustible pour chariots de manutention Ă©lectriques |
| 51 | 4 Symboles |
| 52 | Tableaux Tableau 1 â Symboles et signification correspondantepour les performances Ă©lectriques/thermiques |
| 53 | 5 Conditions de rĂ©fĂ©rence 6 Base du pouvoir calorifique Tableau 2 â Symboles et signification correspondantepour les performances environnementales |
| 54 | 7 PrĂ©paration aux essais 7.1 GĂ©nĂ©ralitĂ©s 7.2 Plan d’acquisition des donnĂ©es 8 Montage dâessai |
| 55 | Figure 2 â Exemple de montage dâessai pour combustible hydrogĂšne |
| 56 | 9 Appareils de mesure et mĂ©thodes de mesure 9.1 GĂ©nĂ©ralitĂ©s 9.2 Appareils de mesure Figure 3 â Exemple de montage dâessai pour combustible mĂ©thanol |
| 57 | 9.3 Points de mesure |
| 58 | 9.4 Incertitudes de mesure systĂ©matiques minimales exigĂ©es 10 Conditions dâessai 10.1 Conditions de laboratoire 10.2 Conditions dâinstallation et de fonctionnement du systĂšme 10.3 Indication de lâĂ©tat des batteries |
| 59 | 10.4 QualitĂ© du combustible dâessai 10.4.1 HydrogĂšne 10.4.2 Solution de mĂ©thanol 11 Essai de consommation de combustible 11.1 Essai de consommation du combustible hydrogĂšne 11.1.1 GĂ©nĂ©ralitĂ©s 11.1.2 MĂ©thode dâessai 11.1.3 Calcul des rĂ©sultats |
| 61 | 11.2 Essai de consommation du combustible mĂ©thanol 11.2.1 GĂ©nĂ©ralitĂ©s 11.2.2 MĂ©thode dâessai |
| 62 | 11.2.3 Calcul de la puissance moyenne du combustible méthanol en entrée 12 Essai de puissance électrique de sortie 12.1 Généralités |
| 63 | 12.2 MĂ©thode dâessai 12.3 Calcul de la puissance Ă©lectrique moyenne de sortie 12.4 Calcul du rendement Ă©lectrique 13 Essais de type sur les performances opĂ©rationnelles 13.1 Essai de puissance de sortie maximale au dĂ©marrage Ă froid 13.1.1 GĂ©nĂ©ralitĂ©s |
| 64 | 13.1.2 MĂ©thode dâessai 13.1.3 Traitement des donnĂ©es 13.2 Essai de cycle de charge Ă©lectrique dâalimentation 13.2.1 GĂ©nĂ©ralitĂ©s 13.2.2 MĂ©thode dâessai 13.2.3 Traitement des donnĂ©es 13.3 Essai de pointe de tension des charges accessoires 13.3.1 GĂ©nĂ©ralitĂ©s 13.3.2 MĂ©thode dâessai |
| 65 | 13.3.3 Traitement des donnĂ©es 14 StabilitĂ© de puissance pendant le fonctionnement 14.1 GĂ©nĂ©ralitĂ©s 14.2 Puissance dĂ©livrĂ©e Tableau 3 â Mesurages de la puissance dĂ©livrĂ©e |
| 66 | 14.3 Puissance absorbĂ©e 15 Essais de type sur les performances environnementales 15.1 GĂ©nĂ©ralitĂ©s 15.2 Essai de bruit 15.2.1 GĂ©nĂ©ralitĂ©s 15.2.2 Conditions dâessai Tableau 4 â Mesurages de la puissance absorbĂ©e |
| 67 | 15.2.3 MĂ©thode dâessai Figure 4 â Points de mesure du bruit pour systĂšmes Ă piles Ă combustible Tableau 5 â Correction des valeurs lues par rapport Ă lâeffet du bruit de fond |
| 68 | 15.2.4 Traitement des donnĂ©es 15.3 Essai de gaz dâĂ©chappement 15.3.1 GĂ©nĂ©ralitĂ©s 15.3.2 Composants Ă mesurer 15.3.3 MĂ©thode dâessai |
| 69 | 15.3.4 Traitement des données |
| 71 | 15.4 Essai dâeau dâĂ©coulement 15.4.1 GĂ©nĂ©ralitĂ©s 15.4.2 MĂ©thode dâessai |
| 72 | 16 Rapports dâessai 16.1 GĂ©nĂ©ralitĂ©s 16.2 Page de titre 16.3 Sommaire 16.4 Rapport rĂ©sumĂ© |
| 73 | Annexe A (informative)Pouvoirs calorifiques de l’hydrogĂšne etdu mĂ©thanol aux conditions de rĂ©fĂ©rence Tableau A.1 â Pouvoirs calorifiques de lâhydrogĂšneet du mĂ©thanol aux conditions de rĂ©fĂ©rence |
| 74 | Annexe B (informative)Lignes directrices sur le contenu des rapports détaillé et complet B.1 Généralités B.2 Rapport détaillé B.3 Rapport complet |
| 75 | Bibliographie |
